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ABB_IRB140_Product_Specifications.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC041346-001&LanguageCode=en&DocumentPartId=&Action=Launch	1	ROBOTICS Product specification IRB 140 ![Image] Trace back information: Workspace 20D version a10 Checked in 2020-12-16 Skribenta version 5.3.075
ABB_IRB140_Product_Specifications.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC041346-001&LanguageCode=en&DocumentPartId=&Action=Launch	2	ROBOTICS Product specification IRB 140 ![Image] Trace back information: Workspace 20D version a10 Checked in 2020-12-16 Skribenta version 5.3.075 Product specification IRB 140-6/0.8 IRB 140T-6/0.8 Document ID: 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. Specifications subject to change without notice.
ABB_IRB140_Product_Specifications.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC041346-001&LanguageCode=en&DocumentPartId=&Action=Launch	3	Trace back information: Workspace 20D version a10 Checked in 2020-12-16 Skribenta version 5.3.075 Product specification IRB 140-6/0.8 IRB 140T-6/0.8 Document ID: 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. Specifications subject to change without notice. The information in this manual is subject to change without notice and should not be construed as a commitment by ABB. ABB assumes no responsibility for any errors that may appear in this manual. Except as may be expressly stated anywhere in this manual, nothing herein shall be construed as any kind of guarantee or warranty by ABB for losses, damage to persons or property, fitness for a specific purpose or the like. In no event shall ABB be liable for incidental or consequential damages arising from use of this manual and products described herein. This manual and parts thereof must not be reproduced or copied without ABB's written permission. Keep for future reference. Additional copies of this manual may be obtained from ABB. Original instructions. © Copyright 2004-2020 ABB. All rights reserved. Specifications subject to change without notice.
ABB_IRB140_Product_Specifications.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC041346-001&LanguageCode=en&DocumentPartId=&Action=Launch	4	Product specification IRB 140-6/0.8 IRB 140T-6/0.8 Document ID: 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. Specifications subject to change without notice. The information in this manual is subject to change without notice and should not be construed as a commitment by ABB. ABB assumes no responsibility for any errors that may appear in this manual. Except as may be expressly stated anywhere in this manual, nothing herein shall be construed as any kind of guarantee or warranty by ABB for losses, damage to persons or property, fitness for a specific purpose or the like. In no event shall ABB be liable for incidental or consequential damages arising from use of this manual and products described herein. This manual and parts thereof must not be reproduced or copied without ABB's written permission. Keep for future reference. Additional copies of this manual may be obtained from ABB. Original instructions. © Copyright 2004-2020 ABB. All rights reserved. Specifications subject to change without notice. Table of contents 7 Overview of this product specification ............................................................................................. 9 1 Description 9 1.1 Structure ......................................................................................................... 9 1.1.1 Introduction ............................................................................................ 12 1.1.2 Different robot versions ............................................................................ 14 1.2 Standards ........................................................................................................ 14 1.2.1 Applicable standards ............................................................................... 16 1.3 Installation ....................................................................................................... 16 1.3.1 Introduction ............................................................................................ 17 1.3.2 Operating requirements ............................................................................ 21 1.4 Load diagram ................................................................................................... 21 1.4.1 Introduction ............................................................................................ 22 1.4.2 Diagrams ............................................................................................... 23 1.4.3 Maximum load and moment of inertia for full and limited axis 5 (center line down) movement .............................................................................................. 24 1.4.4 Maximum TCP acceleration ....................................................................... 25 1.5 Mounting of equipment ....................................................................................... 25 1.5.1 Introduction ............................................................................................ 26 1.5.2 Holes for mounting of extra equipment ........................................................ 28 1.6 Calibration and references .................................................................................. 28 1.6.1 Calibration methods ................................................................................. 30 1.6.2 Fine calibration ....................................................................................... 31 1.6.3 Absolute Accuracy calibration ................................................................... 33 1.7 Maintenance and troubleshooting ......................................................................... 33 1.7.1 Introduction ............................................................................................ 34 1.8 Robot motion .................................................................................................... 34 1.8.1 Introduction ............................................................................................ 36 1.8.2 Performance according to ISO 9283 ............................................................ 38 1.8.3 Velocity ................................................................................................. 39 1.8.4 Robot stopping distances and times ........................................................... 40 1.8.5 Signals .................................................................................................. 41 2 Specification of variants and options 41 2.1 Introduction to variants and options ...................................................................... 42 2.2 Manipulator ...................................................................................................... 45 2.3 Floor cables ..................................................................................................... 46 2.4 Process ........................................................................................................... 47 2.5 User documentation .......................................................................................... 49 3 Accessories 49 3.1 Introduction to accessories ................................................................................. 51 Index Product specification - IRB 140 5 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. Table of contents
ABB_IRB140_Product_Specifications.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC041346-001&LanguageCode=en&DocumentPartId=&Action=Launch	5	The information in this manual is subject to change without notice and should not be construed as a commitment by ABB. ABB assumes no responsibility for any errors that may appear in this manual. Except as may be expressly stated anywhere in this manual, nothing herein shall be construed as any kind of guarantee or warranty by ABB for losses, damage to persons or property, fitness for a specific purpose or the like. In no event shall ABB be liable for incidental or consequential damages arising from use of this manual and products described herein. This manual and parts thereof must not be reproduced or copied without ABB's written permission. Keep for future reference. Additional copies of this manual may be obtained from ABB. Original instructions. © Copyright 2004-2020 ABB. All rights reserved. Specifications subject to change without notice. Table of contents 7 Overview of this product specification ............................................................................................. 9 1 Description 9 1.1 Structure ......................................................................................................... 9 1.1.1 Introduction ............................................................................................ 12 1.1.2 Different robot versions ............................................................................ 14 1.2 Standards ........................................................................................................ 14 1.2.1 Applicable standards ............................................................................... 16 1.3 Installation ....................................................................................................... 16 1.3.1 Introduction ............................................................................................ 17 1.3.2 Operating requirements ............................................................................ 21 1.4 Load diagram ................................................................................................... 21 1.4.1 Introduction ............................................................................................ 22 1.4.2 Diagrams ............................................................................................... 23 1.4.3 Maximum load and moment of inertia for full and limited axis 5 (center line down) movement .............................................................................................. 24 1.4.4 Maximum TCP acceleration ....................................................................... 25 1.5 Mounting of equipment ....................................................................................... 25 1.5.1 Introduction ............................................................................................ 26 1.5.2 Holes for mounting of extra equipment ........................................................ 28 1.6 Calibration and references .................................................................................. 28 1.6.1 Calibration methods ................................................................................. 30 1.6.2 Fine calibration ....................................................................................... 31 1.6.3 Absolute Accuracy calibration ................................................................... 33 1.7 Maintenance and troubleshooting ......................................................................... 33 1.7.1 Introduction ............................................................................................ 34 1.8 Robot motion .................................................................................................... 34 1.8.1 Introduction ............................................................................................ 36 1.8.2 Performance according to ISO 9283 ............................................................ 38 1.8.3 Velocity ................................................................................................. 39 1.8.4 Robot stopping distances and times ........................................................... 40 1.8.5 Signals .................................................................................................. 41 2 Specification of variants and options 41 2.1 Introduction to variants and options ...................................................................... 42 2.2 Manipulator ...................................................................................................... 45 2.3 Floor cables ..................................................................................................... 46 2.4 Process ........................................................................................................... 47 2.5 User documentation .......................................................................................... 49 3 Accessories 49 3.1 Introduction to accessories ................................................................................. 51 Index Product specification - IRB 140 5 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. Table of contents This page is intentionally left blank
ABB_IRB140_Product_Specifications.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC041346-001&LanguageCode=en&DocumentPartId=&Action=Launch	6	Table of contents 7 Overview of this product specification ............................................................................................. 9 1 Description 9 1.1 Structure ......................................................................................................... 9 1.1.1 Introduction ............................................................................................ 12 1.1.2 Different robot versions ............................................................................ 14 1.2 Standards ........................................................................................................ 14 1.2.1 Applicable standards ............................................................................... 16 1.3 Installation ....................................................................................................... 16 1.3.1 Introduction ............................................................................................ 17 1.3.2 Operating requirements ............................................................................ 21 1.4 Load diagram ................................................................................................... 21 1.4.1 Introduction ............................................................................................ 22 1.4.2 Diagrams ............................................................................................... 23 1.4.3 Maximum load and moment of inertia for full and limited axis 5 (center line down) movement .............................................................................................. 24 1.4.4 Maximum TCP acceleration ....................................................................... 25 1.5 Mounting of equipment ....................................................................................... 25 1.5.1 Introduction ............................................................................................ 26 1.5.2 Holes for mounting of extra equipment ........................................................ 28 1.6 Calibration and references .................................................................................. 28 1.6.1 Calibration methods ................................................................................. 30 1.6.2 Fine calibration ....................................................................................... 31 1.6.3 Absolute Accuracy calibration ................................................................... 33 1.7 Maintenance and troubleshooting ......................................................................... 33 1.7.1 Introduction ............................................................................................ 34 1.8 Robot motion .................................................................................................... 34 1.8.1 Introduction ............................................................................................ 36 1.8.2 Performance according to ISO 9283 ............................................................ 38 1.8.3 Velocity ................................................................................................. 39 1.8.4 Robot stopping distances and times ........................................................... 40 1.8.5 Signals .................................................................................................. 41 2 Specification of variants and options 41 2.1 Introduction to variants and options ...................................................................... 42 2.2 Manipulator ...................................................................................................... 45 2.3 Floor cables ..................................................................................................... 46 2.4 Process ........................................................................................................... 47 2.5 User documentation .......................................................................................... 49 3 Accessories 49 3.1 Introduction to accessories ................................................................................. 51 Index Product specification - IRB 140 5 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. Table of contents This page is intentionally left blank Overview of this product specification About this product specification It describes the performance of the manipulator or a complete family of manipulators in terms of: • The structure and dimensional prints • The fulfilment of standards, safety and operating requirements • The load diagrams, mounting of extra equipment, the motion and the robot reach • The specification of variant and options available Usage Product specifications are used to find data and performance about the product, for example to decide which product to buy. How to handle the product is described in the product manual. Users It is intended for: • Product managers and product personnel • Sales and marketing personnel • Order and customer service personnel References Document ID Reference 3HAC047400-001 Product specification - Controller IRC5 IRC5 with main computer DSQC1000. 3HAC050945-001 Product specification - Controller software IRC5 IRC5 with main computer DSQC1000 and RobotWare 5.6x. 3HAC050945-001 Product specification - Controller software IRC5 IRC5 with main computer DSQC1000 and RobotWare 6. 3HAC027400-001 Product manual - IRB 140 3HAC052355-001 Product specification - Robot user documentation, IRC5 with RobotWare 6 Revisions Description Revision • Replaces article numbers 3HAC9041-1, 3HAC9885-1, 3HAC10320-1, 3HAC10319-1, 3HAC10323-1, and 3HAC9041-012. - • Machinery directive updated • Figure of the base is updated, see Illustration on page 19 . A • Info regarding attachment bolts added B • Minor corrections/update C • Values for stop distance/time IRB 140 Std. added D Continues on next page Product specification - IRB 140 7 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. Overview of this product specification
ABB_IRB140_Product_Specifications.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC041346-001&LanguageCode=en&DocumentPartId=&Action=Launch	7	This page is intentionally left blank Overview of this product specification About this product specification It describes the performance of the manipulator or a complete family of manipulators in terms of: • The structure and dimensional prints • The fulfilment of standards, safety and operating requirements • The load diagrams, mounting of extra equipment, the motion and the robot reach • The specification of variant and options available Usage Product specifications are used to find data and performance about the product, for example to decide which product to buy. How to handle the product is described in the product manual. Users It is intended for: • Product managers and product personnel • Sales and marketing personnel • Order and customer service personnel References Document ID Reference 3HAC047400-001 Product specification - Controller IRC5 IRC5 with main computer DSQC1000. 3HAC050945-001 Product specification - Controller software IRC5 IRC5 with main computer DSQC1000 and RobotWare 5.6x. 3HAC050945-001 Product specification - Controller software IRC5 IRC5 with main computer DSQC1000 and RobotWare 6. 3HAC027400-001 Product manual - IRB 140 3HAC052355-001 Product specification - Robot user documentation, IRC5 with RobotWare 6 Revisions Description Revision • Replaces article numbers 3HAC9041-1, 3HAC9885-1, 3HAC10320-1, 3HAC10319-1, 3HAC10323-1, and 3HAC9041-012. - • Machinery directive updated • Figure of the base is updated, see Illustration on page 19 . A • Info regarding attachment bolts added B • Minor corrections/update C • Values for stop distance/time IRB 140 Std. added D Continues on next page Product specification - IRB 140 7 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. Overview of this product specification Description Revision • Text for ISO test adjusted • Robot stopping distances and times for category 0 and category 1 stops are moved to a separate document, Product specification - Robot stopping distances according to ISO 10218-1 E • Text for Foundry Plus updated. F • Minor corrections/update G • Minor corrections/update H • Illustration in section "Robot motion/Introduction" is change. J Published in release R17.1. The following updates are done in this revision: • Restriction of load diagram added. K Published in release R17.2. The following updates are done in this revision: • Updated list of applicable standards. • Updated inaccuracy in drawings of fastening L Published in release R18.1. The following updates are done in this revision: • TCP acceleration should be presented by RobotStudio. M Published in release R18.2. The following updates are done in this revision: • Corrected option number to 435-88 for variant IRB 140T-6/0.8. N Published in release 19C. The following updates are done in this revision: • Updated information about Absolute Accuracy . • Note added about need to calibrate if the robot is other than floor mounted. P Published in release 20D. The following updates are done in this revision: • Warranty section updated. Q 8 Product specification - IRB 140 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. Overview of this product specification Continued
ABB_IRB140_Product_Specifications.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC041346-001&LanguageCode=en&DocumentPartId=&Action=Launch	8	Overview of this product specification About this product specification It describes the performance of the manipulator or a complete family of manipulators in terms of: • The structure and dimensional prints • The fulfilment of standards, safety and operating requirements • The load diagrams, mounting of extra equipment, the motion and the robot reach • The specification of variant and options available Usage Product specifications are used to find data and performance about the product, for example to decide which product to buy. How to handle the product is described in the product manual. Users It is intended for: • Product managers and product personnel • Sales and marketing personnel • Order and customer service personnel References Document ID Reference 3HAC047400-001 Product specification - Controller IRC5 IRC5 with main computer DSQC1000. 3HAC050945-001 Product specification - Controller software IRC5 IRC5 with main computer DSQC1000 and RobotWare 5.6x. 3HAC050945-001 Product specification - Controller software IRC5 IRC5 with main computer DSQC1000 and RobotWare 6. 3HAC027400-001 Product manual - IRB 140 3HAC052355-001 Product specification - Robot user documentation, IRC5 with RobotWare 6 Revisions Description Revision • Replaces article numbers 3HAC9041-1, 3HAC9885-1, 3HAC10320-1, 3HAC10319-1, 3HAC10323-1, and 3HAC9041-012. - • Machinery directive updated • Figure of the base is updated, see Illustration on page 19 . A • Info regarding attachment bolts added B • Minor corrections/update C • Values for stop distance/time IRB 140 Std. added D Continues on next page Product specification - IRB 140 7 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. Overview of this product specification Description Revision • Text for ISO test adjusted • Robot stopping distances and times for category 0 and category 1 stops are moved to a separate document, Product specification - Robot stopping distances according to ISO 10218-1 E • Text for Foundry Plus updated. F • Minor corrections/update G • Minor corrections/update H • Illustration in section "Robot motion/Introduction" is change. J Published in release R17.1. The following updates are done in this revision: • Restriction of load diagram added. K Published in release R17.2. The following updates are done in this revision: • Updated list of applicable standards. • Updated inaccuracy in drawings of fastening L Published in release R18.1. The following updates are done in this revision: • TCP acceleration should be presented by RobotStudio. M Published in release R18.2. The following updates are done in this revision: • Corrected option number to 435-88 for variant IRB 140T-6/0.8. N Published in release 19C. The following updates are done in this revision: • Updated information about Absolute Accuracy . • Note added about need to calibrate if the robot is other than floor mounted. P Published in release 20D. The following updates are done in this revision: • Warranty section updated. Q 8 Product specification - IRB 140 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. Overview of this product specification Continued 1 Description 1.1 Structure 1.1.1 Introduction General IRB 140 is a 6-axis industrial robot, with a payload of 6 kg, designed specifically for manufacturing industries that use flexible robot-based automation. The robot has an open structure that is specially adapted for flexible use, and can communicate extensively with external systems. Protection type Foundry Plus 2 Robots with the option Foundry Plus 2 are designed for harsh environments where the robot is exposed to sprays of coolants, lubricants and metal spits that are typical for die casting applications or other similar applications. Typical applications are spraying insertion and part extraction of die-casting machines, handling in sand casting and gravity casting, etc. (Please refer to Foundry Prime robots for washing applications or other similar applications). Special care must be taken in regard to operational and maintenance requirements for applications in foundry are as well as in other applications areas. Please contact ABB Robotics Sales organization if in doubt regarding specific application feasibility for the Foundry Plus 2 protected robot. The robot is painted with two-component epoxy on top of a primer for corrosion protection. To further improve the corrosion protection additional rust preventive are applied to exposed and crucial areas, e.g. has the tool flange a special preventive coating. Although, continuous splashing of water or other similar rust formation fluids may cause rust attach on the robots unpainted areas, joints, or other unprotected surfaces. Under these circumstances it is recommended to add rust inhibitor to the fluid or take other measures to prevent potential rust formation on the mentioned. The entire robot is IP67 compliant according to IEC 60529 - from base to wrist, which means that the electrical compartments are sealed against water and solid contaminants. Among other things all sensitive parts are better protected than the standard offer. Selected Foundry Plus 2 features: • Improved sealing to prevent penetration into cavities to secure IP67 • Additional protection of cabling and electronics • Special covers that protect cavities • Well-proven connectors • Nickel coated tool flange • Rust preventives on screws, washers and unpainted/machined surfaces • Extended service and maintenance program Continues on next page Product specification - IRB 140 9 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.1.1 Introduction
ABB_IRB140_Product_Specifications.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC041346-001&LanguageCode=en&DocumentPartId=&Action=Launch	9	Description Revision • Text for ISO test adjusted • Robot stopping distances and times for category 0 and category 1 stops are moved to a separate document, Product specification - Robot stopping distances according to ISO 10218-1 E • Text for Foundry Plus updated. F • Minor corrections/update G • Minor corrections/update H • Illustration in section "Robot motion/Introduction" is change. J Published in release R17.1. The following updates are done in this revision: • Restriction of load diagram added. K Published in release R17.2. The following updates are done in this revision: • Updated list of applicable standards. • Updated inaccuracy in drawings of fastening L Published in release R18.1. The following updates are done in this revision: • TCP acceleration should be presented by RobotStudio. M Published in release R18.2. The following updates are done in this revision: • Corrected option number to 435-88 for variant IRB 140T-6/0.8. N Published in release 19C. The following updates are done in this revision: • Updated information about Absolute Accuracy . • Note added about need to calibrate if the robot is other than floor mounted. P Published in release 20D. The following updates are done in this revision: • Warranty section updated. Q 8 Product specification - IRB 140 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. Overview of this product specification Continued 1 Description 1.1 Structure 1.1.1 Introduction General IRB 140 is a 6-axis industrial robot, with a payload of 6 kg, designed specifically for manufacturing industries that use flexible robot-based automation. The robot has an open structure that is specially adapted for flexible use, and can communicate extensively with external systems. Protection type Foundry Plus 2 Robots with the option Foundry Plus 2 are designed for harsh environments where the robot is exposed to sprays of coolants, lubricants and metal spits that are typical for die casting applications or other similar applications. Typical applications are spraying insertion and part extraction of die-casting machines, handling in sand casting and gravity casting, etc. (Please refer to Foundry Prime robots for washing applications or other similar applications). Special care must be taken in regard to operational and maintenance requirements for applications in foundry are as well as in other applications areas. Please contact ABB Robotics Sales organization if in doubt regarding specific application feasibility for the Foundry Plus 2 protected robot. The robot is painted with two-component epoxy on top of a primer for corrosion protection. To further improve the corrosion protection additional rust preventive are applied to exposed and crucial areas, e.g. has the tool flange a special preventive coating. Although, continuous splashing of water or other similar rust formation fluids may cause rust attach on the robots unpainted areas, joints, or other unprotected surfaces. Under these circumstances it is recommended to add rust inhibitor to the fluid or take other measures to prevent potential rust formation on the mentioned. The entire robot is IP67 compliant according to IEC 60529 - from base to wrist, which means that the electrical compartments are sealed against water and solid contaminants. Among other things all sensitive parts are better protected than the standard offer. Selected Foundry Plus 2 features: • Improved sealing to prevent penetration into cavities to secure IP67 • Additional protection of cabling and electronics • Special covers that protect cavities • Well-proven connectors • Nickel coated tool flange • Rust preventives on screws, washers and unpainted/machined surfaces • Extended service and maintenance program Continues on next page Product specification - IRB 140 9 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.1.1 Introduction The Foundry Plus 2 robot can be cleaned with appropriate washing equipment according to the robot product manual. Appropriate cleaning and maintenance is required to maintain the protection, for example can rust preventive be washed off with wrong cleaning method. Available robot versions The option Foundry Plus 2 might not be available for all robot versions. See Specification of variants and options on page 41 for robot versions and other options not selectable together with Foundry Plus 2. Protection type Clean Room ![Image] xx0900000435 The illustration above is a sample of an IPA certified lable. Robots with the option Clean Room are classified for clean room class 6 according to ISO 14644-1. The Clean Room robots are protected with a paint appropriate for clean room applications. The paint has been tested regarding outgassing of Volatile Organic Compounds (VOC) and been classified in accordance with ISO 14644-8. Classification of airborne molecular contamination, see below: Outgassing amount Parameter Classification in ac- cordance with ISO 14644-8 Normed based on 1 m 2 and 1s (g) Total detec- ted (ng) Per- formed test Tem- perat- ure ( o C) Test dur- ation (s) Area (m 2 ) -6.8 1.7E-07 2848 TVOC 23 3600 4.5E-03 -3.8 1.7E-04 46524 TVOC 90 60 4.5E-03 Classification results in accordance with ISO 14644-8 at different test temperatures. See Specification of variants and options on page 41 for options that are not selectable together with the option Clean Room. Operating system The robot is equipped with the IRC5 controller and robot control software, RobotWare. RobotWare supports every aspect of the robot system, such as motion control, development and execution of application programs, communication etc. See Product specification - Controller software IRC5 , and Product specification - Controller IRC5 with FlexPendant . Safety Safety standards valid for complete robot, manipulator and controller. Continues on next page 10 Product specification - IRB 140 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.1.1 Introduction Continued
ABB_IRB140_Product_Specifications.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC041346-001&LanguageCode=en&DocumentPartId=&Action=Launch	10	1 Description 1.1 Structure 1.1.1 Introduction General IRB 140 is a 6-axis industrial robot, with a payload of 6 kg, designed specifically for manufacturing industries that use flexible robot-based automation. The robot has an open structure that is specially adapted for flexible use, and can communicate extensively with external systems. Protection type Foundry Plus 2 Robots with the option Foundry Plus 2 are designed for harsh environments where the robot is exposed to sprays of coolants, lubricants and metal spits that are typical for die casting applications or other similar applications. Typical applications are spraying insertion and part extraction of die-casting machines, handling in sand casting and gravity casting, etc. (Please refer to Foundry Prime robots for washing applications or other similar applications). Special care must be taken in regard to operational and maintenance requirements for applications in foundry are as well as in other applications areas. Please contact ABB Robotics Sales organization if in doubt regarding specific application feasibility for the Foundry Plus 2 protected robot. The robot is painted with two-component epoxy on top of a primer for corrosion protection. To further improve the corrosion protection additional rust preventive are applied to exposed and crucial areas, e.g. has the tool flange a special preventive coating. Although, continuous splashing of water or other similar rust formation fluids may cause rust attach on the robots unpainted areas, joints, or other unprotected surfaces. Under these circumstances it is recommended to add rust inhibitor to the fluid or take other measures to prevent potential rust formation on the mentioned. The entire robot is IP67 compliant according to IEC 60529 - from base to wrist, which means that the electrical compartments are sealed against water and solid contaminants. Among other things all sensitive parts are better protected than the standard offer. Selected Foundry Plus 2 features: • Improved sealing to prevent penetration into cavities to secure IP67 • Additional protection of cabling and electronics • Special covers that protect cavities • Well-proven connectors • Nickel coated tool flange • Rust preventives on screws, washers and unpainted/machined surfaces • Extended service and maintenance program Continues on next page Product specification - IRB 140 9 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.1.1 Introduction The Foundry Plus 2 robot can be cleaned with appropriate washing equipment according to the robot product manual. Appropriate cleaning and maintenance is required to maintain the protection, for example can rust preventive be washed off with wrong cleaning method. Available robot versions The option Foundry Plus 2 might not be available for all robot versions. See Specification of variants and options on page 41 for robot versions and other options not selectable together with Foundry Plus 2. Protection type Clean Room ![Image] xx0900000435 The illustration above is a sample of an IPA certified lable. Robots with the option Clean Room are classified for clean room class 6 according to ISO 14644-1. The Clean Room robots are protected with a paint appropriate for clean room applications. The paint has been tested regarding outgassing of Volatile Organic Compounds (VOC) and been classified in accordance with ISO 14644-8. Classification of airborne molecular contamination, see below: Outgassing amount Parameter Classification in ac- cordance with ISO 14644-8 Normed based on 1 m 2 and 1s (g) Total detec- ted (ng) Per- formed test Tem- perat- ure ( o C) Test dur- ation (s) Area (m 2 ) -6.8 1.7E-07 2848 TVOC 23 3600 4.5E-03 -3.8 1.7E-04 46524 TVOC 90 60 4.5E-03 Classification results in accordance with ISO 14644-8 at different test temperatures. See Specification of variants and options on page 41 for options that are not selectable together with the option Clean Room. Operating system The robot is equipped with the IRC5 controller and robot control software, RobotWare. RobotWare supports every aspect of the robot system, such as motion control, development and execution of application programs, communication etc. See Product specification - Controller software IRC5 , and Product specification - Controller IRC5 with FlexPendant . Safety Safety standards valid for complete robot, manipulator and controller. Continues on next page 10 Product specification - IRB 140 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.1.1 Introduction Continued Additional functionality For additional functionality, the robot can be equipped with optional software for application support - for example gluing and welding, communication features - network communication - and advanced functions such as multitasking, sensor control etc. For a complete description on optional software. See Product specification - Controller software IRC5 . Manipulator axes ![Image] xx1000000859 Description Posi- tion Description Posi- tion Axis 2 B Axis 1 A Axis 4 D Axis 3 C Axis 6 F Axis 5 E Product specification - IRB 140 11 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.1.1 Introduction Continued
ABB_IRB140_Product_Specifications.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC041346-001&LanguageCode=en&DocumentPartId=&Action=Launch	11	The Foundry Plus 2 robot can be cleaned with appropriate washing equipment according to the robot product manual. Appropriate cleaning and maintenance is required to maintain the protection, for example can rust preventive be washed off with wrong cleaning method. Available robot versions The option Foundry Plus 2 might not be available for all robot versions. See Specification of variants and options on page 41 for robot versions and other options not selectable together with Foundry Plus 2. Protection type Clean Room ![Image] xx0900000435 The illustration above is a sample of an IPA certified lable. Robots with the option Clean Room are classified for clean room class 6 according to ISO 14644-1. The Clean Room robots are protected with a paint appropriate for clean room applications. The paint has been tested regarding outgassing of Volatile Organic Compounds (VOC) and been classified in accordance with ISO 14644-8. Classification of airborne molecular contamination, see below: Outgassing amount Parameter Classification in ac- cordance with ISO 14644-8 Normed based on 1 m 2 and 1s (g) Total detec- ted (ng) Per- formed test Tem- perat- ure ( o C) Test dur- ation (s) Area (m 2 ) -6.8 1.7E-07 2848 TVOC 23 3600 4.5E-03 -3.8 1.7E-04 46524 TVOC 90 60 4.5E-03 Classification results in accordance with ISO 14644-8 at different test temperatures. See Specification of variants and options on page 41 for options that are not selectable together with the option Clean Room. Operating system The robot is equipped with the IRC5 controller and robot control software, RobotWare. RobotWare supports every aspect of the robot system, such as motion control, development and execution of application programs, communication etc. See Product specification - Controller software IRC5 , and Product specification - Controller IRC5 with FlexPendant . Safety Safety standards valid for complete robot, manipulator and controller. Continues on next page 10 Product specification - IRB 140 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.1.1 Introduction Continued Additional functionality For additional functionality, the robot can be equipped with optional software for application support - for example gluing and welding, communication features - network communication - and advanced functions such as multitasking, sensor control etc. For a complete description on optional software. See Product specification - Controller software IRC5 . Manipulator axes ![Image] xx1000000859 Description Posi- tion Description Posi- tion Axis 2 B Axis 1 A Axis 4 D Axis 3 C Axis 6 F Axis 5 E Product specification - IRB 140 11 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.1.1 Introduction Continued 1.1.2 Different robot versions General The IRB 140-6/0.8 is available in two versions and all can be mounted on floor, inverted or on wall in any angle (tilted around X or Y axis). The high speed variant, IRB 140T, provides further reduced cycle time: Reach (m) Handling capacity (kg) Robot type 0.8 m 6 kg IRB 140 0.8 m 6 kg IRB 140T Manipulator weight Description Data 98 kg (excluding the cables to the controller) Manipulator Other technical data Note Description Data < 70 dB (A) Leq (acc. to the working space Machinery directive 2006/42/EG) The sound pressure level outside Airborne noise level Power consumption Power consumption (kW) Speed (mm/s) 0.44 Max. 0.39 1000 0.36 500 0.34 100 E1 E4 E3 E2 A xx1000000101 Description Position 250 mm A Path E-E2-E3-E4 in the ISO Cube, maximum load. Continues on next page 12 Product specification - IRB 140 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.1.2 Different robot versions
ABB_IRB140_Product_Specifications.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC041346-001&LanguageCode=en&DocumentPartId=&Action=Launch	12	Additional functionality For additional functionality, the robot can be equipped with optional software for application support - for example gluing and welding, communication features - network communication - and advanced functions such as multitasking, sensor control etc. For a complete description on optional software. See Product specification - Controller software IRC5 . Manipulator axes ![Image] xx1000000859 Description Posi- tion Description Posi- tion Axis 2 B Axis 1 A Axis 4 D Axis 3 C Axis 6 F Axis 5 E Product specification - IRB 140 11 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.1.1 Introduction Continued 1.1.2 Different robot versions General The IRB 140-6/0.8 is available in two versions and all can be mounted on floor, inverted or on wall in any angle (tilted around X or Y axis). The high speed variant, IRB 140T, provides further reduced cycle time: Reach (m) Handling capacity (kg) Robot type 0.8 m 6 kg IRB 140 0.8 m 6 kg IRB 140T Manipulator weight Description Data 98 kg (excluding the cables to the controller) Manipulator Other technical data Note Description Data < 70 dB (A) Leq (acc. to the working space Machinery directive 2006/42/EG) The sound pressure level outside Airborne noise level Power consumption Power consumption (kW) Speed (mm/s) 0.44 Max. 0.39 1000 0.36 500 0.34 100 E1 E4 E3 E2 A xx1000000101 Description Position 250 mm A Path E-E2-E3-E4 in the ISO Cube, maximum load. Continues on next page 12 Product specification - IRB 140 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.1.2 Different robot versions Dimensions IRB 140 xx1000000864 Description Pos Minimum turning radius A Product specification - IRB 140 13 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.1.2 Different robot versions Continued
ABB_IRB140_Product_Specifications.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC041346-001&LanguageCode=en&DocumentPartId=&Action=Launch	13	1.1.2 Different robot versions General The IRB 140-6/0.8 is available in two versions and all can be mounted on floor, inverted or on wall in any angle (tilted around X or Y axis). The high speed variant, IRB 140T, provides further reduced cycle time: Reach (m) Handling capacity (kg) Robot type 0.8 m 6 kg IRB 140 0.8 m 6 kg IRB 140T Manipulator weight Description Data 98 kg (excluding the cables to the controller) Manipulator Other technical data Note Description Data < 70 dB (A) Leq (acc. to the working space Machinery directive 2006/42/EG) The sound pressure level outside Airborne noise level Power consumption Power consumption (kW) Speed (mm/s) 0.44 Max. 0.39 1000 0.36 500 0.34 100 E1 E4 E3 E2 A xx1000000101 Description Position 250 mm A Path E-E2-E3-E4 in the ISO Cube, maximum load. Continues on next page 12 Product specification - IRB 140 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.1.2 Different robot versions Dimensions IRB 140 xx1000000864 Description Pos Minimum turning radius A Product specification - IRB 140 13 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.1.2 Different robot versions Continued 1.2 Standards 1.2.1 Applicable standards Note The listed standards are valid at the time of the release of this document. Phased out or replaced standards are removed from the list when needed. General The product is designed in accordance with EN ISO 10218-1, Robots for industrial environments - Safety requirements -Part 1 Robot. If there are deviations, these are listed in the declaration of incorporation which is included on delivery. Standards, EN ISO The product is designed in accordance with selected parts of: Description Standard Safety of machinery - General principles for design - Risk as- sessment and risk reduction EN ISO 12100:2010 Safety of machinery, safety related parts of control systems - Part 1: General principles for design EN ISO 13849-1:2015 Safety of machinery - Emergency stop - Principles for design EN ISO 13850:2015 Robots and robotic devices -- Coordinate systems and motion nomenclatures ISO 9787:2013 Manipulating industrial robots, performance criteria, and related test methods ISO 9283:1998 Classification of air cleanliness EN ISO 14644-1:2015 i Ergonomics of the thermal environment - Part 1 EN ISO 13732-1:2008 EMC, Generic emission EN 61000-6-4:2007 + A1:2011 IEC 61000-6-4:2006 + A1:2010 (option 129-1) EMC, Generic immunity EN 61000-6-2:2005 IEC 61000-6-2:2005 Arc welding equipment - Part 1: Welding power sources EN IEC 60974-1:2012 ii Arc welding equipment - Part 10: EMC requirements EN IEC 60974-10:2014 ii Safety of machinery - Electrical equipment of machines - Part 1 General requirements EN IEC 60204-1:2016 Degrees of protection provided by enclosures (IP code) IEC 60529:1989 + A2:2013 i Only robots with protection Clean Room. ii Only valid for arc welding robots. Replaces EN IEC 61000-6-4 for arc welding robots. Continues on next page 14 Product specification - IRB 140 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.2.1 Applicable standards
ABB_IRB140_Product_Specifications.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC041346-001&LanguageCode=en&DocumentPartId=&Action=Launch	14	Dimensions IRB 140 xx1000000864 Description Pos Minimum turning radius A Product specification - IRB 140 13 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.1.2 Different robot versions Continued 1.2 Standards 1.2.1 Applicable standards Note The listed standards are valid at the time of the release of this document. Phased out or replaced standards are removed from the list when needed. General The product is designed in accordance with EN ISO 10218-1, Robots for industrial environments - Safety requirements -Part 1 Robot. If there are deviations, these are listed in the declaration of incorporation which is included on delivery. Standards, EN ISO The product is designed in accordance with selected parts of: Description Standard Safety of machinery - General principles for design - Risk as- sessment and risk reduction EN ISO 12100:2010 Safety of machinery, safety related parts of control systems - Part 1: General principles for design EN ISO 13849-1:2015 Safety of machinery - Emergency stop - Principles for design EN ISO 13850:2015 Robots and robotic devices -- Coordinate systems and motion nomenclatures ISO 9787:2013 Manipulating industrial robots, performance criteria, and related test methods ISO 9283:1998 Classification of air cleanliness EN ISO 14644-1:2015 i Ergonomics of the thermal environment - Part 1 EN ISO 13732-1:2008 EMC, Generic emission EN 61000-6-4:2007 + A1:2011 IEC 61000-6-4:2006 + A1:2010 (option 129-1) EMC, Generic immunity EN 61000-6-2:2005 IEC 61000-6-2:2005 Arc welding equipment - Part 1: Welding power sources EN IEC 60974-1:2012 ii Arc welding equipment - Part 10: EMC requirements EN IEC 60974-10:2014 ii Safety of machinery - Electrical equipment of machines - Part 1 General requirements EN IEC 60204-1:2016 Degrees of protection provided by enclosures (IP code) IEC 60529:1989 + A2:2013 i Only robots with protection Clean Room. ii Only valid for arc welding robots. Replaces EN IEC 61000-6-4 for arc welding robots. Continues on next page 14 Product specification - IRB 140 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.2.1 Applicable standards European standards The product is designed in accordance with selected parts of: Description Standard Safety of machinery - Ergonomic design principles - Part 1: Terminology and general principles EN 614-1:2006 + A1:2009 Safety of machinery - Two-hand control devices - Functional aspects - Principles for design EN 574:1996 + A1:2008 UL, ANSI, and other standards Description Standard Safety requirements for industrial robots and robot systems ANSI/RIA R15.06 Safety standard for robots and robotic equipment ANSI/UL 1740 Industrial robots and robot Systems - General safety require- ments CAN/CSA Z 434-14 Product specification - IRB 140 15 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.2.1 Applicable standards Continued
ABB_IRB140_Product_Specifications.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC041346-001&LanguageCode=en&DocumentPartId=&Action=Launch	15	1.2 Standards 1.2.1 Applicable standards Note The listed standards are valid at the time of the release of this document. Phased out or replaced standards are removed from the list when needed. General The product is designed in accordance with EN ISO 10218-1, Robots for industrial environments - Safety requirements -Part 1 Robot. If there are deviations, these are listed in the declaration of incorporation which is included on delivery. Standards, EN ISO The product is designed in accordance with selected parts of: Description Standard Safety of machinery - General principles for design - Risk as- sessment and risk reduction EN ISO 12100:2010 Safety of machinery, safety related parts of control systems - Part 1: General principles for design EN ISO 13849-1:2015 Safety of machinery - Emergency stop - Principles for design EN ISO 13850:2015 Robots and robotic devices -- Coordinate systems and motion nomenclatures ISO 9787:2013 Manipulating industrial robots, performance criteria, and related test methods ISO 9283:1998 Classification of air cleanliness EN ISO 14644-1:2015 i Ergonomics of the thermal environment - Part 1 EN ISO 13732-1:2008 EMC, Generic emission EN 61000-6-4:2007 + A1:2011 IEC 61000-6-4:2006 + A1:2010 (option 129-1) EMC, Generic immunity EN 61000-6-2:2005 IEC 61000-6-2:2005 Arc welding equipment - Part 1: Welding power sources EN IEC 60974-1:2012 ii Arc welding equipment - Part 10: EMC requirements EN IEC 60974-10:2014 ii Safety of machinery - Electrical equipment of machines - Part 1 General requirements EN IEC 60204-1:2016 Degrees of protection provided by enclosures (IP code) IEC 60529:1989 + A2:2013 i Only robots with protection Clean Room. ii Only valid for arc welding robots. Replaces EN IEC 61000-6-4 for arc welding robots. Continues on next page 14 Product specification - IRB 140 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.2.1 Applicable standards European standards The product is designed in accordance with selected parts of: Description Standard Safety of machinery - Ergonomic design principles - Part 1: Terminology and general principles EN 614-1:2006 + A1:2009 Safety of machinery - Two-hand control devices - Functional aspects - Principles for design EN 574:1996 + A1:2008 UL, ANSI, and other standards Description Standard Safety requirements for industrial robots and robot systems ANSI/RIA R15.06 Safety standard for robots and robotic equipment ANSI/UL 1740 Industrial robots and robot Systems - General safety require- ments CAN/CSA Z 434-14 Product specification - IRB 140 15 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.2.1 Applicable standards Continued 1.3 Installation 1.3.1 Introduction General IRB 140 is available in four different environmental adapted variants, one for normal industrial environment, one for foundry, one for other harsh environments, and one for clean room environments. An end effector, weighing a maximum of 6 kg, including payload, can be mounted on the robot’s mounting flange (axis 6). Other equipment, weighing a maximum of 1.5 kg, can be mounted on the upper arm. For more information about mounting of extra equipment, see Figure in Holes for mounting of extra equipment on page 26 . 16 Product specification - IRB 140 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.3.1 Introduction
ABB_IRB140_Product_Specifications.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC041346-001&LanguageCode=en&DocumentPartId=&Action=Launch	16	European standards The product is designed in accordance with selected parts of: Description Standard Safety of machinery - Ergonomic design principles - Part 1: Terminology and general principles EN 614-1:2006 + A1:2009 Safety of machinery - Two-hand control devices - Functional aspects - Principles for design EN 574:1996 + A1:2008 UL, ANSI, and other standards Description Standard Safety requirements for industrial robots and robot systems ANSI/RIA R15.06 Safety standard for robots and robotic equipment ANSI/UL 1740 Industrial robots and robot Systems - General safety require- ments CAN/CSA Z 434-14 Product specification - IRB 140 15 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.2.1 Applicable standards Continued 1.3 Installation 1.3.1 Introduction General IRB 140 is available in four different environmental adapted variants, one for normal industrial environment, one for foundry, one for other harsh environments, and one for clean room environments. An end effector, weighing a maximum of 6 kg, including payload, can be mounted on the robot’s mounting flange (axis 6). Other equipment, weighing a maximum of 1.5 kg, can be mounted on the upper arm. For more information about mounting of extra equipment, see Figure in Holes for mounting of extra equipment on page 26 . 16 Product specification - IRB 140 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.3.1 Introduction 1.3.2 Operating requirements General IEC60529 Robot version/ Protection standard IP67 All variants, manipulator Steam washable The Foundry Plus and SteamWash versions are steam washable. Clean room standards Clean room manipulator ISO 14644-1 class 6. Explosive environments The robot must not be located or operated in an explosive environment. Ambient temperature Temperature Standard/Option Description + 5°C i (41°F) to + 45°C (113°F) Standard Manipulator during opera- tion See Product specification - Control- ler IRC5 with FlexPendant Standard/Option For the controller - 25°C (-13°F) to + 55°C (131°F) Standard Complete robot during transportation and storage up to + 70°C (158°F) Standard For short periods (not ex- ceeding 24 hours) i At low environmental temperature < 10 o C is, as with any other machine, a warm-up phase recommended to be run with the robot. Otherwise there is a risk that the robot stops or run with lower performance due to temperature dependent oil and grease viscosity. Relative humidity Relative humidity Description Max. 95% at constant temperature Complete robot during transportation and storage Max. 95% at constant temperature Complete robot during operation Mounting the manipulator Maximum load in relation to the base coordinate system. See figures below: Floor Mounted Max. load (emergency stop) Endurance load (in operation) Force ± 2000 N ± 1020 N Force xy - 1000 ± 1250 N - 1000 ± 620 N Force z ± 1500 Nm ± 700 Nm Torque xy ± 470 Nm ± 250 Nm Torque z Continues on next page Product specification - IRB 140 17 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.3.2 Operating requirements
ABB_IRB140_Product_Specifications.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC041346-001&LanguageCode=en&DocumentPartId=&Action=Launch	17	1.3 Installation 1.3.1 Introduction General IRB 140 is available in four different environmental adapted variants, one for normal industrial environment, one for foundry, one for other harsh environments, and one for clean room environments. An end effector, weighing a maximum of 6 kg, including payload, can be mounted on the robot’s mounting flange (axis 6). Other equipment, weighing a maximum of 1.5 kg, can be mounted on the upper arm. For more information about mounting of extra equipment, see Figure in Holes for mounting of extra equipment on page 26 . 16 Product specification - IRB 140 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.3.1 Introduction 1.3.2 Operating requirements General IEC60529 Robot version/ Protection standard IP67 All variants, manipulator Steam washable The Foundry Plus and SteamWash versions are steam washable. Clean room standards Clean room manipulator ISO 14644-1 class 6. Explosive environments The robot must not be located or operated in an explosive environment. Ambient temperature Temperature Standard/Option Description + 5°C i (41°F) to + 45°C (113°F) Standard Manipulator during opera- tion See Product specification - Control- ler IRC5 with FlexPendant Standard/Option For the controller - 25°C (-13°F) to + 55°C (131°F) Standard Complete robot during transportation and storage up to + 70°C (158°F) Standard For short periods (not ex- ceeding 24 hours) i At low environmental temperature < 10 o C is, as with any other machine, a warm-up phase recommended to be run with the robot. Otherwise there is a risk that the robot stops or run with lower performance due to temperature dependent oil and grease viscosity. Relative humidity Relative humidity Description Max. 95% at constant temperature Complete robot during transportation and storage Max. 95% at constant temperature Complete robot during operation Mounting the manipulator Maximum load in relation to the base coordinate system. See figures below: Floor Mounted Max. load (emergency stop) Endurance load (in operation) Force ± 2000 N ± 1020 N Force xy - 1000 ± 1250 N - 1000 ± 620 N Force z ± 1500 Nm ± 700 Nm Torque xy ± 470 Nm ± 250 Nm Torque z Continues on next page Product specification - IRB 140 17 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.3.2 Operating requirements Wall Mounted Max. load (emergency stop) Endurance load (in operation) Force ± 2800 N ± 1750 N Force xy ± 1600 N ± 850 N Force z ± 1710 Nm ± 1020 Nm Torque xy ± 485 Nm ± 250 Nm Torque z Suspended Max. load (emergency stop) Endurance load (in operation) Force ± 2000 N ± 1020 N Force xy + 1000 ± 1250 N + 1000 ± 620 N Force z ± 1500 Nm ± 700 Nm Torque xy ± 470 Nm ± 250 Nm Torque z X Y Torque (M ) xy xy Force (F ) xy xy Force (F ) z z Torque (M ) z z xx1000000860 Continues on next page 18 Product specification - IRB 140 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.3.2 Operating requirements Continued
ABB_IRB140_Product_Specifications.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC041346-001&LanguageCode=en&DocumentPartId=&Action=Launch	18	1.3.2 Operating requirements General IEC60529 Robot version/ Protection standard IP67 All variants, manipulator Steam washable The Foundry Plus and SteamWash versions are steam washable. Clean room standards Clean room manipulator ISO 14644-1 class 6. Explosive environments The robot must not be located or operated in an explosive environment. Ambient temperature Temperature Standard/Option Description + 5°C i (41°F) to + 45°C (113°F) Standard Manipulator during opera- tion See Product specification - Control- ler IRC5 with FlexPendant Standard/Option For the controller - 25°C (-13°F) to + 55°C (131°F) Standard Complete robot during transportation and storage up to + 70°C (158°F) Standard For short periods (not ex- ceeding 24 hours) i At low environmental temperature < 10 o C is, as with any other machine, a warm-up phase recommended to be run with the robot. Otherwise there is a risk that the robot stops or run with lower performance due to temperature dependent oil and grease viscosity. Relative humidity Relative humidity Description Max. 95% at constant temperature Complete robot during transportation and storage Max. 95% at constant temperature Complete robot during operation Mounting the manipulator Maximum load in relation to the base coordinate system. See figures below: Floor Mounted Max. load (emergency stop) Endurance load (in operation) Force ± 2000 N ± 1020 N Force xy - 1000 ± 1250 N - 1000 ± 620 N Force z ± 1500 Nm ± 700 Nm Torque xy ± 470 Nm ± 250 Nm Torque z Continues on next page Product specification - IRB 140 17 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.3.2 Operating requirements Wall Mounted Max. load (emergency stop) Endurance load (in operation) Force ± 2800 N ± 1750 N Force xy ± 1600 N ± 850 N Force z ± 1710 Nm ± 1020 Nm Torque xy ± 485 Nm ± 250 Nm Torque z Suspended Max. load (emergency stop) Endurance load (in operation) Force ± 2000 N ± 1020 N Force xy + 1000 ± 1250 N + 1000 ± 620 N Force z ± 1500 Nm ± 700 Nm Torque xy ± 470 Nm ± 250 Nm Torque z X Y Torque (M ) xy xy Force (F ) xy xy Force (F ) z z Torque (M ) z z xx1000000860 Continues on next page 18 Product specification - IRB 140 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.3.2 Operating requirements Continued Note regarding M xy and F xy The bending torque (M xy ) can occur in any direction in the XY-plane of the base coordinate system. The same applies to the transverse force (F xy ). Illustration Ø 25H8 (2x) 80 155 A A B B - B 39 180 180 X Ø 0,25 Y Ø 25H8 (2x) 80 Ø13 155 A A B B B - B 39 180 180 X Ø 0,25 Y Z A Ø 0,6 Ø 0, A xx0200000085 Continues on next page Product specification - IRB 140 19 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.3.2 Operating requirements Continued
ABB_IRB140_Product_Specifications.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC041346-001&LanguageCode=en&DocumentPartId=&Action=Launch	19	Wall Mounted Max. load (emergency stop) Endurance load (in operation) Force ± 2800 N ± 1750 N Force xy ± 1600 N ± 850 N Force z ± 1710 Nm ± 1020 Nm Torque xy ± 485 Nm ± 250 Nm Torque z Suspended Max. load (emergency stop) Endurance load (in operation) Force ± 2000 N ± 1020 N Force xy + 1000 ± 1250 N + 1000 ± 620 N Force z ± 1500 Nm ± 700 Nm Torque xy ± 470 Nm ± 250 Nm Torque z X Y Torque (M ) xy xy Force (F ) xy xy Force (F ) z z Torque (M ) z z xx1000000860 Continues on next page 18 Product specification - IRB 140 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.3.2 Operating requirements Continued Note regarding M xy and F xy The bending torque (M xy ) can occur in any direction in the XY-plane of the base coordinate system. The same applies to the transverse force (F xy ). Illustration Ø 25H8 (2x) 80 155 A A B B - B 39 180 180 X Ø 0,25 Y Ø 25H8 (2x) 80 Ø13 155 A A B B B - B 39 180 180 X Ø 0,25 Y Z A Ø 0,6 Ø 0, A xx0200000085 Continues on next page Product specification - IRB 140 19 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.3.2 Operating requirements Continued A-A xx0200000086 Attachment bolts, specification The table below specifies the type of securing screws and washers to be used for securing the robot to the base/foundation. Description Specification M12 Suitable screws, lightly lubricated: 8.8 Quality Thickness: 2.5 mm Suitable washers: Outer diameter: 24 mm Inner diameter: 13.4 mm 85 Nm Tightening torque: Note When the robot is to be mounted in a tilted or a suspended position, the guide sleeves must be used to secure the bolted joint. 20 Product specification - IRB 140 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.3.2 Operating requirements Continued
ABB_IRB140_Product_Specifications.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC041346-001&LanguageCode=en&DocumentPartId=&Action=Launch	20	Note regarding M xy and F xy The bending torque (M xy ) can occur in any direction in the XY-plane of the base coordinate system. The same applies to the transverse force (F xy ). Illustration Ø 25H8 (2x) 80 155 A A B B - B 39 180 180 X Ø 0,25 Y Ø 25H8 (2x) 80 Ø13 155 A A B B B - B 39 180 180 X Ø 0,25 Y Z A Ø 0,6 Ø 0, A xx0200000085 Continues on next page Product specification - IRB 140 19 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.3.2 Operating requirements Continued A-A xx0200000086 Attachment bolts, specification The table below specifies the type of securing screws and washers to be used for securing the robot to the base/foundation. Description Specification M12 Suitable screws, lightly lubricated: 8.8 Quality Thickness: 2.5 mm Suitable washers: Outer diameter: 24 mm Inner diameter: 13.4 mm 85 Nm Tightening torque: Note When the robot is to be mounted in a tilted or a suspended position, the guide sleeves must be used to secure the bolted joint. 20 Product specification - IRB 140 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.3.2 Operating requirements Continued 1.4 Load diagram 1.4.1 Introduction Information WARNING It is very important to always define correct actual load data and correct payload of the robot. Incorrect definitions of load data can result in overloading of the robot. If incorrect load data and/or loads are outside load diagram is used the following parts can be damaged due to overload: • motors • gearboxes • mechanical structure WARNING In the robot system there is a service routine called LoadIdentify available, which allows the user to make an automatic definition of the tool and load, to determine correct load parameters. See Operating manual - IRC5 with FlexPendant . WARNING Robots running with incorrect load data and/or with loads outside diagram, will not be covered by robot warranty. General The load diagram includes a nominal pay load inertia, J 0 of 0.012 kgm 2 . At different moment of inertia the load diagram will be changed. For robots that are allowed tilted, wall or inverted mounted, the load diagrams as given are valid and thus it is also possible to use RobotLoad within those tilt and axis limits. Control of load case by "RobotLoad" To easily control a specific load case, use the calculation program ABB RobotLoad. Contact your local ABB organization for more information. The result from RobotLoad is only valid within the maximum loads and tilt angles. There is no warning if the maximum permitted armload is exceeded. For over load cases and special applications, contact ABB for further analysis. Product specification - IRB 140 21 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.4.1 Introduction
ABB_IRB140_Product_Specifications.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC041346-001&LanguageCode=en&DocumentPartId=&Action=Launch	21	A-A xx0200000086 Attachment bolts, specification The table below specifies the type of securing screws and washers to be used for securing the robot to the base/foundation. Description Specification M12 Suitable screws, lightly lubricated: 8.8 Quality Thickness: 2.5 mm Suitable washers: Outer diameter: 24 mm Inner diameter: 13.4 mm 85 Nm Tightening torque: Note When the robot is to be mounted in a tilted or a suspended position, the guide sleeves must be used to secure the bolted joint. 20 Product specification - IRB 140 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.3.2 Operating requirements Continued 1.4 Load diagram 1.4.1 Introduction Information WARNING It is very important to always define correct actual load data and correct payload of the robot. Incorrect definitions of load data can result in overloading of the robot. If incorrect load data and/or loads are outside load diagram is used the following parts can be damaged due to overload: • motors • gearboxes • mechanical structure WARNING In the robot system there is a service routine called LoadIdentify available, which allows the user to make an automatic definition of the tool and load, to determine correct load parameters. See Operating manual - IRC5 with FlexPendant . WARNING Robots running with incorrect load data and/or with loads outside diagram, will not be covered by robot warranty. General The load diagram includes a nominal pay load inertia, J 0 of 0.012 kgm 2 . At different moment of inertia the load diagram will be changed. For robots that are allowed tilted, wall or inverted mounted, the load diagrams as given are valid and thus it is also possible to use RobotLoad within those tilt and axis limits. Control of load case by "RobotLoad" To easily control a specific load case, use the calculation program ABB RobotLoad. Contact your local ABB organization for more information. The result from RobotLoad is only valid within the maximum loads and tilt angles. There is no warning if the maximum permitted armload is exceeded. For over load cases and special applications, contact ABB for further analysis. Product specification - IRB 140 21 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.4.1 Introduction 1.4.2 Diagrams Introduction The robot is optimized for the rated load according to the load diagram and rated moment of inertia. These have been used in the performance tests. The maximum allowed load and moment of inertia are received from the formulas in the table below Figure below. IRB 140-6/0.8 xx1000000862 Description See the above diagram and the coordinate system in the Product specification - IRC5 with FlexPendant Z Distance in X-Y plane from Z-axis to the center of gravity L Rated own moment of inertia on the total handle weight = 0.012 kgm 2 J 0 22 Product specification - IRB 140 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.4.2 Diagrams
ABB_IRB140_Product_Specifications.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC041346-001&LanguageCode=en&DocumentPartId=&Action=Launch	22	1.4 Load diagram 1.4.1 Introduction Information WARNING It is very important to always define correct actual load data and correct payload of the robot. Incorrect definitions of load data can result in overloading of the robot. If incorrect load data and/or loads are outside load diagram is used the following parts can be damaged due to overload: • motors • gearboxes • mechanical structure WARNING In the robot system there is a service routine called LoadIdentify available, which allows the user to make an automatic definition of the tool and load, to determine correct load parameters. See Operating manual - IRC5 with FlexPendant . WARNING Robots running with incorrect load data and/or with loads outside diagram, will not be covered by robot warranty. General The load diagram includes a nominal pay load inertia, J 0 of 0.012 kgm 2 . At different moment of inertia the load diagram will be changed. For robots that are allowed tilted, wall or inverted mounted, the load diagrams as given are valid and thus it is also possible to use RobotLoad within those tilt and axis limits. Control of load case by "RobotLoad" To easily control a specific load case, use the calculation program ABB RobotLoad. Contact your local ABB organization for more information. The result from RobotLoad is only valid within the maximum loads and tilt angles. There is no warning if the maximum permitted armload is exceeded. For over load cases and special applications, contact ABB for further analysis. Product specification - IRB 140 21 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.4.1 Introduction 1.4.2 Diagrams Introduction The robot is optimized for the rated load according to the load diagram and rated moment of inertia. These have been used in the performance tests. The maximum allowed load and moment of inertia are received from the formulas in the table below Figure below. IRB 140-6/0.8 xx1000000862 Description See the above diagram and the coordinate system in the Product specification - IRC5 with FlexPendant Z Distance in X-Y plane from Z-axis to the center of gravity L Rated own moment of inertia on the total handle weight = 0.012 kgm 2 J 0 22 Product specification - IRB 140 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.4.2 Diagrams 1.4.3 Maximum load and moment of inertia for full and limited axis 5 (center line down) movement General Total load given as: Mass in kg, center of gravity (Z and L) in m and moment of inertia (J ox , J oy , J ox ) in kgm 2 . L= ÷(X2 + Y2), see Figure below. Full movement of Axis 5 (±115º) Max. value Robot Type Axis J 5 = Mass x ((Z + 0.065) 2 + L 2 ) + max (J ox , J oy ) ≤0.42 kgm 2 IRB 140(T)-6/0.8 5 J 6 = Mass x L2 + J 0Z ≤0.30 kgm 2 IRB 140(T)-6/0.8 6 xx1000000866 Description Pos Center of gravity A Description Max. moment of inertia around the X, Y and Z axes at center of gravity. Jox, Joy, Joz Wrist torque The table below shows the maximum permissible torque due to payload. Note The values are for reference only, and should not be used for calculating permitted load offset (position of center of gravity) within the load diagram, since those also are limited by main axes torques as well as dynamic loads. Also arm loads will influence the permitted load diagram. For finding the absolute limits of the load diagram, please use the ABB RobotLoad. Please contact your local ABB organization. Max torque valid at load Max wrist torque axis 6 Max wrist torque axis 4 and 5 Robot type 5 kg 4.91 Nm 8.58 Nm IRB 140(T)-6/0.8 Product specification - IRB 140 23 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.4.3 Maximum load and moment of inertia for full and limited axis 5 (center line down) movement
ABB_IRB140_Product_Specifications.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC041346-001&LanguageCode=en&DocumentPartId=&Action=Launch	23	1.4.2 Diagrams Introduction The robot is optimized for the rated load according to the load diagram and rated moment of inertia. These have been used in the performance tests. The maximum allowed load and moment of inertia are received from the formulas in the table below Figure below. IRB 140-6/0.8 xx1000000862 Description See the above diagram and the coordinate system in the Product specification - IRC5 with FlexPendant Z Distance in X-Y plane from Z-axis to the center of gravity L Rated own moment of inertia on the total handle weight = 0.012 kgm 2 J 0 22 Product specification - IRB 140 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.4.2 Diagrams 1.4.3 Maximum load and moment of inertia for full and limited axis 5 (center line down) movement General Total load given as: Mass in kg, center of gravity (Z and L) in m and moment of inertia (J ox , J oy , J ox ) in kgm 2 . L= ÷(X2 + Y2), see Figure below. Full movement of Axis 5 (±115º) Max. value Robot Type Axis J 5 = Mass x ((Z + 0.065) 2 + L 2 ) + max (J ox , J oy ) ≤0.42 kgm 2 IRB 140(T)-6/0.8 5 J 6 = Mass x L2 + J 0Z ≤0.30 kgm 2 IRB 140(T)-6/0.8 6 xx1000000866 Description Pos Center of gravity A Description Max. moment of inertia around the X, Y and Z axes at center of gravity. Jox, Joy, Joz Wrist torque The table below shows the maximum permissible torque due to payload. Note The values are for reference only, and should not be used for calculating permitted load offset (position of center of gravity) within the load diagram, since those also are limited by main axes torques as well as dynamic loads. Also arm loads will influence the permitted load diagram. For finding the absolute limits of the load diagram, please use the ABB RobotLoad. Please contact your local ABB organization. Max torque valid at load Max wrist torque axis 6 Max wrist torque axis 4 and 5 Robot type 5 kg 4.91 Nm 8.58 Nm IRB 140(T)-6/0.8 Product specification - IRB 140 23 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.4.3 Maximum load and moment of inertia for full and limited axis 5 (center line down) movement 1.4.4 Maximum TCP acceleration General Higher values can be reached with lower loads than the nominal because of our dynamical motion control QuickMove2. For specific values in the unique customer cycle, or for robots not listed in the table below, we recommend then to use RobotStudio. Maximum Cartesian design acceleration for nominal loads Controlled Motion Max acceleration at nominal load COG [m/s 2 ] E-stop Max acceleration at nominal load COG [m/s 2 ] Robot type 57 110 IRB 140T Note Acceleration levels for E-stop and controlled motion includes acceleration due to gravitational forces. Nominal load is define with nominal mass and cog with max offset in Z and L (see load diagram). 24 Product specification - IRB 140 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.4.4 Maximum TCP acceleration
ABB_IRB140_Product_Specifications.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC041346-001&LanguageCode=en&DocumentPartId=&Action=Launch	24	1.4.3 Maximum load and moment of inertia for full and limited axis 5 (center line down) movement General Total load given as: Mass in kg, center of gravity (Z and L) in m and moment of inertia (J ox , J oy , J ox ) in kgm 2 . L= ÷(X2 + Y2), see Figure below. Full movement of Axis 5 (±115º) Max. value Robot Type Axis J 5 = Mass x ((Z + 0.065) 2 + L 2 ) + max (J ox , J oy ) ≤0.42 kgm 2 IRB 140(T)-6/0.8 5 J 6 = Mass x L2 + J 0Z ≤0.30 kgm 2 IRB 140(T)-6/0.8 6 xx1000000866 Description Pos Center of gravity A Description Max. moment of inertia around the X, Y and Z axes at center of gravity. Jox, Joy, Joz Wrist torque The table below shows the maximum permissible torque due to payload. Note The values are for reference only, and should not be used for calculating permitted load offset (position of center of gravity) within the load diagram, since those also are limited by main axes torques as well as dynamic loads. Also arm loads will influence the permitted load diagram. For finding the absolute limits of the load diagram, please use the ABB RobotLoad. Please contact your local ABB organization. Max torque valid at load Max wrist torque axis 6 Max wrist torque axis 4 and 5 Robot type 5 kg 4.91 Nm 8.58 Nm IRB 140(T)-6/0.8 Product specification - IRB 140 23 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.4.3 Maximum load and moment of inertia for full and limited axis 5 (center line down) movement 1.4.4 Maximum TCP acceleration General Higher values can be reached with lower loads than the nominal because of our dynamical motion control QuickMove2. For specific values in the unique customer cycle, or for robots not listed in the table below, we recommend then to use RobotStudio. Maximum Cartesian design acceleration for nominal loads Controlled Motion Max acceleration at nominal load COG [m/s 2 ] E-stop Max acceleration at nominal load COG [m/s 2 ] Robot type 57 110 IRB 140T Note Acceleration levels for E-stop and controlled motion includes acceleration due to gravitational forces. Nominal load is define with nominal mass and cog with max offset in Z and L (see load diagram). 24 Product specification - IRB 140 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.4.4 Maximum TCP acceleration 1.5 Mounting of equipment 1.5.1 Introduction General Extra loads can be mounted on to the wrist and on to the upper arm housing. Definitions of load areas and permitted load are shown in Figure below. The center of gravity of the extra load shall be within the marked load areas. The robot is supplied with holes for mounting of extra equipment. ![Image] ![Image] ![Image] ![Image] ![Image] ![Image] ![Image] ![Image] ![Image] xx1000000867 Description Position Center line of Axis 5 A Maximum 0.5 kg when 1.0 kg on to the upper arm house B 0 kg when 1.5 kg on to the upper arm house Maximum 1 kg when 0.5 kg on to the wrist C 1.5 kg when 0 kg on to the wrist Product specification - IRB 140 25 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.5.1 Introduction
ABB_IRB140_Product_Specifications.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC041346-001&LanguageCode=en&DocumentPartId=&Action=Launch	25	1.4.4 Maximum TCP acceleration General Higher values can be reached with lower loads than the nominal because of our dynamical motion control QuickMove2. For specific values in the unique customer cycle, or for robots not listed in the table below, we recommend then to use RobotStudio. Maximum Cartesian design acceleration for nominal loads Controlled Motion Max acceleration at nominal load COG [m/s 2 ] E-stop Max acceleration at nominal load COG [m/s 2 ] Robot type 57 110 IRB 140T Note Acceleration levels for E-stop and controlled motion includes acceleration due to gravitational forces. Nominal load is define with nominal mass and cog with max offset in Z and L (see load diagram). 24 Product specification - IRB 140 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.4.4 Maximum TCP acceleration 1.5 Mounting of equipment 1.5.1 Introduction General Extra loads can be mounted on to the wrist and on to the upper arm housing. Definitions of load areas and permitted load are shown in Figure below. The center of gravity of the extra load shall be within the marked load areas. The robot is supplied with holes for mounting of extra equipment. ![Image] ![Image] ![Image] ![Image] ![Image] ![Image] ![Image] ![Image] ![Image] xx1000000867 Description Position Center line of Axis 5 A Maximum 0.5 kg when 1.0 kg on to the upper arm house B 0 kg when 1.5 kg on to the upper arm house Maximum 1 kg when 0.5 kg on to the wrist C 1.5 kg when 0 kg on to the wrist Product specification - IRB 140 25 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.5.1 Introduction 1.5.2 Holes for mounting of extra equipment Wrist design IRB 140 IRC5 xx1000000868 Wrist design IRB 140 IRC5, Type C xx1000000869 Upper arm housing ![Image] ![Image] xx1000000870 Description Position Design until September 2006: 2x M5 depth 7.5, Mounting holes for equipment. A Design after September 2006, Type C: 2x M6 depth 10, Mounting holes for equipment. 2x M5 depth 7.5, Mounting holes for equipment. B Continues on next page 26 Product specification - IRB 140 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.5.2 Holes for mounting of extra equipment
ABB_IRB140_Product_Specifications.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC041346-001&LanguageCode=en&DocumentPartId=&Action=Launch	26	1.5 Mounting of equipment 1.5.1 Introduction General Extra loads can be mounted on to the wrist and on to the upper arm housing. Definitions of load areas and permitted load are shown in Figure below. The center of gravity of the extra load shall be within the marked load areas. The robot is supplied with holes for mounting of extra equipment. ![Image] ![Image] ![Image] ![Image] ![Image] ![Image] ![Image] ![Image] ![Image] xx1000000867 Description Position Center line of Axis 5 A Maximum 0.5 kg when 1.0 kg on to the upper arm house B 0 kg when 1.5 kg on to the upper arm house Maximum 1 kg when 0.5 kg on to the wrist C 1.5 kg when 0 kg on to the wrist Product specification - IRB 140 25 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.5.1 Introduction 1.5.2 Holes for mounting of extra equipment Wrist design IRB 140 IRC5 xx1000000868 Wrist design IRB 140 IRC5, Type C xx1000000869 Upper arm housing ![Image] ![Image] xx1000000870 Description Position Design until September 2006: 2x M5 depth 7.5, Mounting holes for equipment. A Design after September 2006, Type C: 2x M6 depth 10, Mounting holes for equipment. 2x M5 depth 7.5, Mounting holes for equipment. B Continues on next page 26 Product specification - IRB 140 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.5.2 Holes for mounting of extra equipment Robot tool flange xx1000000871 Product specification - IRB 140 27 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.5.2 Holes for mounting of extra equipment Continued
ABB_IRB140_Product_Specifications.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC041346-001&LanguageCode=en&DocumentPartId=&Action=Launch	27	1.5.2 Holes for mounting of extra equipment Wrist design IRB 140 IRC5 xx1000000868 Wrist design IRB 140 IRC5, Type C xx1000000869 Upper arm housing ![Image] ![Image] xx1000000870 Description Position Design until September 2006: 2x M5 depth 7.5, Mounting holes for equipment. A Design after September 2006, Type C: 2x M6 depth 10, Mounting holes for equipment. 2x M5 depth 7.5, Mounting holes for equipment. B Continues on next page 26 Product specification - IRB 140 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.5.2 Holes for mounting of extra equipment Robot tool flange xx1000000871 Product specification - IRB 140 27 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.5.2 Holes for mounting of extra equipment Continued 1.6 Calibration and references 1.6.1 Calibration methods Overview This section specifies the different types of calibration and the calibration methods that are supplied by ABB. The original calibration data delivered with the robot is generated when the robot is floor mounted. If the robot is not floor mounted, then the robot accuracy could be affected. The robot needs to be calibrated after it is mounted. More information is available in the product manual. Types of calibration Calibration method Description Type of calibration Calibration Pendulum The calibrated robot is positioned at calibration position. Standard calibration Levelmeter calibration (alternative method) Standard calibration data is found on the SMB (serial measurement board) or EIB in the robot. For robots with RobotWare 5.04 or older, the calibration data is delivered in a file, calib.cfg, supplied with the robot at delivery. The file identifies the correct resolver/motor position corresponding to the robot home position. CalibWare Based on standard calibration, and besides positioning the robot at synchronization posi- tion, the Absolute accuracy calibration also compensates for: • Mechanical tolerances in the robot structure • Deflection due to load Absolute accuracy calibration focuses on pos- itioning accuracy in the Cartesian coordinate system for the robot. Absolute accuracy calibration (option- al) Absolute accuracy calibration data is found on the SMB (serial measurement board) in the robot. For robots with RobotWare 5.05 or older, the absolute accuracy calibration data is delivered in a file, absacc.cfg, supplied with the robot at delivery. The file replaces the calib.cfg file and identifies motor positions as well as absolute accuracy compensation parameters. A robot calibrated with Absolute accuracy has a sticker next to the identification plate of the robot. To regain 100% Absolute accuracy perform- ance, the robot must be recalibrated for abso- lute accuracy after repair or maintenance that affects the mechanical structure. ![Image] xx0400001197 Continues on next page 28 Product specification - IRB 140 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.6.1 Calibration methods
ABB_IRB140_Product_Specifications.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC041346-001&LanguageCode=en&DocumentPartId=&Action=Launch	28	Robot tool flange xx1000000871 Product specification - IRB 140 27 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.5.2 Holes for mounting of extra equipment Continued 1.6 Calibration and references 1.6.1 Calibration methods Overview This section specifies the different types of calibration and the calibration methods that are supplied by ABB. The original calibration data delivered with the robot is generated when the robot is floor mounted. If the robot is not floor mounted, then the robot accuracy could be affected. The robot needs to be calibrated after it is mounted. More information is available in the product manual. Types of calibration Calibration method Description Type of calibration Calibration Pendulum The calibrated robot is positioned at calibration position. Standard calibration Levelmeter calibration (alternative method) Standard calibration data is found on the SMB (serial measurement board) or EIB in the robot. For robots with RobotWare 5.04 or older, the calibration data is delivered in a file, calib.cfg, supplied with the robot at delivery. The file identifies the correct resolver/motor position corresponding to the robot home position. CalibWare Based on standard calibration, and besides positioning the robot at synchronization posi- tion, the Absolute accuracy calibration also compensates for: • Mechanical tolerances in the robot structure • Deflection due to load Absolute accuracy calibration focuses on pos- itioning accuracy in the Cartesian coordinate system for the robot. Absolute accuracy calibration (option- al) Absolute accuracy calibration data is found on the SMB (serial measurement board) in the robot. For robots with RobotWare 5.05 or older, the absolute accuracy calibration data is delivered in a file, absacc.cfg, supplied with the robot at delivery. The file replaces the calib.cfg file and identifies motor positions as well as absolute accuracy compensation parameters. A robot calibrated with Absolute accuracy has a sticker next to the identification plate of the robot. To regain 100% Absolute accuracy perform- ance, the robot must be recalibrated for abso- lute accuracy after repair or maintenance that affects the mechanical structure. ![Image] xx0400001197 Continues on next page 28 Product specification - IRB 140 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.6.1 Calibration methods Calibration method Description Type of calibration Wrist Optimization Optimization of TCP reorientation perform- ance. The purpose is to improve reorientation accuracy for continuous processes like weld- ing and gluing. Optimization Wrist optimization will update standard calib- ration data for axes 4, 5 and 6. Brief description of calibration methods Calibration Pendulum method Calibration Pendulum is a standard calibration method for calibration of all ABB robots (except IRB 6400R, IRB 640, IRB 1400H, and IRB 4400S). Two different routines are available for the Calibration Pendulum method: • Calibration Pendulum II • Reference calibration The calibration equipment for Calibration Pendulum is delivered as a complete toolkit, including the Operating manual - Calibration Pendulum , which describes the method and the different routines further. Wrist Optimization method Wrist Optimization is a method for improving reorientation accuracy for continuous processes like welding and gluing and is a complement to the standard calibration method. The following routines are available for the Wrist Optimization method: • Wrist Optimization The actual instructions of how to perform the calibration procedure and what to do at each step is given on the FlexPendant. You will be guided through the calibration procedure, step by step. CalibWare - Absolute Accuracy calibration The CalibWare tool guides through the calibration process and calculates new compensation parameters. This is further detailed in the Application manual - CalibWare Field . If a service operation is done to a robot with the option Absolute Accuracy, a new absolute accuracy calibration is required in order to establish full performance. For most cases after replacements that do not include taking apart the robot structure, standard calibration is sufficient. Product specification - IRB 140 29 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.6.1 Calibration methods Continued
ABB_IRB140_Product_Specifications.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC041346-001&LanguageCode=en&DocumentPartId=&Action=Launch	29	1.6 Calibration and references 1.6.1 Calibration methods Overview This section specifies the different types of calibration and the calibration methods that are supplied by ABB. The original calibration data delivered with the robot is generated when the robot is floor mounted. If the robot is not floor mounted, then the robot accuracy could be affected. The robot needs to be calibrated after it is mounted. More information is available in the product manual. Types of calibration Calibration method Description Type of calibration Calibration Pendulum The calibrated robot is positioned at calibration position. Standard calibration Levelmeter calibration (alternative method) Standard calibration data is found on the SMB (serial measurement board) or EIB in the robot. For robots with RobotWare 5.04 or older, the calibration data is delivered in a file, calib.cfg, supplied with the robot at delivery. The file identifies the correct resolver/motor position corresponding to the robot home position. CalibWare Based on standard calibration, and besides positioning the robot at synchronization posi- tion, the Absolute accuracy calibration also compensates for: • Mechanical tolerances in the robot structure • Deflection due to load Absolute accuracy calibration focuses on pos- itioning accuracy in the Cartesian coordinate system for the robot. Absolute accuracy calibration (option- al) Absolute accuracy calibration data is found on the SMB (serial measurement board) in the robot. For robots with RobotWare 5.05 or older, the absolute accuracy calibration data is delivered in a file, absacc.cfg, supplied with the robot at delivery. The file replaces the calib.cfg file and identifies motor positions as well as absolute accuracy compensation parameters. A robot calibrated with Absolute accuracy has a sticker next to the identification plate of the robot. To regain 100% Absolute accuracy perform- ance, the robot must be recalibrated for abso- lute accuracy after repair or maintenance that affects the mechanical structure. ![Image] xx0400001197 Continues on next page 28 Product specification - IRB 140 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.6.1 Calibration methods Calibration method Description Type of calibration Wrist Optimization Optimization of TCP reorientation perform- ance. The purpose is to improve reorientation accuracy for continuous processes like weld- ing and gluing. Optimization Wrist optimization will update standard calib- ration data for axes 4, 5 and 6. Brief description of calibration methods Calibration Pendulum method Calibration Pendulum is a standard calibration method for calibration of all ABB robots (except IRB 6400R, IRB 640, IRB 1400H, and IRB 4400S). Two different routines are available for the Calibration Pendulum method: • Calibration Pendulum II • Reference calibration The calibration equipment for Calibration Pendulum is delivered as a complete toolkit, including the Operating manual - Calibration Pendulum , which describes the method and the different routines further. Wrist Optimization method Wrist Optimization is a method for improving reorientation accuracy for continuous processes like welding and gluing and is a complement to the standard calibration method. The following routines are available for the Wrist Optimization method: • Wrist Optimization The actual instructions of how to perform the calibration procedure and what to do at each step is given on the FlexPendant. You will be guided through the calibration procedure, step by step. CalibWare - Absolute Accuracy calibration The CalibWare tool guides through the calibration process and calculates new compensation parameters. This is further detailed in the Application manual - CalibWare Field . If a service operation is done to a robot with the option Absolute Accuracy, a new absolute accuracy calibration is required in order to establish full performance. For most cases after replacements that do not include taking apart the robot structure, standard calibration is sufficient. Product specification - IRB 140 29 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.6.1 Calibration methods Continued 1.6.2 Fine calibration General Fine calibration is made using the Calibration Pendulum, see Operating manual - Calibration Pendulum . ![Image] xx1000000859 Description Pos Description Pos Axis 2 B Axis 1 A Axis 4 D Axis 3 C Axis 6 F Axis 5 E Calibration Position Calibration All axes are in zero position Calibration of all axes Axis 1 and 2 in zero position Calibration of axis 1 and 2 Axis 3 to 6 in any position Axis 1 in zero position Calibration of axis 1 Axis 2 to 6 in any position 30 Product specification - IRB 140 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.6.2 Fine calibration
ABB_IRB140_Product_Specifications.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC041346-001&LanguageCode=en&DocumentPartId=&Action=Launch	30	Calibration method Description Type of calibration Wrist Optimization Optimization of TCP reorientation perform- ance. The purpose is to improve reorientation accuracy for continuous processes like weld- ing and gluing. Optimization Wrist optimization will update standard calib- ration data for axes 4, 5 and 6. Brief description of calibration methods Calibration Pendulum method Calibration Pendulum is a standard calibration method for calibration of all ABB robots (except IRB 6400R, IRB 640, IRB 1400H, and IRB 4400S). Two different routines are available for the Calibration Pendulum method: • Calibration Pendulum II • Reference calibration The calibration equipment for Calibration Pendulum is delivered as a complete toolkit, including the Operating manual - Calibration Pendulum , which describes the method and the different routines further. Wrist Optimization method Wrist Optimization is a method for improving reorientation accuracy for continuous processes like welding and gluing and is a complement to the standard calibration method. The following routines are available for the Wrist Optimization method: • Wrist Optimization The actual instructions of how to perform the calibration procedure and what to do at each step is given on the FlexPendant. You will be guided through the calibration procedure, step by step. CalibWare - Absolute Accuracy calibration The CalibWare tool guides through the calibration process and calculates new compensation parameters. This is further detailed in the Application manual - CalibWare Field . If a service operation is done to a robot with the option Absolute Accuracy, a new absolute accuracy calibration is required in order to establish full performance. For most cases after replacements that do not include taking apart the robot structure, standard calibration is sufficient. Product specification - IRB 140 29 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.6.1 Calibration methods Continued 1.6.2 Fine calibration General Fine calibration is made using the Calibration Pendulum, see Operating manual - Calibration Pendulum . ![Image] xx1000000859 Description Pos Description Pos Axis 2 B Axis 1 A Axis 4 D Axis 3 C Axis 6 F Axis 5 E Calibration Position Calibration All axes are in zero position Calibration of all axes Axis 1 and 2 in zero position Calibration of axis 1 and 2 Axis 3 to 6 in any position Axis 1 in zero position Calibration of axis 1 Axis 2 to 6 in any position 30 Product specification - IRB 140 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.6.2 Fine calibration 1.6.3 Absolute Accuracy calibration Purpose Absolute Accuracy is a calibration concept that improves TCP accuracy. The difference between an ideal robot and a real robot can be several millimeters, resulting from mechanical tolerances and deflection in the robot structure. Absolute Accuracy compensates for these differences. Here are some examples of when this accuracy is important: • Exchangeability of robots • Offline programming with no or minimum touch-up • Online programming with accurate movement and reorientation of tool • Programming with accurate offset movement in relation to eg. vision system or offset programming • Re-use of programs between applications The option Absolute Accuracy is integrated in the controller algorithms and does not need external equipment or calculation. Note The performance data is applicable to the corresponding RobotWare version of the individual robot. ![Image] xx1000000863 What is included Every Absolute Accuracy robot is delivered with: • compensation parameters saved on the robot’s serial measurement board • a birth certificate representing the Absolute Accuracy measurement protocol for the calibration and verification sequence. Continues on next page Product specification - IRB 140 31 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.6.3 Absolute Accuracy calibration
ABB_IRB140_Product_Specifications.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC041346-001&LanguageCode=en&DocumentPartId=&Action=Launch	31	1.6.2 Fine calibration General Fine calibration is made using the Calibration Pendulum, see Operating manual - Calibration Pendulum . ![Image] xx1000000859 Description Pos Description Pos Axis 2 B Axis 1 A Axis 4 D Axis 3 C Axis 6 F Axis 5 E Calibration Position Calibration All axes are in zero position Calibration of all axes Axis 1 and 2 in zero position Calibration of axis 1 and 2 Axis 3 to 6 in any position Axis 1 in zero position Calibration of axis 1 Axis 2 to 6 in any position 30 Product specification - IRB 140 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.6.2 Fine calibration 1.6.3 Absolute Accuracy calibration Purpose Absolute Accuracy is a calibration concept that improves TCP accuracy. The difference between an ideal robot and a real robot can be several millimeters, resulting from mechanical tolerances and deflection in the robot structure. Absolute Accuracy compensates for these differences. Here are some examples of when this accuracy is important: • Exchangeability of robots • Offline programming with no or minimum touch-up • Online programming with accurate movement and reorientation of tool • Programming with accurate offset movement in relation to eg. vision system or offset programming • Re-use of programs between applications The option Absolute Accuracy is integrated in the controller algorithms and does not need external equipment or calculation. Note The performance data is applicable to the corresponding RobotWare version of the individual robot. ![Image] xx1000000863 What is included Every Absolute Accuracy robot is delivered with: • compensation parameters saved on the robot’s serial measurement board • a birth certificate representing the Absolute Accuracy measurement protocol for the calibration and verification sequence. Continues on next page Product specification - IRB 140 31 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.6.3 Absolute Accuracy calibration A robot with Absolute Accuracy calibration has a label with this information on the manipulator. Absolute Accuracy supports both floor mounted and inverted installations. The compensation parameters differ depending on if the robot is floor mounted or inverted. When is Absolute Accuracy being used Absolute Accuracy works on a robot target in Cartesian coordinates, not on the individual joints. Therefore, joint based movements (e.g. MoveAbsJ ) will not be affected. If the robot is inverted, the Absolute Accuracy calibration must be performed when the robot is inverted. Absolute Accuracy active Absolute Accuracy will be active in the following cases: • Any motion function based on robtargets (e.g. MoveL ) and ModPos on robtargets • Reorientation jogging • Linear jogging • Tool definition (4, 5, 6 point tool definition, room fixed TCP, stationary tool) • Work object definition Absolute Accuracy not active The following are examples of when Absolute Accuracy is not active: • Any motion function based on a jointtarget ( MoveAbsJ ) • Independent joint • Joint based jogging • Additional axes • Track motion Note In a robot system with, for example, an additional axis or track motion, the Absolute Accuracy is active for the manipulator but not for the additional axis or track motion. RAPID instructions There are no RAPID instructions included in this option. Production data Typical production data regarding calibration are: Positioning accuracy (mm) Robot % Within 1 mm Max Average 100 0.75 0.35 IRB 140(T)-6/0.8 32 Product specification - IRB 140 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.6.3 Absolute Accuracy calibration Continued
ABB_IRB140_Product_Specifications.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC041346-001&LanguageCode=en&DocumentPartId=&Action=Launch	32	1.6.3 Absolute Accuracy calibration Purpose Absolute Accuracy is a calibration concept that improves TCP accuracy. The difference between an ideal robot and a real robot can be several millimeters, resulting from mechanical tolerances and deflection in the robot structure. Absolute Accuracy compensates for these differences. Here are some examples of when this accuracy is important: • Exchangeability of robots • Offline programming with no or minimum touch-up • Online programming with accurate movement and reorientation of tool • Programming with accurate offset movement in relation to eg. vision system or offset programming • Re-use of programs between applications The option Absolute Accuracy is integrated in the controller algorithms and does not need external equipment or calculation. Note The performance data is applicable to the corresponding RobotWare version of the individual robot. ![Image] xx1000000863 What is included Every Absolute Accuracy robot is delivered with: • compensation parameters saved on the robot’s serial measurement board • a birth certificate representing the Absolute Accuracy measurement protocol for the calibration and verification sequence. Continues on next page Product specification - IRB 140 31 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.6.3 Absolute Accuracy calibration A robot with Absolute Accuracy calibration has a label with this information on the manipulator. Absolute Accuracy supports both floor mounted and inverted installations. The compensation parameters differ depending on if the robot is floor mounted or inverted. When is Absolute Accuracy being used Absolute Accuracy works on a robot target in Cartesian coordinates, not on the individual joints. Therefore, joint based movements (e.g. MoveAbsJ ) will not be affected. If the robot is inverted, the Absolute Accuracy calibration must be performed when the robot is inverted. Absolute Accuracy active Absolute Accuracy will be active in the following cases: • Any motion function based on robtargets (e.g. MoveL ) and ModPos on robtargets • Reorientation jogging • Linear jogging • Tool definition (4, 5, 6 point tool definition, room fixed TCP, stationary tool) • Work object definition Absolute Accuracy not active The following are examples of when Absolute Accuracy is not active: • Any motion function based on a jointtarget ( MoveAbsJ ) • Independent joint • Joint based jogging • Additional axes • Track motion Note In a robot system with, for example, an additional axis or track motion, the Absolute Accuracy is active for the manipulator but not for the additional axis or track motion. RAPID instructions There are no RAPID instructions included in this option. Production data Typical production data regarding calibration are: Positioning accuracy (mm) Robot % Within 1 mm Max Average 100 0.75 0.35 IRB 140(T)-6/0.8 32 Product specification - IRB 140 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.6.3 Absolute Accuracy calibration Continued 1.7 Maintenance and troubleshooting 1.7.1 Introduction General The robot requires only a minimum of maintenance during operation. It has been designed to make it as easy to service as possible: • Maintenance-free AC motors are used. • Oil is used for all gear boxes. • The cabling is routed for longevity, and in the unlikely event of a failure, its modular design makes it easy to change. • It has a program memory “battery low” alarm. Maintenance The maintenance intervals depend on the use of the robot, the required maintenance activities also depends on selected options. For detailed information on maintenance procedures, see Maintenance section in the Product Manual. Product specification - IRB 140 33 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.7.1 Introduction
ABB_IRB140_Product_Specifications.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC041346-001&LanguageCode=en&DocumentPartId=&Action=Launch	33	A robot with Absolute Accuracy calibration has a label with this information on the manipulator. Absolute Accuracy supports both floor mounted and inverted installations. The compensation parameters differ depending on if the robot is floor mounted or inverted. When is Absolute Accuracy being used Absolute Accuracy works on a robot target in Cartesian coordinates, not on the individual joints. Therefore, joint based movements (e.g. MoveAbsJ ) will not be affected. If the robot is inverted, the Absolute Accuracy calibration must be performed when the robot is inverted. Absolute Accuracy active Absolute Accuracy will be active in the following cases: • Any motion function based on robtargets (e.g. MoveL ) and ModPos on robtargets • Reorientation jogging • Linear jogging • Tool definition (4, 5, 6 point tool definition, room fixed TCP, stationary tool) • Work object definition Absolute Accuracy not active The following are examples of when Absolute Accuracy is not active: • Any motion function based on a jointtarget ( MoveAbsJ ) • Independent joint • Joint based jogging • Additional axes • Track motion Note In a robot system with, for example, an additional axis or track motion, the Absolute Accuracy is active for the manipulator but not for the additional axis or track motion. RAPID instructions There are no RAPID instructions included in this option. Production data Typical production data regarding calibration are: Positioning accuracy (mm) Robot % Within 1 mm Max Average 100 0.75 0.35 IRB 140(T)-6/0.8 32 Product specification - IRB 140 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.6.3 Absolute Accuracy calibration Continued 1.7 Maintenance and troubleshooting 1.7.1 Introduction General The robot requires only a minimum of maintenance during operation. It has been designed to make it as easy to service as possible: • Maintenance-free AC motors are used. • Oil is used for all gear boxes. • The cabling is routed for longevity, and in the unlikely event of a failure, its modular design makes it easy to change. • It has a program memory “battery low” alarm. Maintenance The maintenance intervals depend on the use of the robot, the required maintenance activities also depends on selected options. For detailed information on maintenance procedures, see Maintenance section in the Product Manual. Product specification - IRB 140 33 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.7.1 Introduction 1.8 Robot motion 1.8.1 Introduction General Range of movement Type of motion + 180° to - 180° Axis 1: Rotation motion + 110° to - 90° Axis 2: Arm motion + 50° to - 230° Axis 3: Arm motion + 200° to - 200° Default Axis 4: Wrist motion + 165 revolutions to - 165 revolutions Max. i + 115° to - 115° Axis 5: Bend motion + 400° to - 400° Default Axis 6: Turn motion + 163 revolutions to -163 revolutions Max. i i The default working range for axis 4 and axis 6 can be extended by changing parameter values in the software. Option 610-1 Independent axis can be used for resetting the revolution counter after the axis has been rotated (no need for “rewinding” the axis). xx1000000872 Continues on next page 34 Product specification - IRB 140 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.8.1 Introduction
ABB_IRB140_Product_Specifications.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC041346-001&LanguageCode=en&DocumentPartId=&Action=Launch	34	1.7 Maintenance and troubleshooting 1.7.1 Introduction General The robot requires only a minimum of maintenance during operation. It has been designed to make it as easy to service as possible: • Maintenance-free AC motors are used. • Oil is used for all gear boxes. • The cabling is routed for longevity, and in the unlikely event of a failure, its modular design makes it easy to change. • It has a program memory “battery low” alarm. Maintenance The maintenance intervals depend on the use of the robot, the required maintenance activities also depends on selected options. For detailed information on maintenance procedures, see Maintenance section in the Product Manual. Product specification - IRB 140 33 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.7.1 Introduction 1.8 Robot motion 1.8.1 Introduction General Range of movement Type of motion + 180° to - 180° Axis 1: Rotation motion + 110° to - 90° Axis 2: Arm motion + 50° to - 230° Axis 3: Arm motion + 200° to - 200° Default Axis 4: Wrist motion + 165 revolutions to - 165 revolutions Max. i + 115° to - 115° Axis 5: Bend motion + 400° to - 400° Default Axis 6: Turn motion + 163 revolutions to -163 revolutions Max. i i The default working range for axis 4 and axis 6 can be extended by changing parameter values in the software. Option 610-1 Independent axis can be used for resetting the revolution counter after the axis has been rotated (no need for “rewinding” the axis). xx1000000872 Continues on next page 34 Product specification - IRB 140 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.8.1 Introduction Angle (degrees) Axis 3 Angle (degrees) Axis 2 Position (mm) Z Position (mm) X Position (see Fig- ure 12) 0 0 712 450 0 -90 0 1092 70 1 +50 0 421 314 2 -90 110 99 765 3 +50 -90 596 1 6 -230 110 558 218 7 -90 -90 352 -670 8 Product specification - IRB 140 35 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.8.1 Introduction Continued
ABB_IRB140_Product_Specifications.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC041346-001&LanguageCode=en&DocumentPartId=&Action=Launch	35	1.8 Robot motion 1.8.1 Introduction General Range of movement Type of motion + 180° to - 180° Axis 1: Rotation motion + 110° to - 90° Axis 2: Arm motion + 50° to - 230° Axis 3: Arm motion + 200° to - 200° Default Axis 4: Wrist motion + 165 revolutions to - 165 revolutions Max. i + 115° to - 115° Axis 5: Bend motion + 400° to - 400° Default Axis 6: Turn motion + 163 revolutions to -163 revolutions Max. i i The default working range for axis 4 and axis 6 can be extended by changing parameter values in the software. Option 610-1 Independent axis can be used for resetting the revolution counter after the axis has been rotated (no need for “rewinding” the axis). xx1000000872 Continues on next page 34 Product specification - IRB 140 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.8.1 Introduction Angle (degrees) Axis 3 Angle (degrees) Axis 2 Position (mm) Z Position (mm) X Position (see Fig- ure 12) 0 0 712 450 0 -90 0 1092 70 1 +50 0 421 314 2 -90 110 99 765 3 +50 -90 596 1 6 -230 110 558 218 7 -90 -90 352 -670 8 Product specification - IRB 140 35 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.8.1 Introduction Continued 1.8.2 Performance according to ISO 9283 General At rated maximum load, maximum offset and 1.6 m/s velocity on the inclined ISO test plane, with all six axes in motion. Values in the table below are the average result of measurements on a small number of robots. The result may differ depending on where in the working range the robot is positioning, velocity, arm configuration, from which direction the position is approached, the load direction of the arm system. Backlashes in gearboxes also affect the result. The figures for AP, RP, AT and RT are measured according to figure below. xx0800000424 Description Position Description Position Programmed path E Programmed position A Actual path at program execution D Mean position at program execution B Max deviation from E to average path AT Mean distance from pro- grammed position AP Tolerance of the path at repeated program execution RT Tolerance of position B at re- peated positioning RP Values Description 140-6/0.8 and 140T-6/0.8 IRB 0.03 Pose repeatability, RP (mm) 0.02 Pose accuracy, AP i (mm) 0.08 Linear path repeatability, RT (mm) 0.67 Linear path accuracy, AT (mm) 0.08 Pose stabilization time, Pst (s) within 0.2 mm of the position i AP according to the ISO test above, is the difference between the teached position (position manually modified in the cell) and the average position obtained during program execution. The above values are the range of average test-results from a number of robots. Continues on next page 36 Product specification - IRB 140 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.8.2 Performance according to ISO 9283
ABB_IRB140_Product_Specifications.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC041346-001&LanguageCode=en&DocumentPartId=&Action=Launch	36	Angle (degrees) Axis 3 Angle (degrees) Axis 2 Position (mm) Z Position (mm) X Position (see Fig- ure 12) 0 0 712 450 0 -90 0 1092 70 1 +50 0 421 314 2 -90 110 99 765 3 +50 -90 596 1 6 -230 110 558 218 7 -90 -90 352 -670 8 Product specification - IRB 140 35 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.8.1 Introduction Continued 1.8.2 Performance according to ISO 9283 General At rated maximum load, maximum offset and 1.6 m/s velocity on the inclined ISO test plane, with all six axes in motion. Values in the table below are the average result of measurements on a small number of robots. The result may differ depending on where in the working range the robot is positioning, velocity, arm configuration, from which direction the position is approached, the load direction of the arm system. Backlashes in gearboxes also affect the result. The figures for AP, RP, AT and RT are measured according to figure below. xx0800000424 Description Position Description Position Programmed path E Programmed position A Actual path at program execution D Mean position at program execution B Max deviation from E to average path AT Mean distance from pro- grammed position AP Tolerance of the path at repeated program execution RT Tolerance of position B at re- peated positioning RP Values Description 140-6/0.8 and 140T-6/0.8 IRB 0.03 Pose repeatability, RP (mm) 0.02 Pose accuracy, AP i (mm) 0.08 Linear path repeatability, RT (mm) 0.67 Linear path accuracy, AT (mm) 0.08 Pose stabilization time, Pst (s) within 0.2 mm of the position i AP according to the ISO test above, is the difference between the teached position (position manually modified in the cell) and the average position obtained during program execution. The above values are the range of average test-results from a number of robots. Continues on next page 36 Product specification - IRB 140 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.8.2 Performance according to ISO 9283 Typical values for conveyor tracking All values measured with PickMaster and IRC5. Repeatability (mm) Constant conveyor speed (mm/s) 0.4 100 0.7 300 Repeatability (mm) Start/stop conveyor (mm/s) 0.7 300 (start/stop in 0.5 sec.) Product specification - IRB 140 37 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.8.2 Performance according to ISO 9283 Continued
ABB_IRB140_Product_Specifications.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC041346-001&LanguageCode=en&DocumentPartId=&Action=Launch	37	1.8.2 Performance according to ISO 9283 General At rated maximum load, maximum offset and 1.6 m/s velocity on the inclined ISO test plane, with all six axes in motion. Values in the table below are the average result of measurements on a small number of robots. The result may differ depending on where in the working range the robot is positioning, velocity, arm configuration, from which direction the position is approached, the load direction of the arm system. Backlashes in gearboxes also affect the result. The figures for AP, RP, AT and RT are measured according to figure below. xx0800000424 Description Position Description Position Programmed path E Programmed position A Actual path at program execution D Mean position at program execution B Max deviation from E to average path AT Mean distance from pro- grammed position AP Tolerance of the path at repeated program execution RT Tolerance of position B at re- peated positioning RP Values Description 140-6/0.8 and 140T-6/0.8 IRB 0.03 Pose repeatability, RP (mm) 0.02 Pose accuracy, AP i (mm) 0.08 Linear path repeatability, RT (mm) 0.67 Linear path accuracy, AT (mm) 0.08 Pose stabilization time, Pst (s) within 0.2 mm of the position i AP according to the ISO test above, is the difference between the teached position (position manually modified in the cell) and the average position obtained during program execution. The above values are the range of average test-results from a number of robots. Continues on next page 36 Product specification - IRB 140 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.8.2 Performance according to ISO 9283 Typical values for conveyor tracking All values measured with PickMaster and IRC5. Repeatability (mm) Constant conveyor speed (mm/s) 0.4 100 0.7 300 Repeatability (mm) Start/stop conveyor (mm/s) 0.7 300 (start/stop in 0.5 sec.) Product specification - IRB 140 37 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.8.2 Performance according to ISO 9283 Continued 1.8.3 Velocity 3-phase power supply IRB 140T-6/0.8 IRB 140-6/0.8 Axis No. 250°/s 200°/s 1 250°/s 200°/s 2 260°/s 260°/s 3 360°/s 360°/s 4 360°/s 360°/s 5 450°/s 450°/s 6 1-phase power supply When the robot uses a single phase power supply, like with IRC5 Compact controller, the performance regarding max axis speed is reduced, see table below. The reduced top speed can be increased if the power supply minimum voltage is higher than the default setting 187 V (220x0.85). See the system parameter Mains tolerance min , in Technical reference manual - System parameters . Note that the robot acceleration is not affected by the single phase power supply. Thus the cycle time may not be affected at all. RobotStudio can be used to test the cycle. The parameter Mains tolerance min can also be modified in RobotStudio. IRB 140T-6/0.8 IRB 140-6/0.8 Axis No. 229°/s 200°/s 1 228°/s 200°/s 2 245°/s 245°/s 3 348°/s 348°/s 4 360°/s 360°/s 5 450°/s 450°/s 6 Resolution Approximately 0.01 o on each axis. 38 Product specification - IRB 140 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.8.3 Velocity
ABB_IRB140_Product_Specifications.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC041346-001&LanguageCode=en&DocumentPartId=&Action=Launch	38	Typical values for conveyor tracking All values measured with PickMaster and IRC5. Repeatability (mm) Constant conveyor speed (mm/s) 0.4 100 0.7 300 Repeatability (mm) Start/stop conveyor (mm/s) 0.7 300 (start/stop in 0.5 sec.) Product specification - IRB 140 37 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.8.2 Performance according to ISO 9283 Continued 1.8.3 Velocity 3-phase power supply IRB 140T-6/0.8 IRB 140-6/0.8 Axis No. 250°/s 200°/s 1 250°/s 200°/s 2 260°/s 260°/s 3 360°/s 360°/s 4 360°/s 360°/s 5 450°/s 450°/s 6 1-phase power supply When the robot uses a single phase power supply, like with IRC5 Compact controller, the performance regarding max axis speed is reduced, see table below. The reduced top speed can be increased if the power supply minimum voltage is higher than the default setting 187 V (220x0.85). See the system parameter Mains tolerance min , in Technical reference manual - System parameters . Note that the robot acceleration is not affected by the single phase power supply. Thus the cycle time may not be affected at all. RobotStudio can be used to test the cycle. The parameter Mains tolerance min can also be modified in RobotStudio. IRB 140T-6/0.8 IRB 140-6/0.8 Axis No. 229°/s 200°/s 1 228°/s 200°/s 2 245°/s 245°/s 3 348°/s 348°/s 4 360°/s 360°/s 5 450°/s 450°/s 6 Resolution Approximately 0.01 o on each axis. 38 Product specification - IRB 140 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.8.3 Velocity 1.8.4 Robot stopping distances and times Introduction The stopping distances and times for category 0 and category 1 stops, as required by EN ISO 10218-1 Annex B, are listed in Product specification - Robot stopping distances according to ISO 10218-1 ( 3HAC048645-001 ). Product specification - IRB 140 39 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.8.4 Robot stopping distances and times
ABB_IRB140_Product_Specifications.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC041346-001&LanguageCode=en&DocumentPartId=&Action=Launch	39	1.8.3 Velocity 3-phase power supply IRB 140T-6/0.8 IRB 140-6/0.8 Axis No. 250°/s 200°/s 1 250°/s 200°/s 2 260°/s 260°/s 3 360°/s 360°/s 4 360°/s 360°/s 5 450°/s 450°/s 6 1-phase power supply When the robot uses a single phase power supply, like with IRC5 Compact controller, the performance regarding max axis speed is reduced, see table below. The reduced top speed can be increased if the power supply minimum voltage is higher than the default setting 187 V (220x0.85). See the system parameter Mains tolerance min , in Technical reference manual - System parameters . Note that the robot acceleration is not affected by the single phase power supply. Thus the cycle time may not be affected at all. RobotStudio can be used to test the cycle. The parameter Mains tolerance min can also be modified in RobotStudio. IRB 140T-6/0.8 IRB 140-6/0.8 Axis No. 229°/s 200°/s 1 228°/s 200°/s 2 245°/s 245°/s 3 348°/s 348°/s 4 360°/s 360°/s 5 450°/s 450°/s 6 Resolution Approximately 0.01 o on each axis. 38 Product specification - IRB 140 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.8.3 Velocity 1.8.4 Robot stopping distances and times Introduction The stopping distances and times for category 0 and category 1 stops, as required by EN ISO 10218-1 Annex B, are listed in Product specification - Robot stopping distances according to ISO 10218-1 ( 3HAC048645-001 ). Product specification - IRB 140 39 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.8.4 Robot stopping distances and times 1.8.5 Signals Signal connections on robot arm To connect extra equipment on the manipulator, there are cables integrated into the manipulator’s cabling from the controller to the upper arm housing. In the controller, the signals are connected to 12-pole terminals, Phoenix MSTB 2.5/12-ST-5.08, and on the upper arm housing to FCI UT07 14 12SH44N. Hose for compressed air is also integrated into the manipulator. There is an inlet (R1/4”) at the base and an outlet (R1/4”) on the upper arm housing. Values Number Description 49 V, 500 mA 12 Signals Max. 8 bar, inner hose diameter 6.5 mm 1 Air 40 Product specification - IRB 140 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.8.5 Signals
ABB_IRB140_Product_Specifications.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC041346-001&LanguageCode=en&DocumentPartId=&Action=Launch	40	1.8.4 Robot stopping distances and times Introduction The stopping distances and times for category 0 and category 1 stops, as required by EN ISO 10218-1 Annex B, are listed in Product specification - Robot stopping distances according to ISO 10218-1 ( 3HAC048645-001 ). Product specification - IRB 140 39 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.8.4 Robot stopping distances and times 1.8.5 Signals Signal connections on robot arm To connect extra equipment on the manipulator, there are cables integrated into the manipulator’s cabling from the controller to the upper arm housing. In the controller, the signals are connected to 12-pole terminals, Phoenix MSTB 2.5/12-ST-5.08, and on the upper arm housing to FCI UT07 14 12SH44N. Hose for compressed air is also integrated into the manipulator. There is an inlet (R1/4”) at the base and an outlet (R1/4”) on the upper arm housing. Values Number Description 49 V, 500 mA 12 Signals Max. 8 bar, inner hose diameter 6.5 mm 1 Air 40 Product specification - IRB 140 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.8.5 Signals 2 Specification of variants and options 2.1 Introduction to variants and options General The different variants and options for the IRB 140 are described in the following sections. The same option numbers are used here as in the specification form. The variants and options related to the robot controller are described in the product specification for the controller. Product specification - IRB 140 41 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 2 Specification of variants and options 2.1 Introduction to variants and options
ABB_IRB140_Product_Specifications.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC041346-001&LanguageCode=en&DocumentPartId=&Action=Launch	41	1.8.5 Signals Signal connections on robot arm To connect extra equipment on the manipulator, there are cables integrated into the manipulator’s cabling from the controller to the upper arm housing. In the controller, the signals are connected to 12-pole terminals, Phoenix MSTB 2.5/12-ST-5.08, and on the upper arm housing to FCI UT07 14 12SH44N. Hose for compressed air is also integrated into the manipulator. There is an inlet (R1/4”) at the base and an outlet (R1/4”) on the upper arm housing. Values Number Description 49 V, 500 mA 12 Signals Max. 8 bar, inner hose diameter 6.5 mm 1 Air 40 Product specification - IRB 140 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 1 Description 1.8.5 Signals 2 Specification of variants and options 2.1 Introduction to variants and options General The different variants and options for the IRB 140 are described in the following sections. The same option numbers are used here as in the specification form. The variants and options related to the robot controller are described in the product specification for the controller. Product specification - IRB 140 41 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 2 Specification of variants and options 2.1 Introduction to variants and options 2.2 Manipulator Variants Robots Variant Option IRB 140-6/0.8 Standard performance variant 435-87 IRB 140T-6/0.8 High speed variant 435-88 Manipulator color Note Description Option ABB Orange standard 209-1 ABB White standard 209-2 Standard color ABB Graphite White standard 209-202 The manipulator is painted with the chosen RAL- color 209-4--192 Note Notice that delivery time for painted spare parts will increase for none standard colors. Protection types Note Protection type Option IP 67 Standard 287-4 See Protection type Foundry Plus 2 on page 9 for a com- plete description of protection type Foundry Plus 2. Foundry Plus 2 287-3 Robot with protection type Clean Room fulfil class 6 accord- ing to ISO 14644-1. Clean Room 287-1 See Protection type Clean Room on page10 for a complete description of protection type Clean Room. The robot is labeled with "Clean Room". Robot with the same protection as in option 287-3 Foundry Plus 2. SteamWash 287-5 Connector kit Description Option Detached connectors, suitable to the connectors on the upper arm. 431-1 The kit consists of connectors, pins and sockets. Continues on next page 42 Product specification - IRB 140 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 2 Specification of variants and options 2.2 Manipulator
ABB_IRB140_Product_Specifications.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC041346-001&LanguageCode=en&DocumentPartId=&Action=Launch	42	2 Specification of variants and options 2.1 Introduction to variants and options General The different variants and options for the IRB 140 are described in the following sections. The same option numbers are used here as in the specification form. The variants and options related to the robot controller are described in the product specification for the controller. Product specification - IRB 140 41 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 2 Specification of variants and options 2.1 Introduction to variants and options 2.2 Manipulator Variants Robots Variant Option IRB 140-6/0.8 Standard performance variant 435-87 IRB 140T-6/0.8 High speed variant 435-88 Manipulator color Note Description Option ABB Orange standard 209-1 ABB White standard 209-2 Standard color ABB Graphite White standard 209-202 The manipulator is painted with the chosen RAL- color 209-4--192 Note Notice that delivery time for painted spare parts will increase for none standard colors. Protection types Note Protection type Option IP 67 Standard 287-4 See Protection type Foundry Plus 2 on page 9 for a com- plete description of protection type Foundry Plus 2. Foundry Plus 2 287-3 Robot with protection type Clean Room fulfil class 6 accord- ing to ISO 14644-1. Clean Room 287-1 See Protection type Clean Room on page10 for a complete description of protection type Clean Room. The robot is labeled with "Clean Room". Robot with the same protection as in option 287-3 Foundry Plus 2. SteamWash 287-5 Connector kit Description Option Detached connectors, suitable to the connectors on the upper arm. 431-1 The kit consists of connectors, pins and sockets. Continues on next page 42 Product specification - IRB 140 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 2 Specification of variants and options 2.2 Manipulator Safety lamp Description Option Safety lamp 213-1 A safety lamp with an orange fixed light can be mounted on the manipulator. The lamp is active in MOTORS ON mode. The safety lamp is required on a UL/UR approved robot. Warranty For the selected period of time, ABB will provide spare parts and labour to repair or replace the non-conforming portion of the equipment without additional charges. During that period, it is required to have a yearly Preventative Maintenance according to ABB manuals to be performed by ABB. If due to customer restrains no data can be analyzed in the ABB Ability service Condition Monitoring & Diagnostics for robots with OmniCore controllers, and ABB has to travel to site, travel expenses are not covered. The Extended Warranty period always starts on the day of warranty expiration. Warranty Conditions apply as defined in the Terms & Conditions. Note This description above is not applicable for option Stock warranty [438-8] Description Type Option Standard warranty is 12 months from Customer Delivery Date or latest 18 months after Factory Shipment Date , whichever occurs first. Warranty terms and conditions apply. Standard warranty 438-1 Standard warranty extended with 12 months from end date of the standard warranty. Warranty terms and con- ditions apply. Contact Customer Service in case of other requirements. Standard warranty + 12 months 438-2 Standard warranty extended with 18 months from end date of the standard warranty. Warranty terms and con- ditions apply. Contact Customer Service in case of other requirements. Standard warranty + 18 months 438-4 Standard warranty extended with 24 months from end date of the standard warranty. Warranty terms and con- ditions apply. Contact Customer Service in case of other requirements. Standard warranty + 24 months 438-5 Standard warranty extended with 6 months from end date of the standard warranty. Warranty terms and con- ditions apply. Standard warranty + 6 months 438-6 Standard warranty extended with 30 months from end date of the standard warranty. Warranty terms and con- ditions apply. Standard warranty + 30 months 438-7 Continues on next page Product specification - IRB 140 43 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 2 Specification of variants and options 2.2 Manipulator Continued
ABB_IRB140_Product_Specifications.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC041346-001&LanguageCode=en&DocumentPartId=&Action=Launch	43	2.2 Manipulator Variants Robots Variant Option IRB 140-6/0.8 Standard performance variant 435-87 IRB 140T-6/0.8 High speed variant 435-88 Manipulator color Note Description Option ABB Orange standard 209-1 ABB White standard 209-2 Standard color ABB Graphite White standard 209-202 The manipulator is painted with the chosen RAL- color 209-4--192 Note Notice that delivery time for painted spare parts will increase for none standard colors. Protection types Note Protection type Option IP 67 Standard 287-4 See Protection type Foundry Plus 2 on page 9 for a com- plete description of protection type Foundry Plus 2. Foundry Plus 2 287-3 Robot with protection type Clean Room fulfil class 6 accord- ing to ISO 14644-1. Clean Room 287-1 See Protection type Clean Room on page10 for a complete description of protection type Clean Room. The robot is labeled with "Clean Room". Robot with the same protection as in option 287-3 Foundry Plus 2. SteamWash 287-5 Connector kit Description Option Detached connectors, suitable to the connectors on the upper arm. 431-1 The kit consists of connectors, pins and sockets. Continues on next page 42 Product specification - IRB 140 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 2 Specification of variants and options 2.2 Manipulator Safety lamp Description Option Safety lamp 213-1 A safety lamp with an orange fixed light can be mounted on the manipulator. The lamp is active in MOTORS ON mode. The safety lamp is required on a UL/UR approved robot. Warranty For the selected period of time, ABB will provide spare parts and labour to repair or replace the non-conforming portion of the equipment without additional charges. During that period, it is required to have a yearly Preventative Maintenance according to ABB manuals to be performed by ABB. If due to customer restrains no data can be analyzed in the ABB Ability service Condition Monitoring & Diagnostics for robots with OmniCore controllers, and ABB has to travel to site, travel expenses are not covered. The Extended Warranty period always starts on the day of warranty expiration. Warranty Conditions apply as defined in the Terms & Conditions. Note This description above is not applicable for option Stock warranty [438-8] Description Type Option Standard warranty is 12 months from Customer Delivery Date or latest 18 months after Factory Shipment Date , whichever occurs first. Warranty terms and conditions apply. Standard warranty 438-1 Standard warranty extended with 12 months from end date of the standard warranty. Warranty terms and con- ditions apply. Contact Customer Service in case of other requirements. Standard warranty + 12 months 438-2 Standard warranty extended with 18 months from end date of the standard warranty. Warranty terms and con- ditions apply. Contact Customer Service in case of other requirements. Standard warranty + 18 months 438-4 Standard warranty extended with 24 months from end date of the standard warranty. Warranty terms and con- ditions apply. Contact Customer Service in case of other requirements. Standard warranty + 24 months 438-5 Standard warranty extended with 6 months from end date of the standard warranty. Warranty terms and con- ditions apply. Standard warranty + 6 months 438-6 Standard warranty extended with 30 months from end date of the standard warranty. Warranty terms and con- ditions apply. Standard warranty + 30 months 438-7 Continues on next page Product specification - IRB 140 43 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 2 Specification of variants and options 2.2 Manipulator Continued Description Type Option Maximum 6 months postponed start of standard war- ranty, starting from factory shipment date. Note that no claims will be accepted for warranties that occurred be- fore the end of stock warranty. Standard warranty com- mences automatically after 6 months from Factory Shipment Date or from activation date of standard war- ranty in WebConfig. Note Special conditions are applicable, see Robotics Warranty Directives . Stock warranty 438-8 44 Product specification - IRB 140 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 2 Specification of variants and options 2.2 Manipulator Continued
ABB_IRB140_Product_Specifications.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC041346-001&LanguageCode=en&DocumentPartId=&Action=Launch	44	Safety lamp Description Option Safety lamp 213-1 A safety lamp with an orange fixed light can be mounted on the manipulator. The lamp is active in MOTORS ON mode. The safety lamp is required on a UL/UR approved robot. Warranty For the selected period of time, ABB will provide spare parts and labour to repair or replace the non-conforming portion of the equipment without additional charges. During that period, it is required to have a yearly Preventative Maintenance according to ABB manuals to be performed by ABB. If due to customer restrains no data can be analyzed in the ABB Ability service Condition Monitoring & Diagnostics for robots with OmniCore controllers, and ABB has to travel to site, travel expenses are not covered. The Extended Warranty period always starts on the day of warranty expiration. Warranty Conditions apply as defined in the Terms & Conditions. Note This description above is not applicable for option Stock warranty [438-8] Description Type Option Standard warranty is 12 months from Customer Delivery Date or latest 18 months after Factory Shipment Date , whichever occurs first. Warranty terms and conditions apply. Standard warranty 438-1 Standard warranty extended with 12 months from end date of the standard warranty. Warranty terms and con- ditions apply. Contact Customer Service in case of other requirements. Standard warranty + 12 months 438-2 Standard warranty extended with 18 months from end date of the standard warranty. Warranty terms and con- ditions apply. Contact Customer Service in case of other requirements. Standard warranty + 18 months 438-4 Standard warranty extended with 24 months from end date of the standard warranty. Warranty terms and con- ditions apply. Contact Customer Service in case of other requirements. Standard warranty + 24 months 438-5 Standard warranty extended with 6 months from end date of the standard warranty. Warranty terms and con- ditions apply. Standard warranty + 6 months 438-6 Standard warranty extended with 30 months from end date of the standard warranty. Warranty terms and con- ditions apply. Standard warranty + 30 months 438-7 Continues on next page Product specification - IRB 140 43 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 2 Specification of variants and options 2.2 Manipulator Continued Description Type Option Maximum 6 months postponed start of standard war- ranty, starting from factory shipment date. Note that no claims will be accepted for warranties that occurred be- fore the end of stock warranty. Standard warranty com- mences automatically after 6 months from Factory Shipment Date or from activation date of standard war- ranty in WebConfig. Note Special conditions are applicable, see Robotics Warranty Directives . Stock warranty 438-8 44 Product specification - IRB 140 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 2 Specification of variants and options 2.2 Manipulator Continued 2.3 Floor cables Manipulator cable length Lengths Option 3 m 210-1 7 m 210-2 15 m 210-3 22 m 210-4 30 m 210-5 Product specification - IRB 140 45 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 2 Specification of variants and options 2.3 Floor cables
ABB_IRB140_Product_Specifications.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC041346-001&LanguageCode=en&DocumentPartId=&Action=Launch	45	Description Type Option Maximum 6 months postponed start of standard war- ranty, starting from factory shipment date. Note that no claims will be accepted for warranties that occurred be- fore the end of stock warranty. Standard warranty com- mences automatically after 6 months from Factory Shipment Date or from activation date of standard war- ranty in WebConfig. Note Special conditions are applicable, see Robotics Warranty Directives . Stock warranty 438-8 44 Product specification - IRB 140 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 2 Specification of variants and options 2.2 Manipulator Continued 2.3 Floor cables Manipulator cable length Lengths Option 3 m 210-1 7 m 210-2 15 m 210-3 22 m 210-4 30 m 210-5 Product specification - IRB 140 45 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 2 Specification of variants and options 2.3 Floor cables 2.4 Process Process module Description Type Option Product specification - Controller IRC5 Empty cabinet small 768-1 Product specification - Controller IRC5 Empty cabinet large 768-2 Product specification - Controller IRC5 Installation kit 715-1 46 Product specification - IRB 140 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 2 Specification of variants and options 2.4 Process
ABB_IRB140_Product_Specifications.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC041346-001&LanguageCode=en&DocumentPartId=&Action=Launch	46	2.3 Floor cables Manipulator cable length Lengths Option 3 m 210-1 7 m 210-2 15 m 210-3 22 m 210-4 30 m 210-5 Product specification - IRB 140 45 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 2 Specification of variants and options 2.3 Floor cables 2.4 Process Process module Description Type Option Product specification - Controller IRC5 Empty cabinet small 768-1 Product specification - Controller IRC5 Empty cabinet large 768-2 Product specification - Controller IRC5 Installation kit 715-1 46 Product specification - IRB 140 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 2 Specification of variants and options 2.4 Process 2.5 User documentation User documentation The user documentation describes the robot in detail, including service and safety instructions. All documents can be found via myABB Business Portal, www.myportal.abb.com . Product specification - IRB 140 47 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 2 Specification of variants and options 2.5 User documentation
ABB_IRB140_Product_Specifications.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC041346-001&LanguageCode=en&DocumentPartId=&Action=Launch	47	2.4 Process Process module Description Type Option Product specification - Controller IRC5 Empty cabinet small 768-1 Product specification - Controller IRC5 Empty cabinet large 768-2 Product specification - Controller IRC5 Installation kit 715-1 46 Product specification - IRB 140 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 2 Specification of variants and options 2.4 Process 2.5 User documentation User documentation The user documentation describes the robot in detail, including service and safety instructions. All documents can be found via myABB Business Portal, www.myportal.abb.com . Product specification - IRB 140 47 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 2 Specification of variants and options 2.5 User documentation This page is intentionally left blank
ABB_IRB140_Product_Specifications.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC041346-001&LanguageCode=en&DocumentPartId=&Action=Launch	48	2.5 User documentation User documentation The user documentation describes the robot in detail, including service and safety instructions. All documents can be found via myABB Business Portal, www.myportal.abb.com . Product specification - IRB 140 47 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 2 Specification of variants and options 2.5 User documentation This page is intentionally left blank 3 Accessories 3.1 Introduction to accessories General There is a range of tools and equipment available. Basic software and software options for robot and PC For more information, see Product specification - Controller IRC5 and Application manual - Controller software IRC5 . Robot peripherals • Motor Units 1 1 Not applicable for IRC5 Compact controller. Product specification - IRB 140 49 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 3 Accessories 3.1 Introduction to accessories
ABB_IRB140_Product_Specifications.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC041346-001&LanguageCode=en&DocumentPartId=&Action=Launch	49	This page is intentionally left blank 3 Accessories 3.1 Introduction to accessories General There is a range of tools and equipment available. Basic software and software options for robot and PC For more information, see Product specification - Controller IRC5 and Application manual - Controller software IRC5 . Robot peripherals • Motor Units 1 1 Not applicable for IRC5 Compact controller. Product specification - IRB 140 49 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 3 Accessories 3.1 Introduction to accessories This page is intentionally left blank
ABB_IRB140_Product_Specifications.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC041346-001&LanguageCode=en&DocumentPartId=&Action=Launch	50	3 Accessories 3.1 Introduction to accessories General There is a range of tools and equipment available. Basic software and software options for robot and PC For more information, see Product specification - Controller IRC5 and Application manual - Controller software IRC5 . Robot peripherals • Motor Units 1 1 Not applicable for IRC5 Compact controller. Product specification - IRB 140 49 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. 3 Accessories 3.1 Introduction to accessories This page is intentionally left blank Index A Absolute Accuracy, 31 Absolute Accuracy, calibration, 29 accessories, 49 C calibration Absolute Accuracy type, 28 standard type, 28 calibration, Absolute Accuracy, 29 Calibration Pendulum, 30 CalibWare, 28 category 0 stop, 39 category 1 stop, 39 compensation parameters, 31 D documentation, 47 F fine calibration, 30 I instructions, 47 M manuals, 47 O options, 41 P product standards, 14 S safety standards, 14 service instructions, 47 standards, 14 ANSI, 15 CAN, 15 EN, 15 EN IEC, 14 EN ISO, 14 standard warranty, 43 stock warranty, 43 stopping distances, 39 stopping times, 39 U user documentation, 47 V variants, 41 W warranty, 43 Product specification - IRB 140 51 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. Index
ABB_IRB140_Product_Specifications.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC041346-001&LanguageCode=en&DocumentPartId=&Action=Launch	51	This page is intentionally left blank Index A Absolute Accuracy, 31 Absolute Accuracy, calibration, 29 accessories, 49 C calibration Absolute Accuracy type, 28 standard type, 28 calibration, Absolute Accuracy, 29 Calibration Pendulum, 30 CalibWare, 28 category 0 stop, 39 category 1 stop, 39 compensation parameters, 31 D documentation, 47 F fine calibration, 30 I instructions, 47 M manuals, 47 O options, 41 P product standards, 14 S safety standards, 14 service instructions, 47 standards, 14 ANSI, 15 CAN, 15 EN, 15 EN IEC, 14 EN ISO, 14 standard warranty, 43 stock warranty, 43 stopping distances, 39 stopping times, 39 U user documentation, 47 V variants, 41 W warranty, 43 Product specification - IRB 140 51 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. Index
ABB_IRB140_Product_Specifications.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC041346-001&LanguageCode=en&DocumentPartId=&Action=Launch	52	Index A Absolute Accuracy, 31 Absolute Accuracy, calibration, 29 accessories, 49 C calibration Absolute Accuracy type, 28 standard type, 28 calibration, Absolute Accuracy, 29 Calibration Pendulum, 30 CalibWare, 28 category 0 stop, 39 category 1 stop, 39 compensation parameters, 31 D documentation, 47 F fine calibration, 30 I instructions, 47 M manuals, 47 O options, 41 P product standards, 14 S safety standards, 14 service instructions, 47 standards, 14 ANSI, 15 CAN, 15 EN, 15 EN IEC, 14 EN ISO, 14 standard warranty, 43 stock warranty, 43 stopping distances, 39 stopping times, 39 U user documentation, 47 V variants, 41 W warranty, 43 Product specification - IRB 140 51 3HAC041346-001 Revision: Q © Copyright 2004-2020 ABB. All rights reserved. Index
ABB_IRB140_Product_Specifications.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC041346-001&LanguageCode=en&DocumentPartId=&Action=Launch	53	ABB AB Robotics & Discrete Automation S-721 68 VÄSTERÅS, Sweden Telephone +46 (0) 21 344 400 ABB AS Robotics & Discrete Automation Nordlysvegen 7, N-4340 BRYNE, Norway Box 265, N-4349 BRYNE, Norway Telephone: +47 22 87 2000 ABB Engineering (Shanghai) Ltd. Robotics & Discrete Automation No. 4528 Kangxin Highway PuDong District SHANGHAI 201319, China Telephone: +86 21 6105 6666 ABB Inc. Robotics & Discrete Automation 1250 Brown Road Auburn Hills, MI 48326 USA Telephone: +1 248 391 9000 abb.com/robotics 3HAC041346-001, Rev Q, en © Copyright 2004-2020 ABB. All rights reserved. Specifications subject to change without notice.
ABB_IRB140_Product_Specifications.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC041346-001&LanguageCode=en&DocumentPartId=&Action=Launch	54	ABB AB Robotics & Discrete Automation S-721 68 VÄSTERÅS, Sweden Telephone +46 (0) 21 344 400 ABB AS Robotics & Discrete Automation Nordlysvegen 7, N-4340 BRYNE, Norway Box 265, N-4349 BRYNE, Norway Telephone: +47 22 87 2000 ABB Engineering (Shanghai) Ltd. Robotics & Discrete Automation No. 4528 Kangxin Highway PuDong District SHANGHAI 201319, China Telephone: +86 21 6105 6666 ABB Inc. Robotics & Discrete Automation 1250 Brown Road Auburn Hills, MI 48326 USA Telephone: +1 248 391 9000 abb.com/robotics 3HAC041346-001, Rev Q, en © Copyright 2004-2020 ABB. All rights reserved. Specifications subject to change without notice.
ABB_IRB8700_Product_Manual.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC052853-001&LanguageCode=en&DocumentPartId=&Action=Launch&DocumentRevisionId=D	1	Product manual IRB 8700 ![Image] Trace back information: Workspace R17-1 version a7 Checked in 2017-03-22 Skribenta version 5.1.011
ABB_IRB8700_Product_Manual.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC052853-001&LanguageCode=en&DocumentPartId=&Action=Launch&DocumentRevisionId=D	2	Product manual IRB 8700 ![Image] Trace back information: Workspace R17-1 version a7 Checked in 2017-03-22 Skribenta version 5.1.011 Product manual IRB 8700 - 550/4.20 IRB 8700 - 800/3.50 IRC5 Document ID: 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved.
ABB_IRB8700_Product_Manual.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC052853-001&LanguageCode=en&DocumentPartId=&Action=Launch&DocumentRevisionId=D	3	Trace back information: Workspace R17-1 version a7 Checked in 2017-03-22 Skribenta version 5.1.011 Product manual IRB 8700 - 550/4.20 IRB 8700 - 800/3.50 IRC5 Document ID: 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. The information in this manual is subject to change without notice and should not be construed as a commitment by ABB. ABB assumes no responsibility for any errors that may appear in this manual. Except as may be expressly stated anywhere in this manual, nothing herein shall be construed as any kind of guarantee or warranty by ABB for losses, damages to persons or property, fitness for a specific purpose or the like. In no event shall ABB be liable for incidental or consequential damages arising from use of this manual and products described herein. This manual and parts thereof must not be reproduced or copied without ABB's written permission. Keep for future reference. Additional copies of this manual may be obtained from ABB. Original instructions. © Copyright 2015-2017 ABB. All rights reserved. ABB AB, Robotics Robotics and Motion Se-721 68 Västerås Sweden
ABB_IRB8700_Product_Manual.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC052853-001&LanguageCode=en&DocumentPartId=&Action=Launch&DocumentRevisionId=D	4	Product manual IRB 8700 - 550/4.20 IRB 8700 - 800/3.50 IRC5 Document ID: 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. The information in this manual is subject to change without notice and should not be construed as a commitment by ABB. ABB assumes no responsibility for any errors that may appear in this manual. Except as may be expressly stated anywhere in this manual, nothing herein shall be construed as any kind of guarantee or warranty by ABB for losses, damages to persons or property, fitness for a specific purpose or the like. In no event shall ABB be liable for incidental or consequential damages arising from use of this manual and products described herein. This manual and parts thereof must not be reproduced or copied without ABB's written permission. Keep for future reference. Additional copies of this manual may be obtained from ABB. Original instructions. © Copyright 2015-2017 ABB. All rights reserved. ABB AB, Robotics Robotics and Motion Se-721 68 Västerås Sweden Table of contents 9 Overview of this manual ................................................................................................................... 12 Product documentation, IRC5 .......................................................................................................... 14 How to read the product manual ...................................................................................................... 15 1 Safety 15 1.1 Introduction to safety information ......................................................................... 16 1.2 General safety information .................................................................................. 16 1.2.1 Introduction to general safety information .................................................... 17 1.2.2 Safety in the manipulator system ............................................................... 19 1.2.3 Protective stop and emergency stop ........................................................... 20 1.2.4 Safety risks ............................................................................................ 20 1.2.4.1 Safety risks during installation and service work on robots .................. 23 1.2.4.2 CAUTION - Hot parts may cause burns! ........................................... 24 1.2.4.3 Safety risks related to tools/work pieces .......................................... 25 1.2.4.4 Safety risks related to pneumatic/hydraulic systems .......................... 26 1.2.4.5 Safety risks during operational disturbances ..................................... 27 1.2.4.6 Risks associated with live electric parts ........................................... 29 1.2.5 Safety actions ......................................................................................... 29 1.2.5.1 Safety fence dimensions ............................................................... 30 1.2.5.2 Fire extinguishing ........................................................................ 31 1.2.5.3 Emergency release of the robot arm ............................................... 32 1.2.5.4 Brake testing .............................................................................. 33 1.2.5.5 Risk of disabling function "Reduced speed 250 mm/s" ........................ 34 1.2.5.6 Safe use of the jogging device ....................................................... 35 1.2.5.7 Work inside the working range of the robot ....................................... 36 1.2.5.8 Signal lamp (optional) ................................................................... 37 1.3 Safety signals and symbols ................................................................................. 37 1.3.1 Safety signals in the manual ...................................................................... 39 1.3.2 Safety symbols on product labels ............................................................... 45 1.4 Safety related instructions .................................................................................. 45 1.4.1 DANGER - Moving robots are potentially lethal! ............................................ 46 1.4.2 DANGER - First test run may cause injury or damage! ................................... 47 1.4.3 WARNING - The brake release buttons may be jammed after service work ........ 48 1.4.4 DANGER - Make sure that the main power has been switched off! .................... 49 1.4.5 WARNING - The unit is sensitive to ESD! ..................................................... 51 1.4.6 WARNING - Safety risks during handling of batteries ..................................... 52 1.4.7 WARNING - Safety risks during work with gearbox lubricants (oil or grease) ...... 55 2 Installation and commissioning 55 2.1 Introduction ...................................................................................................... 56 2.2 Unpacking ....................................................................................................... 56 2.2.1 Pre-installation procedure ......................................................................... 60 2.2.2 Working range ........................................................................................ 63 2.2.3 Risk of tipping/stability ............................................................................. 64 2.2.4 Main dimensions ..................................................................................... 65 2.3 On-site installation ............................................................................................ 65 2.3.1 Lifting the robot with fork lift accessory set installed ...................................... 73 2.3.2 Attaching the robot and removing the fork lift accessory set ............................ 75 2.3.3 Lifting the base plate ................................................................................ 77 2.3.4 Securing the base plate ............................................................................ 81 2.3.5 Lifting the robot with roundslings ............................................................... 84 2.3.6 Returning of the ABB pallet ....................................................................... 85 2.3.7 Manually releasing the brakes ................................................................... 88 2.3.8 Orienting and securing the robot ............................................................... 90 2.3.9 Loads fitted to the robot, stopping time and braking distances ......................... 91 2.3.10 Fitting equipment .................................................................................... Product manual - IRB 8700 5 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. Table of contents
ABB_IRB8700_Product_Manual.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC052853-001&LanguageCode=en&DocumentPartId=&Action=Launch&DocumentRevisionId=D	5	The information in this manual is subject to change without notice and should not be construed as a commitment by ABB. ABB assumes no responsibility for any errors that may appear in this manual. Except as may be expressly stated anywhere in this manual, nothing herein shall be construed as any kind of guarantee or warranty by ABB for losses, damages to persons or property, fitness for a specific purpose or the like. In no event shall ABB be liable for incidental or consequential damages arising from use of this manual and products described herein. This manual and parts thereof must not be reproduced or copied without ABB's written permission. Keep for future reference. Additional copies of this manual may be obtained from ABB. Original instructions. © Copyright 2015-2017 ABB. All rights reserved. ABB AB, Robotics Robotics and Motion Se-721 68 Västerås Sweden Table of contents 9 Overview of this manual ................................................................................................................... 12 Product documentation, IRC5 .......................................................................................................... 14 How to read the product manual ...................................................................................................... 15 1 Safety 15 1.1 Introduction to safety information ......................................................................... 16 1.2 General safety information .................................................................................. 16 1.2.1 Introduction to general safety information .................................................... 17 1.2.2 Safety in the manipulator system ............................................................... 19 1.2.3 Protective stop and emergency stop ........................................................... 20 1.2.4 Safety risks ............................................................................................ 20 1.2.4.1 Safety risks during installation and service work on robots .................. 23 1.2.4.2 CAUTION - Hot parts may cause burns! ........................................... 24 1.2.4.3 Safety risks related to tools/work pieces .......................................... 25 1.2.4.4 Safety risks related to pneumatic/hydraulic systems .......................... 26 1.2.4.5 Safety risks during operational disturbances ..................................... 27 1.2.4.6 Risks associated with live electric parts ........................................... 29 1.2.5 Safety actions ......................................................................................... 29 1.2.5.1 Safety fence dimensions ............................................................... 30 1.2.5.2 Fire extinguishing ........................................................................ 31 1.2.5.3 Emergency release of the robot arm ............................................... 32 1.2.5.4 Brake testing .............................................................................. 33 1.2.5.5 Risk of disabling function "Reduced speed 250 mm/s" ........................ 34 1.2.5.6 Safe use of the jogging device ....................................................... 35 1.2.5.7 Work inside the working range of the robot ....................................... 36 1.2.5.8 Signal lamp (optional) ................................................................... 37 1.3 Safety signals and symbols ................................................................................. 37 1.3.1 Safety signals in the manual ...................................................................... 39 1.3.2 Safety symbols on product labels ............................................................... 45 1.4 Safety related instructions .................................................................................. 45 1.4.1 DANGER - Moving robots are potentially lethal! ............................................ 46 1.4.2 DANGER - First test run may cause injury or damage! ................................... 47 1.4.3 WARNING - The brake release buttons may be jammed after service work ........ 48 1.4.4 DANGER - Make sure that the main power has been switched off! .................... 49 1.4.5 WARNING - The unit is sensitive to ESD! ..................................................... 51 1.4.6 WARNING - Safety risks during handling of batteries ..................................... 52 1.4.7 WARNING - Safety risks during work with gearbox lubricants (oil or grease) ...... 55 2 Installation and commissioning 55 2.1 Introduction ...................................................................................................... 56 2.2 Unpacking ....................................................................................................... 56 2.2.1 Pre-installation procedure ......................................................................... 60 2.2.2 Working range ........................................................................................ 63 2.2.3 Risk of tipping/stability ............................................................................. 64 2.2.4 Main dimensions ..................................................................................... 65 2.3 On-site installation ............................................................................................ 65 2.3.1 Lifting the robot with fork lift accessory set installed ...................................... 73 2.3.2 Attaching the robot and removing the fork lift accessory set ............................ 75 2.3.3 Lifting the base plate ................................................................................ 77 2.3.4 Securing the base plate ............................................................................ 81 2.3.5 Lifting the robot with roundslings ............................................................... 84 2.3.6 Returning of the ABB pallet ....................................................................... 85 2.3.7 Manually releasing the brakes ................................................................... 88 2.3.8 Orienting and securing the robot ............................................................... 90 2.3.9 Loads fitted to the robot, stopping time and braking distances ......................... 91 2.3.10 Fitting equipment .................................................................................... Product manual - IRB 8700 5 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. Table of contents 98 2.4 Restricting the working range .............................................................................. 98 2.4.1 Axes with restricted working range ............................................................. 99 2.4.2 Mechanically restricting the working range of axis 1 ...................................... 102 2.5 Electrical connections ........................................................................................ 102 2.5.1 Robot cabling and connection points .......................................................... 104 2.6 Installation of options ......................................................................................... 104 2.6.1 Installing the signal lamp (option) ............................................................... 105 3 Maintenance 105 3.1 Introduction ...................................................................................................... 106 3.2 Maintenance schedule and expected component life ............................................... 106 3.2.1 Specification of maintenance intervals ........................................................ 107 3.2.2 Maintenance schedule ............................................................................. 109 3.2.3 Expected component life ......................................................................... 110 3.3 Inspection activities ........................................................................................... 110 3.3.1 Inspecting the oil level in axis-1 gearbox ...................................................... 113 3.3.2 Inspecting the oil level in axis-2 and 3 gearboxes .......................................... 116 3.3.3 Inspecting the oil level in axis-4 primary gearbox .......................................... 119 3.3.4 Inspecting the oil level in axis-4 secondary gearbox ....................................... 121 3.3.5 Inspecting the oil level in axis-5 gearbox ...................................................... 124 3.3.6 Inspecting the oil level in axis-6 gearbox ...................................................... 126 3.3.7 Inspecting the transparent plugs ................................................................ 128 3.3.8 Inspecting the balancing devices ............................................................... 131 3.3.9 Inspecting the cable harness ..................................................................... 133 3.3.10 Inspecting the information labels ................................................................ 137 3.3.11 Inspecting the axis-1 mechanical stop pin ................................................... 139 3.3.12 Inspecting the additional mechanical stops ................................................. 141 3.3.13 Inspecting the fork lift accessories .............................................................. 143 3.3.14 Inspecting the signal lamp (option) ............................................................. 144 3.3.15 Inspecting dampers ................................................................................. 145 3.4 Replacement/changing activities .......................................................................... 145 3.4.1 Type of lubrication in gearboxes ................................................................ 146 3.4.2 Changing oil, axis-1 gearbox ..................................................................... 152 3.4.3 Changing oil in axis-2 and axis-3 gearbox .................................................... 158 3.4.4 Changing oil, axis-4 primary gearbox .......................................................... 164 3.4.5 Changing oil, axis-4 secondary gearbox ...................................................... 169 3.4.6 Changing oil, axis-5 gearbox ..................................................................... 173 3.4.7 Changing oil, axis-6 gearbox ..................................................................... 178 3.4.8 Replacing the SMB battery ........................................................................ 181 3.5 Lubrication activities .......................................................................................... 181 3.5.1 Lubricating the spherical roller bearings, balancing device .............................. 183 3.5.2 Lubricating the cross roller bearing ............................................................. 185 3.6 Cleaning activities ............................................................................................. 185 3.6.1 Cleaning the IRB 8700 .............................................................................. 189 4 Repair 189 4.1 Introduction ...................................................................................................... 190 4.2 General procedures ........................................................................................... 190 4.2.1 Performing a leak-down test ...................................................................... 191 4.2.2 Mounting instructions for bearings ............................................................. 193 4.2.3 Mounting instructions for seals .................................................................. 195 4.3 Attaching lifting accessories ................................................................................ 195 4.3.1 Attaching lifting accessories to complete arm system .................................... 196 4.3.2 Attaching lifting accessories to the upper arm ............................................... 200 4.3.3 Attaching lifting accessories to the wrist ...................................................... 203 4.4 Cable harness .................................................................................................. 203 4.4.1 Removing the cable harness ..................................................................... 219 4.4.2 Refitting the cable harness ........................................................................ 240 4.4.3 Replacing the SMB .................................................................................. 6 Product manual - IRB 8700 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. Table of contents
ABB_IRB8700_Product_Manual.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC052853-001&LanguageCode=en&DocumentPartId=&Action=Launch&DocumentRevisionId=D	6	Table of contents 9 Overview of this manual ................................................................................................................... 12 Product documentation, IRC5 .......................................................................................................... 14 How to read the product manual ...................................................................................................... 15 1 Safety 15 1.1 Introduction to safety information ......................................................................... 16 1.2 General safety information .................................................................................. 16 1.2.1 Introduction to general safety information .................................................... 17 1.2.2 Safety in the manipulator system ............................................................... 19 1.2.3 Protective stop and emergency stop ........................................................... 20 1.2.4 Safety risks ............................................................................................ 20 1.2.4.1 Safety risks during installation and service work on robots .................. 23 1.2.4.2 CAUTION - Hot parts may cause burns! ........................................... 24 1.2.4.3 Safety risks related to tools/work pieces .......................................... 25 1.2.4.4 Safety risks related to pneumatic/hydraulic systems .......................... 26 1.2.4.5 Safety risks during operational disturbances ..................................... 27 1.2.4.6 Risks associated with live electric parts ........................................... 29 1.2.5 Safety actions ......................................................................................... 29 1.2.5.1 Safety fence dimensions ............................................................... 30 1.2.5.2 Fire extinguishing ........................................................................ 31 1.2.5.3 Emergency release of the robot arm ............................................... 32 1.2.5.4 Brake testing .............................................................................. 33 1.2.5.5 Risk of disabling function "Reduced speed 250 mm/s" ........................ 34 1.2.5.6 Safe use of the jogging device ....................................................... 35 1.2.5.7 Work inside the working range of the robot ....................................... 36 1.2.5.8 Signal lamp (optional) ................................................................... 37 1.3 Safety signals and symbols ................................................................................. 37 1.3.1 Safety signals in the manual ...................................................................... 39 1.3.2 Safety symbols on product labels ............................................................... 45 1.4 Safety related instructions .................................................................................. 45 1.4.1 DANGER - Moving robots are potentially lethal! ............................................ 46 1.4.2 DANGER - First test run may cause injury or damage! ................................... 47 1.4.3 WARNING - The brake release buttons may be jammed after service work ........ 48 1.4.4 DANGER - Make sure that the main power has been switched off! .................... 49 1.4.5 WARNING - The unit is sensitive to ESD! ..................................................... 51 1.4.6 WARNING - Safety risks during handling of batteries ..................................... 52 1.4.7 WARNING - Safety risks during work with gearbox lubricants (oil or grease) ...... 55 2 Installation and commissioning 55 2.1 Introduction ...................................................................................................... 56 2.2 Unpacking ....................................................................................................... 56 2.2.1 Pre-installation procedure ......................................................................... 60 2.2.2 Working range ........................................................................................ 63 2.2.3 Risk of tipping/stability ............................................................................. 64 2.2.4 Main dimensions ..................................................................................... 65 2.3 On-site installation ............................................................................................ 65 2.3.1 Lifting the robot with fork lift accessory set installed ...................................... 73 2.3.2 Attaching the robot and removing the fork lift accessory set ............................ 75 2.3.3 Lifting the base plate ................................................................................ 77 2.3.4 Securing the base plate ............................................................................ 81 2.3.5 Lifting the robot with roundslings ............................................................... 84 2.3.6 Returning of the ABB pallet ....................................................................... 85 2.3.7 Manually releasing the brakes ................................................................... 88 2.3.8 Orienting and securing the robot ............................................................... 90 2.3.9 Loads fitted to the robot, stopping time and braking distances ......................... 91 2.3.10 Fitting equipment .................................................................................... Product manual - IRB 8700 5 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. Table of contents 98 2.4 Restricting the working range .............................................................................. 98 2.4.1 Axes with restricted working range ............................................................. 99 2.4.2 Mechanically restricting the working range of axis 1 ...................................... 102 2.5 Electrical connections ........................................................................................ 102 2.5.1 Robot cabling and connection points .......................................................... 104 2.6 Installation of options ......................................................................................... 104 2.6.1 Installing the signal lamp (option) ............................................................... 105 3 Maintenance 105 3.1 Introduction ...................................................................................................... 106 3.2 Maintenance schedule and expected component life ............................................... 106 3.2.1 Specification of maintenance intervals ........................................................ 107 3.2.2 Maintenance schedule ............................................................................. 109 3.2.3 Expected component life ......................................................................... 110 3.3 Inspection activities ........................................................................................... 110 3.3.1 Inspecting the oil level in axis-1 gearbox ...................................................... 113 3.3.2 Inspecting the oil level in axis-2 and 3 gearboxes .......................................... 116 3.3.3 Inspecting the oil level in axis-4 primary gearbox .......................................... 119 3.3.4 Inspecting the oil level in axis-4 secondary gearbox ....................................... 121 3.3.5 Inspecting the oil level in axis-5 gearbox ...................................................... 124 3.3.6 Inspecting the oil level in axis-6 gearbox ...................................................... 126 3.3.7 Inspecting the transparent plugs ................................................................ 128 3.3.8 Inspecting the balancing devices ............................................................... 131 3.3.9 Inspecting the cable harness ..................................................................... 133 3.3.10 Inspecting the information labels ................................................................ 137 3.3.11 Inspecting the axis-1 mechanical stop pin ................................................... 139 3.3.12 Inspecting the additional mechanical stops ................................................. 141 3.3.13 Inspecting the fork lift accessories .............................................................. 143 3.3.14 Inspecting the signal lamp (option) ............................................................. 144 3.3.15 Inspecting dampers ................................................................................. 145 3.4 Replacement/changing activities .......................................................................... 145 3.4.1 Type of lubrication in gearboxes ................................................................ 146 3.4.2 Changing oil, axis-1 gearbox ..................................................................... 152 3.4.3 Changing oil in axis-2 and axis-3 gearbox .................................................... 158 3.4.4 Changing oil, axis-4 primary gearbox .......................................................... 164 3.4.5 Changing oil, axis-4 secondary gearbox ...................................................... 169 3.4.6 Changing oil, axis-5 gearbox ..................................................................... 173 3.4.7 Changing oil, axis-6 gearbox ..................................................................... 178 3.4.8 Replacing the SMB battery ........................................................................ 181 3.5 Lubrication activities .......................................................................................... 181 3.5.1 Lubricating the spherical roller bearings, balancing device .............................. 183 3.5.2 Lubricating the cross roller bearing ............................................................. 185 3.6 Cleaning activities ............................................................................................. 185 3.6.1 Cleaning the IRB 8700 .............................................................................. 189 4 Repair 189 4.1 Introduction ...................................................................................................... 190 4.2 General procedures ........................................................................................... 190 4.2.1 Performing a leak-down test ...................................................................... 191 4.2.2 Mounting instructions for bearings ............................................................. 193 4.2.3 Mounting instructions for seals .................................................................. 195 4.3 Attaching lifting accessories ................................................................................ 195 4.3.1 Attaching lifting accessories to complete arm system .................................... 196 4.3.2 Attaching lifting accessories to the upper arm ............................................... 200 4.3.3 Attaching lifting accessories to the wrist ...................................................... 203 4.4 Cable harness .................................................................................................. 203 4.4.1 Removing the cable harness ..................................................................... 219 4.4.2 Refitting the cable harness ........................................................................ 240 4.4.3 Replacing the SMB .................................................................................. 6 Product manual - IRB 8700 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. Table of contents 246 4.4.4 Replacing the brake release unit ................................................................ 251 4.5 Upper and lower arms ........................................................................................ 251 4.5.1 Replacing the upper arm .......................................................................... 309 4.5.2 Replacing the wrist .................................................................................. 327 4.5.3 Replacing the axis-6 unit .......................................................................... 346 4.5.4 Replacing the turning disk ........................................................................ 350 4.5.5 Replacing the process turning disk ............................................................. 353 4.5.6 Replacing the complete lower arm .............................................................. 432 4.5.7 Replacing the parallel arm ........................................................................ 520 4.6 Frame and base ................................................................................................ 520 4.6.1 Replacing the counterweight .................................................................... 526 4.6.2 Replacing the mechanichal stop pin ........................................................... 532 4.6.3 Replacing the parallel rod ......................................................................... 549 4.6.4 Unloading and restoring the balancing device ............................................... 555 4.6.5 Replacing the balancing devices ................................................................ 567 4.7 Motors ............................................................................................................ 567 4.7.1 Replacing the axis-1 motor ....................................................................... 578 4.7.2 Replacing the axis-2 and axis-3 motors ...................................................... 592 4.7.3 Replacing the axis-4 motor ....................................................................... 603 4.7.4 Replacing the axis-5 motor ....................................................................... 617 4.7.5 Replacing the axis-6 motor ........................................................................ 631 4.8 Gearboxes ....................................................................................................... 631 4.8.1 Replacing the hub ................................................................................... 637 4.8.2 Replacing the axis-1 gearbox .................................................................... 675 4.8.3 Replacing the axis-2 gearbox .................................................................... 713 4.8.4 Replacing the axis-3 gearbox .................................................................... 754 4.8.5 Replacing the axis-4 primary gearbox ......................................................... 780 4.8.6 Replacing the axis-6 gearbox .................................................................... 789 5 Calibration 789 5.1 Introduction to calibration ................................................................................... 789 5.1.1 Introduction and calibration terminology ...................................................... 790 5.1.2 Calibration methods ................................................................................. 792 5.1.3 When to calibrate ................................................................................... 793 5.2 Synchronization marks and axis movement directions ............................................. 793 5.2.1 Synchronization marks and synchronization position for axes ......................... 794 5.2.2 Calibration movement directions for all axes ................................................ 795 5.3 Updating revolution counters ............................................................................... 799 5.4 Calibrating with Axis Calibration method ............................................................... 799 5.4.1 Description of Axis Calibration .................................................................. 801 5.4.2 Calibration tools for Axis Calibration ........................................................... 803 5.4.3 Installation locations for the calibration tools ............................................... 805 5.4.4 Axis Calibration - Running the calibration procedure ...................................... 811 5.5 Verifying the calibration ...................................................................................... 812 5.6 Checking the synchronization position .................................................................. 813 6 Decommissioning 813 6.1 Environmental information .................................................................................. 814 6.2 Scrapping of robot ............................................................................................. 815 6.3 Decommissioning of balancing device ................................................................... 817 7 Reference information 817 7.1 Introduction ...................................................................................................... 818 7.2 Applicable standards ......................................................................................... 820 7.3 Unit conversion ................................................................................................. 821 7.4 Screw joints ..................................................................................................... 824 7.5 Weight specifications ......................................................................................... 825 7.6 Standard toolkit ................................................................................................ Product manual - IRB 8700 7 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. Table of contents
ABB_IRB8700_Product_Manual.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC052853-001&LanguageCode=en&DocumentPartId=&Action=Launch&DocumentRevisionId=D	7	98 2.4 Restricting the working range .............................................................................. 98 2.4.1 Axes with restricted working range ............................................................. 99 2.4.2 Mechanically restricting the working range of axis 1 ...................................... 102 2.5 Electrical connections ........................................................................................ 102 2.5.1 Robot cabling and connection points .......................................................... 104 2.6 Installation of options ......................................................................................... 104 2.6.1 Installing the signal lamp (option) ............................................................... 105 3 Maintenance 105 3.1 Introduction ...................................................................................................... 106 3.2 Maintenance schedule and expected component life ............................................... 106 3.2.1 Specification of maintenance intervals ........................................................ 107 3.2.2 Maintenance schedule ............................................................................. 109 3.2.3 Expected component life ......................................................................... 110 3.3 Inspection activities ........................................................................................... 110 3.3.1 Inspecting the oil level in axis-1 gearbox ...................................................... 113 3.3.2 Inspecting the oil level in axis-2 and 3 gearboxes .......................................... 116 3.3.3 Inspecting the oil level in axis-4 primary gearbox .......................................... 119 3.3.4 Inspecting the oil level in axis-4 secondary gearbox ....................................... 121 3.3.5 Inspecting the oil level in axis-5 gearbox ...................................................... 124 3.3.6 Inspecting the oil level in axis-6 gearbox ...................................................... 126 3.3.7 Inspecting the transparent plugs ................................................................ 128 3.3.8 Inspecting the balancing devices ............................................................... 131 3.3.9 Inspecting the cable harness ..................................................................... 133 3.3.10 Inspecting the information labels ................................................................ 137 3.3.11 Inspecting the axis-1 mechanical stop pin ................................................... 139 3.3.12 Inspecting the additional mechanical stops ................................................. 141 3.3.13 Inspecting the fork lift accessories .............................................................. 143 3.3.14 Inspecting the signal lamp (option) ............................................................. 144 3.3.15 Inspecting dampers ................................................................................. 145 3.4 Replacement/changing activities .......................................................................... 145 3.4.1 Type of lubrication in gearboxes ................................................................ 146 3.4.2 Changing oil, axis-1 gearbox ..................................................................... 152 3.4.3 Changing oil in axis-2 and axis-3 gearbox .................................................... 158 3.4.4 Changing oil, axis-4 primary gearbox .......................................................... 164 3.4.5 Changing oil, axis-4 secondary gearbox ...................................................... 169 3.4.6 Changing oil, axis-5 gearbox ..................................................................... 173 3.4.7 Changing oil, axis-6 gearbox ..................................................................... 178 3.4.8 Replacing the SMB battery ........................................................................ 181 3.5 Lubrication activities .......................................................................................... 181 3.5.1 Lubricating the spherical roller bearings, balancing device .............................. 183 3.5.2 Lubricating the cross roller bearing ............................................................. 185 3.6 Cleaning activities ............................................................................................. 185 3.6.1 Cleaning the IRB 8700 .............................................................................. 189 4 Repair 189 4.1 Introduction ...................................................................................................... 190 4.2 General procedures ........................................................................................... 190 4.2.1 Performing a leak-down test ...................................................................... 191 4.2.2 Mounting instructions for bearings ............................................................. 193 4.2.3 Mounting instructions for seals .................................................................. 195 4.3 Attaching lifting accessories ................................................................................ 195 4.3.1 Attaching lifting accessories to complete arm system .................................... 196 4.3.2 Attaching lifting accessories to the upper arm ............................................... 200 4.3.3 Attaching lifting accessories to the wrist ...................................................... 203 4.4 Cable harness .................................................................................................. 203 4.4.1 Removing the cable harness ..................................................................... 219 4.4.2 Refitting the cable harness ........................................................................ 240 4.4.3 Replacing the SMB .................................................................................. 6 Product manual - IRB 8700 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. Table of contents 246 4.4.4 Replacing the brake release unit ................................................................ 251 4.5 Upper and lower arms ........................................................................................ 251 4.5.1 Replacing the upper arm .......................................................................... 309 4.5.2 Replacing the wrist .................................................................................. 327 4.5.3 Replacing the axis-6 unit .......................................................................... 346 4.5.4 Replacing the turning disk ........................................................................ 350 4.5.5 Replacing the process turning disk ............................................................. 353 4.5.6 Replacing the complete lower arm .............................................................. 432 4.5.7 Replacing the parallel arm ........................................................................ 520 4.6 Frame and base ................................................................................................ 520 4.6.1 Replacing the counterweight .................................................................... 526 4.6.2 Replacing the mechanichal stop pin ........................................................... 532 4.6.3 Replacing the parallel rod ......................................................................... 549 4.6.4 Unloading and restoring the balancing device ............................................... 555 4.6.5 Replacing the balancing devices ................................................................ 567 4.7 Motors ............................................................................................................ 567 4.7.1 Replacing the axis-1 motor ....................................................................... 578 4.7.2 Replacing the axis-2 and axis-3 motors ...................................................... 592 4.7.3 Replacing the axis-4 motor ....................................................................... 603 4.7.4 Replacing the axis-5 motor ....................................................................... 617 4.7.5 Replacing the axis-6 motor ........................................................................ 631 4.8 Gearboxes ....................................................................................................... 631 4.8.1 Replacing the hub ................................................................................... 637 4.8.2 Replacing the axis-1 gearbox .................................................................... 675 4.8.3 Replacing the axis-2 gearbox .................................................................... 713 4.8.4 Replacing the axis-3 gearbox .................................................................... 754 4.8.5 Replacing the axis-4 primary gearbox ......................................................... 780 4.8.6 Replacing the axis-6 gearbox .................................................................... 789 5 Calibration 789 5.1 Introduction to calibration ................................................................................... 789 5.1.1 Introduction and calibration terminology ...................................................... 790 5.1.2 Calibration methods ................................................................................. 792 5.1.3 When to calibrate ................................................................................... 793 5.2 Synchronization marks and axis movement directions ............................................. 793 5.2.1 Synchronization marks and synchronization position for axes ......................... 794 5.2.2 Calibration movement directions for all axes ................................................ 795 5.3 Updating revolution counters ............................................................................... 799 5.4 Calibrating with Axis Calibration method ............................................................... 799 5.4.1 Description of Axis Calibration .................................................................. 801 5.4.2 Calibration tools for Axis Calibration ........................................................... 803 5.4.3 Installation locations for the calibration tools ............................................... 805 5.4.4 Axis Calibration - Running the calibration procedure ...................................... 811 5.5 Verifying the calibration ...................................................................................... 812 5.6 Checking the synchronization position .................................................................. 813 6 Decommissioning 813 6.1 Environmental information .................................................................................. 814 6.2 Scrapping of robot ............................................................................................. 815 6.3 Decommissioning of balancing device ................................................................... 817 7 Reference information 817 7.1 Introduction ...................................................................................................... 818 7.2 Applicable standards ......................................................................................... 820 7.3 Unit conversion ................................................................................................. 821 7.4 Screw joints ..................................................................................................... 824 7.5 Weight specifications ......................................................................................... 825 7.6 Standard toolkit ................................................................................................ Product manual - IRB 8700 7 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. Table of contents 826 7.7 Special tools .................................................................................................... 829 7.8 Lifting accessories and lifting instructions .............................................................. 831 8 Spare parts 831 8.1 Spare part lists and illustrations ........................................................................... 833 9 Circuit diagrams 833 9.1 Circuit diagrams ................................................................................................ 835 Index 8 Product manual - IRB 8700 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. Table of contents
ABB_IRB8700_Product_Manual.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC052853-001&LanguageCode=en&DocumentPartId=&Action=Launch&DocumentRevisionId=D	8	246 4.4.4 Replacing the brake release unit ................................................................ 251 4.5 Upper and lower arms ........................................................................................ 251 4.5.1 Replacing the upper arm .......................................................................... 309 4.5.2 Replacing the wrist .................................................................................. 327 4.5.3 Replacing the axis-6 unit .......................................................................... 346 4.5.4 Replacing the turning disk ........................................................................ 350 4.5.5 Replacing the process turning disk ............................................................. 353 4.5.6 Replacing the complete lower arm .............................................................. 432 4.5.7 Replacing the parallel arm ........................................................................ 520 4.6 Frame and base ................................................................................................ 520 4.6.1 Replacing the counterweight .................................................................... 526 4.6.2 Replacing the mechanichal stop pin ........................................................... 532 4.6.3 Replacing the parallel rod ......................................................................... 549 4.6.4 Unloading and restoring the balancing device ............................................... 555 4.6.5 Replacing the balancing devices ................................................................ 567 4.7 Motors ............................................................................................................ 567 4.7.1 Replacing the axis-1 motor ....................................................................... 578 4.7.2 Replacing the axis-2 and axis-3 motors ...................................................... 592 4.7.3 Replacing the axis-4 motor ....................................................................... 603 4.7.4 Replacing the axis-5 motor ....................................................................... 617 4.7.5 Replacing the axis-6 motor ........................................................................ 631 4.8 Gearboxes ....................................................................................................... 631 4.8.1 Replacing the hub ................................................................................... 637 4.8.2 Replacing the axis-1 gearbox .................................................................... 675 4.8.3 Replacing the axis-2 gearbox .................................................................... 713 4.8.4 Replacing the axis-3 gearbox .................................................................... 754 4.8.5 Replacing the axis-4 primary gearbox ......................................................... 780 4.8.6 Replacing the axis-6 gearbox .................................................................... 789 5 Calibration 789 5.1 Introduction to calibration ................................................................................... 789 5.1.1 Introduction and calibration terminology ...................................................... 790 5.1.2 Calibration methods ................................................................................. 792 5.1.3 When to calibrate ................................................................................... 793 5.2 Synchronization marks and axis movement directions ............................................. 793 5.2.1 Synchronization marks and synchronization position for axes ......................... 794 5.2.2 Calibration movement directions for all axes ................................................ 795 5.3 Updating revolution counters ............................................................................... 799 5.4 Calibrating with Axis Calibration method ............................................................... 799 5.4.1 Description of Axis Calibration .................................................................. 801 5.4.2 Calibration tools for Axis Calibration ........................................................... 803 5.4.3 Installation locations for the calibration tools ............................................... 805 5.4.4 Axis Calibration - Running the calibration procedure ...................................... 811 5.5 Verifying the calibration ...................................................................................... 812 5.6 Checking the synchronization position .................................................................. 813 6 Decommissioning 813 6.1 Environmental information .................................................................................. 814 6.2 Scrapping of robot ............................................................................................. 815 6.3 Decommissioning of balancing device ................................................................... 817 7 Reference information 817 7.1 Introduction ...................................................................................................... 818 7.2 Applicable standards ......................................................................................... 820 7.3 Unit conversion ................................................................................................. 821 7.4 Screw joints ..................................................................................................... 824 7.5 Weight specifications ......................................................................................... 825 7.6 Standard toolkit ................................................................................................ Product manual - IRB 8700 7 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. Table of contents 826 7.7 Special tools .................................................................................................... 829 7.8 Lifting accessories and lifting instructions .............................................................. 831 8 Spare parts 831 8.1 Spare part lists and illustrations ........................................................................... 833 9 Circuit diagrams 833 9.1 Circuit diagrams ................................................................................................ 835 Index 8 Product manual - IRB 8700 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. Table of contents Overview of this manual About this manual This manual contains instructions for: • mechanical and electrical installation of the robot • maintenance of the robot • mechanical and electrical repair of the robot. Usage This manual should be used during: • installation, from lifting the robot to its work site and securing it to the foundation, to making it ready for operation • maintenance work • repair work and calibration. Who should read this manual? This manual is intended for: • installation personnel • maintenance personnel • repair personnel. Prerequisites A maintenance/repair/installation personnel working with an ABB Robot must: • be trained by ABB and have the required knowledge of mechanical and electrical installation/repair/maintenance work. Organization of chapters The manual is organized in the following chapters: Contents Chapter Safety information that must be read through before performing any installation or service work on robot. Contains general safety aspects as well as more specific information on how to avoid personal injuries and damage to the product. Safety Required information about lifting and installation of the robot. Installation and commis- sioning Step-by-step procedures that describe how to perform mainten- ance of the robot. Based on a maintenance schedule that may be used to plan periodical maintenance. Maintenance Step-by-step procedures that describe how to perform repair activities of the robot. Based on available spare parts. Repair Calibration procedures and general information about calibration. Calibration Environmental information about the robot and its components. Decommissioning Useful information when performing installation, maintenance or repair work. Includes lists of necessary tools, additional doc- uments, safety standards, etc. Reference information Continues on next page Product manual - IRB 8700 9 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. Overview of this manual
ABB_IRB8700_Product_Manual.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC052853-001&LanguageCode=en&DocumentPartId=&Action=Launch&DocumentRevisionId=D	9	826 7.7 Special tools .................................................................................................... 829 7.8 Lifting accessories and lifting instructions .............................................................. 831 8 Spare parts 831 8.1 Spare part lists and illustrations ........................................................................... 833 9 Circuit diagrams 833 9.1 Circuit diagrams ................................................................................................ 835 Index 8 Product manual - IRB 8700 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. Table of contents Overview of this manual About this manual This manual contains instructions for: • mechanical and electrical installation of the robot • maintenance of the robot • mechanical and electrical repair of the robot. Usage This manual should be used during: • installation, from lifting the robot to its work site and securing it to the foundation, to making it ready for operation • maintenance work • repair work and calibration. Who should read this manual? This manual is intended for: • installation personnel • maintenance personnel • repair personnel. Prerequisites A maintenance/repair/installation personnel working with an ABB Robot must: • be trained by ABB and have the required knowledge of mechanical and electrical installation/repair/maintenance work. Organization of chapters The manual is organized in the following chapters: Contents Chapter Safety information that must be read through before performing any installation or service work on robot. Contains general safety aspects as well as more specific information on how to avoid personal injuries and damage to the product. Safety Required information about lifting and installation of the robot. Installation and commis- sioning Step-by-step procedures that describe how to perform mainten- ance of the robot. Based on a maintenance schedule that may be used to plan periodical maintenance. Maintenance Step-by-step procedures that describe how to perform repair activities of the robot. Based on available spare parts. Repair Calibration procedures and general information about calibration. Calibration Environmental information about the robot and its components. Decommissioning Useful information when performing installation, maintenance or repair work. Includes lists of necessary tools, additional doc- uments, safety standards, etc. Reference information Continues on next page Product manual - IRB 8700 9 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. Overview of this manual Contents Chapter Reference to the spare part list for the robot. Spare parts Reference to the circuit diagram for the robot. Circuit diagram References Documentation referred to in the manual, is listed in the table below. Document ID Document name 3HAC052854-001 Product manual, spare parts - IRB 8700 3HAC052852-001 Product specification - IRB 8700 3HAC051028-002 Circuit diagram - IRB 8700 3HAC047136-001 Product manual - IRC5 3HAC050941-001 Operating manual - IRC5 with FlexPendant 3HAC042927-001 Technical reference manual - Lubrication in gearboxes 3HAC050948-001 Technical reference manual - System parameters Revisions Description Revision First edition. - The following updates are done in this revision: • Repair chapter added • Edited information regarding deciding calibration routine in each repair section. • Added a warning that calibration pin must be inserted in the calib- ration bushing until it snaps, see Description of Axis Calibration on page 799 . • Added warning regarding risk of pinching, in Description of Axis Calibration on page 799 . • Added information about inspection of calibration tool prior to usage, see Examining the calibration tool on page 801 . • Added information about the calibration procedure, see Overview of the calibration procedure on the FlexPendant on page 805 , Re- starting an interrupted calibration procedure on page 807 . • Added information about Axis Calibration when SafeMove is in- stalled, see Axis Calibration with SafeMove option on page 808 . • Turn motion axis-6 updated to ±360°, see Working range on page 60 . A The following updates are done in this revision: • Illustrations added throughout the manual. • Minor updates throughout the manual. B Continues on next page 10 Product manual - IRB 8700 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. Overview of this manual Continued
ABB_IRB8700_Product_Manual.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC052853-001&LanguageCode=en&DocumentPartId=&Action=Launch&DocumentRevisionId=D	10	Overview of this manual About this manual This manual contains instructions for: • mechanical and electrical installation of the robot • maintenance of the robot • mechanical and electrical repair of the robot. Usage This manual should be used during: • installation, from lifting the robot to its work site and securing it to the foundation, to making it ready for operation • maintenance work • repair work and calibration. Who should read this manual? This manual is intended for: • installation personnel • maintenance personnel • repair personnel. Prerequisites A maintenance/repair/installation personnel working with an ABB Robot must: • be trained by ABB and have the required knowledge of mechanical and electrical installation/repair/maintenance work. Organization of chapters The manual is organized in the following chapters: Contents Chapter Safety information that must be read through before performing any installation or service work on robot. Contains general safety aspects as well as more specific information on how to avoid personal injuries and damage to the product. Safety Required information about lifting and installation of the robot. Installation and commis- sioning Step-by-step procedures that describe how to perform mainten- ance of the robot. Based on a maintenance schedule that may be used to plan periodical maintenance. Maintenance Step-by-step procedures that describe how to perform repair activities of the robot. Based on available spare parts. Repair Calibration procedures and general information about calibration. Calibration Environmental information about the robot and its components. Decommissioning Useful information when performing installation, maintenance or repair work. Includes lists of necessary tools, additional doc- uments, safety standards, etc. Reference information Continues on next page Product manual - IRB 8700 9 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. Overview of this manual Contents Chapter Reference to the spare part list for the robot. Spare parts Reference to the circuit diagram for the robot. Circuit diagram References Documentation referred to in the manual, is listed in the table below. Document ID Document name 3HAC052854-001 Product manual, spare parts - IRB 8700 3HAC052852-001 Product specification - IRB 8700 3HAC051028-002 Circuit diagram - IRB 8700 3HAC047136-001 Product manual - IRC5 3HAC050941-001 Operating manual - IRC5 with FlexPendant 3HAC042927-001 Technical reference manual - Lubrication in gearboxes 3HAC050948-001 Technical reference manual - System parameters Revisions Description Revision First edition. - The following updates are done in this revision: • Repair chapter added • Edited information regarding deciding calibration routine in each repair section. • Added a warning that calibration pin must be inserted in the calib- ration bushing until it snaps, see Description of Axis Calibration on page 799 . • Added warning regarding risk of pinching, in Description of Axis Calibration on page 799 . • Added information about inspection of calibration tool prior to usage, see Examining the calibration tool on page 801 . • Added information about the calibration procedure, see Overview of the calibration procedure on the FlexPendant on page 805 , Re- starting an interrupted calibration procedure on page 807 . • Added information about Axis Calibration when SafeMove is in- stalled, see Axis Calibration with SafeMove option on page 808 . • Turn motion axis-6 updated to ±360°, see Working range on page 60 . A The following updates are done in this revision: • Illustrations added throughout the manual. • Minor updates throughout the manual. B Continues on next page 10 Product manual - IRB 8700 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. Overview of this manual Continued Description Revision Published in release R16.2. The following updates are done in this revi- sion: • Drawing of the base plate is updated. • Drawing of base plate is not available for purchase, faulty inform- ation removed in Securing the base plate on page 77 . • Bearing grease 3HAC9408-1 changed name from Longtime PD2 to Tribol GR 100-2 PD • Fork lift accessory descriptions updated. • Working range updated. • Main dimensions updated. • Updated spare parts due to sealing upgrade in the motors: - Motors - Upper arm excluding wrist - Wrist - Axis 6 complete C Published in release R17.1. The following updates are done in this revi- sion: • Updates in procedure Replacing the axis-1 gearbox, Replacing the axis-1 gearbox on page 637 • Figures in Filling oil into axis-1 gearbox updated. • Caution with figures to ensure relieving pressure on the correct balancing device added. • Grease for cross roller bearing changed (from Tribol GR 100-0 PD to Mobilux EP2). • Bending radius for static floor cables added. • Motors updated, M12 instead of M14 holes for removal tool on motors axis 1-3. • Removal tool changed from 14 to 12 in required tools on axis 4 and 5. • Added information that re-calibration is needed after replacement of hub. • Added replacement information in Replacing the hub, Replacing the hub on page 631 . D Product manual - IRB 8700 11 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. Overview of this manual Continued
ABB_IRB8700_Product_Manual.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC052853-001&LanguageCode=en&DocumentPartId=&Action=Launch&DocumentRevisionId=D	11	Contents Chapter Reference to the spare part list for the robot. Spare parts Reference to the circuit diagram for the robot. Circuit diagram References Documentation referred to in the manual, is listed in the table below. Document ID Document name 3HAC052854-001 Product manual, spare parts - IRB 8700 3HAC052852-001 Product specification - IRB 8700 3HAC051028-002 Circuit diagram - IRB 8700 3HAC047136-001 Product manual - IRC5 3HAC050941-001 Operating manual - IRC5 with FlexPendant 3HAC042927-001 Technical reference manual - Lubrication in gearboxes 3HAC050948-001 Technical reference manual - System parameters Revisions Description Revision First edition. - The following updates are done in this revision: • Repair chapter added • Edited information regarding deciding calibration routine in each repair section. • Added a warning that calibration pin must be inserted in the calib- ration bushing until it snaps, see Description of Axis Calibration on page 799 . • Added warning regarding risk of pinching, in Description of Axis Calibration on page 799 . • Added information about inspection of calibration tool prior to usage, see Examining the calibration tool on page 801 . • Added information about the calibration procedure, see Overview of the calibration procedure on the FlexPendant on page 805 , Re- starting an interrupted calibration procedure on page 807 . • Added information about Axis Calibration when SafeMove is in- stalled, see Axis Calibration with SafeMove option on page 808 . • Turn motion axis-6 updated to ±360°, see Working range on page 60 . A The following updates are done in this revision: • Illustrations added throughout the manual. • Minor updates throughout the manual. B Continues on next page 10 Product manual - IRB 8700 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. Overview of this manual Continued Description Revision Published in release R16.2. The following updates are done in this revi- sion: • Drawing of the base plate is updated. • Drawing of base plate is not available for purchase, faulty inform- ation removed in Securing the base plate on page 77 . • Bearing grease 3HAC9408-1 changed name from Longtime PD2 to Tribol GR 100-2 PD • Fork lift accessory descriptions updated. • Working range updated. • Main dimensions updated. • Updated spare parts due to sealing upgrade in the motors: - Motors - Upper arm excluding wrist - Wrist - Axis 6 complete C Published in release R17.1. The following updates are done in this revi- sion: • Updates in procedure Replacing the axis-1 gearbox, Replacing the axis-1 gearbox on page 637 • Figures in Filling oil into axis-1 gearbox updated. • Caution with figures to ensure relieving pressure on the correct balancing device added. • Grease for cross roller bearing changed (from Tribol GR 100-0 PD to Mobilux EP2). • Bending radius for static floor cables added. • Motors updated, M12 instead of M14 holes for removal tool on motors axis 1-3. • Removal tool changed from 14 to 12 in required tools on axis 4 and 5. • Added information that re-calibration is needed after replacement of hub. • Added replacement information in Replacing the hub, Replacing the hub on page 631 . D Product manual - IRB 8700 11 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. Overview of this manual Continued Product documentation, IRC5 Categories for user documentation from ABB Robotics The user documentation from ABB Robotics is divided into a number of categories. This listing is based on the type of information in the documents, regardless of whether the products are standard or optional. All documents listed can be ordered from ABB on a DVD. The documents listed are valid for IRC5 robot systems. Product manuals Manipulators, controllers, DressPack/SpotPack, and most other hardware is delivered with a Product manual that generally contains: • Safety information. • Installation and commissioning (descriptions of mechanical installation or electrical connections). • Maintenance (descriptions of all required preventive maintenance procedures including intervals and expected life time of parts). • Repair (descriptions of all recommended repair procedures including spare parts). • Calibration. • Decommissioning. • Reference information (safety standards, unit conversions, screw joints, lists of tools). • Spare parts list with exploded views (or references to separate spare parts lists). • Circuit diagrams (or references to circuit diagrams). Technical reference manuals The technical reference manuals describe reference information for robotics products. • Technical reference manual - Lubrication in gearboxes : Description of types and volumes of lubrication for the manipulator gearboxes. • Technical reference manual - RAPID overview : An overview of the RAPID programming language. • Technical reference manual - RAPID Instructions, Functions and Data types : Description and syntax for all RAPID instructions, functions, and data types. • Technical reference manual - RAPID kernel : A formal description of the RAPID programming language. • Technical reference manual - System parameters : Description of system parameters and configuration workflows. Continues on next page 12 Product manual - IRB 8700 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. Product documentation, IRC5
ABB_IRB8700_Product_Manual.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC052853-001&LanguageCode=en&DocumentPartId=&Action=Launch&DocumentRevisionId=D	12	Description Revision Published in release R16.2. The following updates are done in this revi- sion: • Drawing of the base plate is updated. • Drawing of base plate is not available for purchase, faulty inform- ation removed in Securing the base plate on page 77 . • Bearing grease 3HAC9408-1 changed name from Longtime PD2 to Tribol GR 100-2 PD • Fork lift accessory descriptions updated. • Working range updated. • Main dimensions updated. • Updated spare parts due to sealing upgrade in the motors: - Motors - Upper arm excluding wrist - Wrist - Axis 6 complete C Published in release R17.1. The following updates are done in this revi- sion: • Updates in procedure Replacing the axis-1 gearbox, Replacing the axis-1 gearbox on page 637 • Figures in Filling oil into axis-1 gearbox updated. • Caution with figures to ensure relieving pressure on the correct balancing device added. • Grease for cross roller bearing changed (from Tribol GR 100-0 PD to Mobilux EP2). • Bending radius for static floor cables added. • Motors updated, M12 instead of M14 holes for removal tool on motors axis 1-3. • Removal tool changed from 14 to 12 in required tools on axis 4 and 5. • Added information that re-calibration is needed after replacement of hub. • Added replacement information in Replacing the hub, Replacing the hub on page 631 . D Product manual - IRB 8700 11 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. Overview of this manual Continued Product documentation, IRC5 Categories for user documentation from ABB Robotics The user documentation from ABB Robotics is divided into a number of categories. This listing is based on the type of information in the documents, regardless of whether the products are standard or optional. All documents listed can be ordered from ABB on a DVD. The documents listed are valid for IRC5 robot systems. Product manuals Manipulators, controllers, DressPack/SpotPack, and most other hardware is delivered with a Product manual that generally contains: • Safety information. • Installation and commissioning (descriptions of mechanical installation or electrical connections). • Maintenance (descriptions of all required preventive maintenance procedures including intervals and expected life time of parts). • Repair (descriptions of all recommended repair procedures including spare parts). • Calibration. • Decommissioning. • Reference information (safety standards, unit conversions, screw joints, lists of tools). • Spare parts list with exploded views (or references to separate spare parts lists). • Circuit diagrams (or references to circuit diagrams). Technical reference manuals The technical reference manuals describe reference information for robotics products. • Technical reference manual - Lubrication in gearboxes : Description of types and volumes of lubrication for the manipulator gearboxes. • Technical reference manual - RAPID overview : An overview of the RAPID programming language. • Technical reference manual - RAPID Instructions, Functions and Data types : Description and syntax for all RAPID instructions, functions, and data types. • Technical reference manual - RAPID kernel : A formal description of the RAPID programming language. • Technical reference manual - System parameters : Description of system parameters and configuration workflows. Continues on next page 12 Product manual - IRB 8700 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. Product documentation, IRC5 Application manuals Specific applications (for example software or hardware options) are described in Application manuals . An application manual can describe one or several applications. An application manual generally contains information about: • The purpose of the application (what it does and when it is useful). • What is included (for example cables, I/O boards, RAPID instructions, system parameters, DVD with PC software). • How to install included or required hardware. • How to use the application. • Examples of how to use the application. Operating manuals The operating manuals describe hands-on handling of the products. The manuals are aimed at those having first-hand operational contact with the product, that is production cell operators, programmers, and trouble shooters. The group of manuals includes (among others): • Operating manual - Emergency safety information • Operating manual - General safety information • Operating manual - Getting started, IRC5 and RobotStudio • Operating manual - IRC5 Integrator's guide • Operating manual - IRC5 with FlexPendant • Operating manual - RobotStudio • Operating manual - Trouble shooting IRC5 Product manual - IRB 8700 13 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. Product documentation, IRC5 Continued
ABB_IRB8700_Product_Manual.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC052853-001&LanguageCode=en&DocumentPartId=&Action=Launch&DocumentRevisionId=D	13	Product documentation, IRC5 Categories for user documentation from ABB Robotics The user documentation from ABB Robotics is divided into a number of categories. This listing is based on the type of information in the documents, regardless of whether the products are standard or optional. All documents listed can be ordered from ABB on a DVD. The documents listed are valid for IRC5 robot systems. Product manuals Manipulators, controllers, DressPack/SpotPack, and most other hardware is delivered with a Product manual that generally contains: • Safety information. • Installation and commissioning (descriptions of mechanical installation or electrical connections). • Maintenance (descriptions of all required preventive maintenance procedures including intervals and expected life time of parts). • Repair (descriptions of all recommended repair procedures including spare parts). • Calibration. • Decommissioning. • Reference information (safety standards, unit conversions, screw joints, lists of tools). • Spare parts list with exploded views (or references to separate spare parts lists). • Circuit diagrams (or references to circuit diagrams). Technical reference manuals The technical reference manuals describe reference information for robotics products. • Technical reference manual - Lubrication in gearboxes : Description of types and volumes of lubrication for the manipulator gearboxes. • Technical reference manual - RAPID overview : An overview of the RAPID programming language. • Technical reference manual - RAPID Instructions, Functions and Data types : Description and syntax for all RAPID instructions, functions, and data types. • Technical reference manual - RAPID kernel : A formal description of the RAPID programming language. • Technical reference manual - System parameters : Description of system parameters and configuration workflows. Continues on next page 12 Product manual - IRB 8700 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. Product documentation, IRC5 Application manuals Specific applications (for example software or hardware options) are described in Application manuals . An application manual can describe one or several applications. An application manual generally contains information about: • The purpose of the application (what it does and when it is useful). • What is included (for example cables, I/O boards, RAPID instructions, system parameters, DVD with PC software). • How to install included or required hardware. • How to use the application. • Examples of how to use the application. Operating manuals The operating manuals describe hands-on handling of the products. The manuals are aimed at those having first-hand operational contact with the product, that is production cell operators, programmers, and trouble shooters. The group of manuals includes (among others): • Operating manual - Emergency safety information • Operating manual - General safety information • Operating manual - Getting started, IRC5 and RobotStudio • Operating manual - IRC5 Integrator's guide • Operating manual - IRC5 with FlexPendant • Operating manual - RobotStudio • Operating manual - Trouble shooting IRC5 Product manual - IRB 8700 13 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. Product documentation, IRC5 Continued How to read the product manual Reading the procedures The procedures contain all information required for the installation or service activity and can be printed out separately when needed for a certain service procedure. Safety information The manual includes a separate safety chapter that must be read through before proceeding with any service or installation procedures. All procedures also include specific safety information when dangerous steps are to be performed. Read more in the chapter Safety on page 15 . Illustrations The product is illustrated with general figures that does not take painting or protection type in consideration. Likewise, certain work methods or general information that is valid for several product models, can be illustrated with illustrations that show a different product model than the one that is described in the current manual. 14 Product manual - IRB 8700 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. How to read the product manual
ABB_IRB8700_Product_Manual.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC052853-001&LanguageCode=en&DocumentPartId=&Action=Launch&DocumentRevisionId=D	14	Application manuals Specific applications (for example software or hardware options) are described in Application manuals . An application manual can describe one or several applications. An application manual generally contains information about: • The purpose of the application (what it does and when it is useful). • What is included (for example cables, I/O boards, RAPID instructions, system parameters, DVD with PC software). • How to install included or required hardware. • How to use the application. • Examples of how to use the application. Operating manuals The operating manuals describe hands-on handling of the products. The manuals are aimed at those having first-hand operational contact with the product, that is production cell operators, programmers, and trouble shooters. The group of manuals includes (among others): • Operating manual - Emergency safety information • Operating manual - General safety information • Operating manual - Getting started, IRC5 and RobotStudio • Operating manual - IRC5 Integrator's guide • Operating manual - IRC5 with FlexPendant • Operating manual - RobotStudio • Operating manual - Trouble shooting IRC5 Product manual - IRB 8700 13 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. Product documentation, IRC5 Continued How to read the product manual Reading the procedures The procedures contain all information required for the installation or service activity and can be printed out separately when needed for a certain service procedure. Safety information The manual includes a separate safety chapter that must be read through before proceeding with any service or installation procedures. All procedures also include specific safety information when dangerous steps are to be performed. Read more in the chapter Safety on page 15 . Illustrations The product is illustrated with general figures that does not take painting or protection type in consideration. Likewise, certain work methods or general information that is valid for several product models, can be illustrated with illustrations that show a different product model than the one that is described in the current manual. 14 Product manual - IRB 8700 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. How to read the product manual 1 Safety 1.1 Introduction to safety information Overview The safety information in this manual is divided into the following categories: • General safety aspects, important to attend to before performing any service work on the robot. These are applicable for all service work and are found in General safety information on page 16 . • Safety signals and symbols shown in the manual and on the robot, warning for different types of dangers, are found in Safety signals and symbols on page 37 . • Specific safety information, pointed out in the procedures. How to avoid and eliminate the danger is either described directly in the procedure, or in specific instructions in the section Safety related instructions on page 45 . Product manual - IRB 8700 15 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.1 Introduction to safety information
ABB_IRB8700_Product_Manual.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC052853-001&LanguageCode=en&DocumentPartId=&Action=Launch&DocumentRevisionId=D	15	How to read the product manual Reading the procedures The procedures contain all information required for the installation or service activity and can be printed out separately when needed for a certain service procedure. Safety information The manual includes a separate safety chapter that must be read through before proceeding with any service or installation procedures. All procedures also include specific safety information when dangerous steps are to be performed. Read more in the chapter Safety on page 15 . Illustrations The product is illustrated with general figures that does not take painting or protection type in consideration. Likewise, certain work methods or general information that is valid for several product models, can be illustrated with illustrations that show a different product model than the one that is described in the current manual. 14 Product manual - IRB 8700 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. How to read the product manual 1 Safety 1.1 Introduction to safety information Overview The safety information in this manual is divided into the following categories: • General safety aspects, important to attend to before performing any service work on the robot. These are applicable for all service work and are found in General safety information on page 16 . • Safety signals and symbols shown in the manual and on the robot, warning for different types of dangers, are found in Safety signals and symbols on page 37 . • Specific safety information, pointed out in the procedures. How to avoid and eliminate the danger is either described directly in the procedure, or in specific instructions in the section Safety related instructions on page 45 . Product manual - IRB 8700 15 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.1 Introduction to safety information 1.2 General safety information 1.2.1 Introduction to general safety information Definitions This section details general safety information for personnel performing installation, repair and maintenance work. Sections The general safety information is divided into the following sections. Examples of content Section This section describes the following: • safety, service • limitation of liability • related information Safety in the manipulator system on page 17 This section describes protective stop and emergency stop. Protective stop and emergency stop on page 19 This section lists dangers relevant when work- ing with the product. The dangers are split into different categories. • safety risks during installation or service • risks associated with live electrical parts Safety risks on page 20 This section describes actions which may be taken to remedy or avoid dangers. • fire extinguishing • safe use of the teach pendant or jogging device Safety actions on page 29 16 Product manual - IRB 8700 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.2.1 Introduction to general safety information
ABB_IRB8700_Product_Manual.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC052853-001&LanguageCode=en&DocumentPartId=&Action=Launch&DocumentRevisionId=D	16	1 Safety 1.1 Introduction to safety information Overview The safety information in this manual is divided into the following categories: • General safety aspects, important to attend to before performing any service work on the robot. These are applicable for all service work and are found in General safety information on page 16 . • Safety signals and symbols shown in the manual and on the robot, warning for different types of dangers, are found in Safety signals and symbols on page 37 . • Specific safety information, pointed out in the procedures. How to avoid and eliminate the danger is either described directly in the procedure, or in specific instructions in the section Safety related instructions on page 45 . Product manual - IRB 8700 15 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.1 Introduction to safety information 1.2 General safety information 1.2.1 Introduction to general safety information Definitions This section details general safety information for personnel performing installation, repair and maintenance work. Sections The general safety information is divided into the following sections. Examples of content Section This section describes the following: • safety, service • limitation of liability • related information Safety in the manipulator system on page 17 This section describes protective stop and emergency stop. Protective stop and emergency stop on page 19 This section lists dangers relevant when work- ing with the product. The dangers are split into different categories. • safety risks during installation or service • risks associated with live electrical parts Safety risks on page 20 This section describes actions which may be taken to remedy or avoid dangers. • fire extinguishing • safe use of the teach pendant or jogging device Safety actions on page 29 16 Product manual - IRB 8700 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.2.1 Introduction to general safety information 1.2.2 Safety in the manipulator system Validity and responsibility The information does not cover how to design, install and operate a complete system, nor does it cover all peripheral equipment that can influence the safety of the entire system. To protect personnel, the complete system must be designed and installed in accordance with the safety requirements set forth in the standards and regulations of the country where the robot is installed. The users of ABB industrial robots are responsible for ensuring that the applicable safety laws and regulations in the country concerned are observed and that the safety devices necessary to protect people working with the robot system are designed and installed correctly. Personnel working with robot must be familiar with the operation and handling of the industrial robot as described in the applicable documents, for example: • Operating manual - IRC5 with FlexPendant • Operating manual - General safety information I • Product manual I This manual contains all safety instructions from the product manuals for the robots and the controllers. The robot system shall be designed and constructed in such a way as to allow safe access to all areas where intervention is necessary during operation, adjustment, and maintenance. Where it is necessary to perform tasks within the safeguarded space there shall be safe and adequate access to the task locations. Users shall not be exposed to hazards, including slipping, tripping, and falling hazards. Connection of external safety devices Apart from the built-in safety functions, the robot is also supplied with an interface for the connection of external safety devices. An external safety function can interact with other machines and peripheral equipment via this interface. This means that control signals can act on safety signals received from the peripheral equipment as well as from the robot. Limitation of liability Any information given in this manual regarding safety must not be construed as a warranty by ABB that the industrial robot will not cause injury or damage even if all safety instructions are complied with. Related information Section Detailed in document Type of information Installation and commissioning Product manual for the robot Installation of safety devices Operating modes Operating manual - IRC5 with FlexPend- ant Changing operating modes Operator's Manual - IRC5P Continues on next page Product manual - IRB 8700 17 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.2.2 Safety in the manipulator system
ABB_IRB8700_Product_Manual.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC052853-001&LanguageCode=en&DocumentPartId=&Action=Launch&DocumentRevisionId=D	17	1.2 General safety information 1.2.1 Introduction to general safety information Definitions This section details general safety information for personnel performing installation, repair and maintenance work. Sections The general safety information is divided into the following sections. Examples of content Section This section describes the following: • safety, service • limitation of liability • related information Safety in the manipulator system on page 17 This section describes protective stop and emergency stop. Protective stop and emergency stop on page 19 This section lists dangers relevant when work- ing with the product. The dangers are split into different categories. • safety risks during installation or service • risks associated with live electrical parts Safety risks on page 20 This section describes actions which may be taken to remedy or avoid dangers. • fire extinguishing • safe use of the teach pendant or jogging device Safety actions on page 29 16 Product manual - IRB 8700 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.2.1 Introduction to general safety information 1.2.2 Safety in the manipulator system Validity and responsibility The information does not cover how to design, install and operate a complete system, nor does it cover all peripheral equipment that can influence the safety of the entire system. To protect personnel, the complete system must be designed and installed in accordance with the safety requirements set forth in the standards and regulations of the country where the robot is installed. The users of ABB industrial robots are responsible for ensuring that the applicable safety laws and regulations in the country concerned are observed and that the safety devices necessary to protect people working with the robot system are designed and installed correctly. Personnel working with robot must be familiar with the operation and handling of the industrial robot as described in the applicable documents, for example: • Operating manual - IRC5 with FlexPendant • Operating manual - General safety information I • Product manual I This manual contains all safety instructions from the product manuals for the robots and the controllers. The robot system shall be designed and constructed in such a way as to allow safe access to all areas where intervention is necessary during operation, adjustment, and maintenance. Where it is necessary to perform tasks within the safeguarded space there shall be safe and adequate access to the task locations. Users shall not be exposed to hazards, including slipping, tripping, and falling hazards. Connection of external safety devices Apart from the built-in safety functions, the robot is also supplied with an interface for the connection of external safety devices. An external safety function can interact with other machines and peripheral equipment via this interface. This means that control signals can act on safety signals received from the peripheral equipment as well as from the robot. Limitation of liability Any information given in this manual regarding safety must not be construed as a warranty by ABB that the industrial robot will not cause injury or damage even if all safety instructions are complied with. Related information Section Detailed in document Type of information Installation and commissioning Product manual for the robot Installation of safety devices Operating modes Operating manual - IRC5 with FlexPend- ant Changing operating modes Operator's Manual - IRC5P Continues on next page Product manual - IRB 8700 17 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.2.2 Safety in the manipulator system Section Detailed in document Type of information Installation and commissioning Product manual for the robot Restricting the working space 18 Product manual - IRB 8700 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.2.2 Safety in the manipulator system Continued
ABB_IRB8700_Product_Manual.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC052853-001&LanguageCode=en&DocumentPartId=&Action=Launch&DocumentRevisionId=D	18	1.2.2 Safety in the manipulator system Validity and responsibility The information does not cover how to design, install and operate a complete system, nor does it cover all peripheral equipment that can influence the safety of the entire system. To protect personnel, the complete system must be designed and installed in accordance with the safety requirements set forth in the standards and regulations of the country where the robot is installed. The users of ABB industrial robots are responsible for ensuring that the applicable safety laws and regulations in the country concerned are observed and that the safety devices necessary to protect people working with the robot system are designed and installed correctly. Personnel working with robot must be familiar with the operation and handling of the industrial robot as described in the applicable documents, for example: • Operating manual - IRC5 with FlexPendant • Operating manual - General safety information I • Product manual I This manual contains all safety instructions from the product manuals for the robots and the controllers. The robot system shall be designed and constructed in such a way as to allow safe access to all areas where intervention is necessary during operation, adjustment, and maintenance. Where it is necessary to perform tasks within the safeguarded space there shall be safe and adequate access to the task locations. Users shall not be exposed to hazards, including slipping, tripping, and falling hazards. Connection of external safety devices Apart from the built-in safety functions, the robot is also supplied with an interface for the connection of external safety devices. An external safety function can interact with other machines and peripheral equipment via this interface. This means that control signals can act on safety signals received from the peripheral equipment as well as from the robot. Limitation of liability Any information given in this manual regarding safety must not be construed as a warranty by ABB that the industrial robot will not cause injury or damage even if all safety instructions are complied with. Related information Section Detailed in document Type of information Installation and commissioning Product manual for the robot Installation of safety devices Operating modes Operating manual - IRC5 with FlexPend- ant Changing operating modes Operator's Manual - IRC5P Continues on next page Product manual - IRB 8700 17 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.2.2 Safety in the manipulator system Section Detailed in document Type of information Installation and commissioning Product manual for the robot Restricting the working space 18 Product manual - IRB 8700 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.2.2 Safety in the manipulator system Continued 1.2.3 Protective stop and emergency stop Overview The protective stops and emergency stops are described in the product manual for the controller. Product manual - IRB 8700 19 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.2.3 Protective stop and emergency stop
ABB_IRB8700_Product_Manual.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC052853-001&LanguageCode=en&DocumentPartId=&Action=Launch&DocumentRevisionId=D	19	Section Detailed in document Type of information Installation and commissioning Product manual for the robot Restricting the working space 18 Product manual - IRB 8700 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.2.2 Safety in the manipulator system Continued 1.2.3 Protective stop and emergency stop Overview The protective stops and emergency stops are described in the product manual for the controller. Product manual - IRB 8700 19 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.2.3 Protective stop and emergency stop 1.2.4 Safety risks 1.2.4.1 Safety risks during installation and service work on robots Overview This section includes information on general safety risks to be considered when performing installation and service work on the robot. These safety instructions have to be read and followed by any person who deals with the installation and maintenance of the robot. Only persons who know the robot and are trained in the operation and handling of the robot are allowed to maintain the robot. Persons who are under the influence of alcohol, drugs or any other intoxicating substances are not allowed to maintain, repair, or use the robot. General risks during installation and service • The instructions in the product manual in the chapters Installation and commissioning , and Repair must always be followed. • Emergency stop buttons must be positioned in easily accessible places so that the robot can be stopped quickly. • Those in charge of operations must make sure that safety instructions are available for the installation in question. • Those who install or service/maintain the robot must have the appropriate training for the equipment in question and in any safety matters associated with it. Spare parts and special equipment ABB does not supply spare parts and special equipment which have not been tested and approved by ABB. The installation and/or use of such products could negatively affect the structural properties of the robot and as a result of that affect the active or passive safety operation. ABB is not liable for damages caused by the use of non-original spare parts and special equipment. ABB is not liable for damages or injuries caused by unauthorized modifications to the robot system. Personal protective equipment Always use suitable personal protective equipment, based on the risk assessment for the robot installation. Nation/region specific regulations To prevent injuries and damages during the installation of the robot, the regulations applicable in the country concerned and the instructions of ABB Robotics must be complied with. Non-voltage related risks • Make sure that no one else can turn on the power to the controller and robot while you are working with the system. A good method is to always lock the main switch on the controller cabinet with a safety lock. Continues on next page 20 Product manual - IRB 8700 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.2.4.1 Safety risks during installation and service work on robots
ABB_IRB8700_Product_Manual.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC052853-001&LanguageCode=en&DocumentPartId=&Action=Launch&DocumentRevisionId=D	20	1.2.3 Protective stop and emergency stop Overview The protective stops and emergency stops are described in the product manual for the controller. Product manual - IRB 8700 19 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.2.3 Protective stop and emergency stop 1.2.4 Safety risks 1.2.4.1 Safety risks during installation and service work on robots Overview This section includes information on general safety risks to be considered when performing installation and service work on the robot. These safety instructions have to be read and followed by any person who deals with the installation and maintenance of the robot. Only persons who know the robot and are trained in the operation and handling of the robot are allowed to maintain the robot. Persons who are under the influence of alcohol, drugs or any other intoxicating substances are not allowed to maintain, repair, or use the robot. General risks during installation and service • The instructions in the product manual in the chapters Installation and commissioning , and Repair must always be followed. • Emergency stop buttons must be positioned in easily accessible places so that the robot can be stopped quickly. • Those in charge of operations must make sure that safety instructions are available for the installation in question. • Those who install or service/maintain the robot must have the appropriate training for the equipment in question and in any safety matters associated with it. Spare parts and special equipment ABB does not supply spare parts and special equipment which have not been tested and approved by ABB. The installation and/or use of such products could negatively affect the structural properties of the robot and as a result of that affect the active or passive safety operation. ABB is not liable for damages caused by the use of non-original spare parts and special equipment. ABB is not liable for damages or injuries caused by unauthorized modifications to the robot system. Personal protective equipment Always use suitable personal protective equipment, based on the risk assessment for the robot installation. Nation/region specific regulations To prevent injuries and damages during the installation of the robot, the regulations applicable in the country concerned and the instructions of ABB Robotics must be complied with. Non-voltage related risks • Make sure that no one else can turn on the power to the controller and robot while you are working with the system. A good method is to always lock the main switch on the controller cabinet with a safety lock. Continues on next page 20 Product manual - IRB 8700 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.2.4.1 Safety risks during installation and service work on robots • Safety zones, which must be crossed before admittance, must be set up in front of the robot's working space. Light beams or sensitive mats are suitable devices. • Turntables or the like should be used to keep the operator out of the robot's working space. • If the robot is installed at a height, hanging, or other than standing directly on the floor, there may be additional risks than those for a robot standing directly on the floor. • The axes are affected by the force of gravity when the brakes are released. In addition to the risk of being hit by moving robot parts, there is a risk of being crushed by the parallel arm (if there is one). • Energy stored in the robot for the purpose of counterbalancing certain axes may be released if the robot, or parts thereof, are dismantled. • When dismantling/assembling mechanical units, watch out for falling objects. • Be aware of stored heat energy in the controller. • Never use the robot as a ladder, which means, do not climb on the robot motors or other parts during service work. There is a serious risk of slipping because of the high temperature of the motors and oil spills that can occur on the robot. • Never use the robot as a ladder, which means, do not climb on the manipulator motors or other parts during service work. There is a risk of the robot being damaged. To be observed by the supplier of the complete system When integrating the robot with external devices and machines: • The supplier of the complete system must ensure that all circuits used in the safety function are interlocked in accordance with the applicable standards for that function. • The supplier of the complete system must ensure that all circuits used in the emergency stop function are interlocked in a safe manner, in accordance with the applicable standards for the emergency stop function. Complete robot Description Safety risk CAUTION Motors and gearboxes are HOT after running the robot! Touching motors and gearboxes may result in burns! With a higher environment temperature, more surfaces on the manipulator will get HOT and may also result in burns. Hot components! Continues on next page Product manual - IRB 8700 21 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.2.4.1 Safety risks during installation and service work on robots Continued
ABB_IRB8700_Product_Manual.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC052853-001&LanguageCode=en&DocumentPartId=&Action=Launch&DocumentRevisionId=D	21	1.2.4 Safety risks 1.2.4.1 Safety risks during installation and service work on robots Overview This section includes information on general safety risks to be considered when performing installation and service work on the robot. These safety instructions have to be read and followed by any person who deals with the installation and maintenance of the robot. Only persons who know the robot and are trained in the operation and handling of the robot are allowed to maintain the robot. Persons who are under the influence of alcohol, drugs or any other intoxicating substances are not allowed to maintain, repair, or use the robot. General risks during installation and service • The instructions in the product manual in the chapters Installation and commissioning , and Repair must always be followed. • Emergency stop buttons must be positioned in easily accessible places so that the robot can be stopped quickly. • Those in charge of operations must make sure that safety instructions are available for the installation in question. • Those who install or service/maintain the robot must have the appropriate training for the equipment in question and in any safety matters associated with it. Spare parts and special equipment ABB does not supply spare parts and special equipment which have not been tested and approved by ABB. The installation and/or use of such products could negatively affect the structural properties of the robot and as a result of that affect the active or passive safety operation. ABB is not liable for damages caused by the use of non-original spare parts and special equipment. ABB is not liable for damages or injuries caused by unauthorized modifications to the robot system. Personal protective equipment Always use suitable personal protective equipment, based on the risk assessment for the robot installation. Nation/region specific regulations To prevent injuries and damages during the installation of the robot, the regulations applicable in the country concerned and the instructions of ABB Robotics must be complied with. Non-voltage related risks • Make sure that no one else can turn on the power to the controller and robot while you are working with the system. A good method is to always lock the main switch on the controller cabinet with a safety lock. Continues on next page 20 Product manual - IRB 8700 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.2.4.1 Safety risks during installation and service work on robots • Safety zones, which must be crossed before admittance, must be set up in front of the robot's working space. Light beams or sensitive mats are suitable devices. • Turntables or the like should be used to keep the operator out of the robot's working space. • If the robot is installed at a height, hanging, or other than standing directly on the floor, there may be additional risks than those for a robot standing directly on the floor. • The axes are affected by the force of gravity when the brakes are released. In addition to the risk of being hit by moving robot parts, there is a risk of being crushed by the parallel arm (if there is one). • Energy stored in the robot for the purpose of counterbalancing certain axes may be released if the robot, or parts thereof, are dismantled. • When dismantling/assembling mechanical units, watch out for falling objects. • Be aware of stored heat energy in the controller. • Never use the robot as a ladder, which means, do not climb on the robot motors or other parts during service work. There is a serious risk of slipping because of the high temperature of the motors and oil spills that can occur on the robot. • Never use the robot as a ladder, which means, do not climb on the manipulator motors or other parts during service work. There is a risk of the robot being damaged. To be observed by the supplier of the complete system When integrating the robot with external devices and machines: • The supplier of the complete system must ensure that all circuits used in the safety function are interlocked in accordance with the applicable standards for that function. • The supplier of the complete system must ensure that all circuits used in the emergency stop function are interlocked in a safe manner, in accordance with the applicable standards for the emergency stop function. Complete robot Description Safety risk CAUTION Motors and gearboxes are HOT after running the robot! Touching motors and gearboxes may result in burns! With a higher environment temperature, more surfaces on the manipulator will get HOT and may also result in burns. Hot components! Continues on next page Product manual - IRB 8700 21 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.2.4.1 Safety risks during installation and service work on robots Continued Description Safety risk WARNING Take any necessary measures to ensure that the robot does not collapse as parts are re- moved. For example, secure the lower arm according to the repair instruction if removing the axis-2 motor. Removed parts may result in collapse of the robot! WARNING If the internal cables for the measurement system have been disconnected during repair or maintenance, then the revolution counters must be updated. Removed cables to the measurement sys- tem Cabling Description Safety risk CAUTION The cable packages are sensitive to mechan- ical damage. Handle the cable packages and the connectors with care in order to avoid damage. Cable packages are sensitive to mechanical damage! Gearboxes and motors Description Safety risk CAUTION Whenever parting/mating motor and gearbox, the gears may be damaged if excessive force is used! Gears may be damaged if excessive force is used! Balancing device Description Safety risk WARNING Do not, under any circumstances, deal with the balancing device in any other way than that described in the product documentation! For example, attempting to open the balan- cing device is potentially lethal! Dangerous balancing device! 22 Product manual - IRB 8700 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.2.4.1 Safety risks during installation and service work on robots Continued
ABB_IRB8700_Product_Manual.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC052853-001&LanguageCode=en&DocumentPartId=&Action=Launch&DocumentRevisionId=D	22	• Safety zones, which must be crossed before admittance, must be set up in front of the robot's working space. Light beams or sensitive mats are suitable devices. • Turntables or the like should be used to keep the operator out of the robot's working space. • If the robot is installed at a height, hanging, or other than standing directly on the floor, there may be additional risks than those for a robot standing directly on the floor. • The axes are affected by the force of gravity when the brakes are released. In addition to the risk of being hit by moving robot parts, there is a risk of being crushed by the parallel arm (if there is one). • Energy stored in the robot for the purpose of counterbalancing certain axes may be released if the robot, or parts thereof, are dismantled. • When dismantling/assembling mechanical units, watch out for falling objects. • Be aware of stored heat energy in the controller. • Never use the robot as a ladder, which means, do not climb on the robot motors or other parts during service work. There is a serious risk of slipping because of the high temperature of the motors and oil spills that can occur on the robot. • Never use the robot as a ladder, which means, do not climb on the manipulator motors or other parts during service work. There is a risk of the robot being damaged. To be observed by the supplier of the complete system When integrating the robot with external devices and machines: • The supplier of the complete system must ensure that all circuits used in the safety function are interlocked in accordance with the applicable standards for that function. • The supplier of the complete system must ensure that all circuits used in the emergency stop function are interlocked in a safe manner, in accordance with the applicable standards for the emergency stop function. Complete robot Description Safety risk CAUTION Motors and gearboxes are HOT after running the robot! Touching motors and gearboxes may result in burns! With a higher environment temperature, more surfaces on the manipulator will get HOT and may also result in burns. Hot components! Continues on next page Product manual - IRB 8700 21 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.2.4.1 Safety risks during installation and service work on robots Continued Description Safety risk WARNING Take any necessary measures to ensure that the robot does not collapse as parts are re- moved. For example, secure the lower arm according to the repair instruction if removing the axis-2 motor. Removed parts may result in collapse of the robot! WARNING If the internal cables for the measurement system have been disconnected during repair or maintenance, then the revolution counters must be updated. Removed cables to the measurement sys- tem Cabling Description Safety risk CAUTION The cable packages are sensitive to mechan- ical damage. Handle the cable packages and the connectors with care in order to avoid damage. Cable packages are sensitive to mechanical damage! Gearboxes and motors Description Safety risk CAUTION Whenever parting/mating motor and gearbox, the gears may be damaged if excessive force is used! Gears may be damaged if excessive force is used! Balancing device Description Safety risk WARNING Do not, under any circumstances, deal with the balancing device in any other way than that described in the product documentation! For example, attempting to open the balan- cing device is potentially lethal! Dangerous balancing device! 22 Product manual - IRB 8700 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.2.4.1 Safety risks during installation and service work on robots Continued 1.2.4.2 CAUTION - Hot parts may cause burns! Description During normal operation, many robot parts become hot, especially the drive motors and gearboxes. Sometimes areas around these parts also become hot. Touching these may cause burns of various severity. Because of a higher environment temperature, more surfaces on the robot get hot and may result in burns. Elimination The following instructions describe how to avoid the dangers specified above: Information Action Always use your hand, at some distance, to feel if heat is radiating from the potentially hot component before actually touching it. 1 Wait until the potentially hot component has cooled if it is to be removed or handled in any other way. 2 Product manual - IRB 8700 23 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.2.4.2 CAUTION - Hot parts may cause burns!
ABB_IRB8700_Product_Manual.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC052853-001&LanguageCode=en&DocumentPartId=&Action=Launch&DocumentRevisionId=D	23	Description Safety risk WARNING Take any necessary measures to ensure that the robot does not collapse as parts are re- moved. For example, secure the lower arm according to the repair instruction if removing the axis-2 motor. Removed parts may result in collapse of the robot! WARNING If the internal cables for the measurement system have been disconnected during repair or maintenance, then the revolution counters must be updated. Removed cables to the measurement sys- tem Cabling Description Safety risk CAUTION The cable packages are sensitive to mechan- ical damage. Handle the cable packages and the connectors with care in order to avoid damage. Cable packages are sensitive to mechanical damage! Gearboxes and motors Description Safety risk CAUTION Whenever parting/mating motor and gearbox, the gears may be damaged if excessive force is used! Gears may be damaged if excessive force is used! Balancing device Description Safety risk WARNING Do not, under any circumstances, deal with the balancing device in any other way than that described in the product documentation! For example, attempting to open the balan- cing device is potentially lethal! Dangerous balancing device! 22 Product manual - IRB 8700 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.2.4.1 Safety risks during installation and service work on robots Continued 1.2.4.2 CAUTION - Hot parts may cause burns! Description During normal operation, many robot parts become hot, especially the drive motors and gearboxes. Sometimes areas around these parts also become hot. Touching these may cause burns of various severity. Because of a higher environment temperature, more surfaces on the robot get hot and may result in burns. Elimination The following instructions describe how to avoid the dangers specified above: Information Action Always use your hand, at some distance, to feel if heat is radiating from the potentially hot component before actually touching it. 1 Wait until the potentially hot component has cooled if it is to be removed or handled in any other way. 2 Product manual - IRB 8700 23 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.2.4.2 CAUTION - Hot parts may cause burns! 1.2.4.3 Safety risks related to tools/work pieces Safe handling It must be possible to safely turn off tools, such as milling cutters, etc. Make sure that guards remain closed until the cutters stop rotating. It should be possible to release parts by manual operation (valves). Safe design Grippers/end effectors must be designed so that they retain work pieces in the event of a power failure or a disturbance to the controller. Unauthorized modifications of the originally delivered robot are prohibited. Without the consent of ABB it is forbidden to attach additional parts through welding, riveting, or drilling of new holes into the castings. The strength could be affected. CAUTION Ensure that a gripper is prevented from dropping a work piece, if such is used. 24 Product manual - IRB 8700 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.2.4.3 Safety risks related to tools/work pieces
ABB_IRB8700_Product_Manual.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC052853-001&LanguageCode=en&DocumentPartId=&Action=Launch&DocumentRevisionId=D	24	1.2.4.2 CAUTION - Hot parts may cause burns! Description During normal operation, many robot parts become hot, especially the drive motors and gearboxes. Sometimes areas around these parts also become hot. Touching these may cause burns of various severity. Because of a higher environment temperature, more surfaces on the robot get hot and may result in burns. Elimination The following instructions describe how to avoid the dangers specified above: Information Action Always use your hand, at some distance, to feel if heat is radiating from the potentially hot component before actually touching it. 1 Wait until the potentially hot component has cooled if it is to be removed or handled in any other way. 2 Product manual - IRB 8700 23 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.2.4.2 CAUTION - Hot parts may cause burns! 1.2.4.3 Safety risks related to tools/work pieces Safe handling It must be possible to safely turn off tools, such as milling cutters, etc. Make sure that guards remain closed until the cutters stop rotating. It should be possible to release parts by manual operation (valves). Safe design Grippers/end effectors must be designed so that they retain work pieces in the event of a power failure or a disturbance to the controller. Unauthorized modifications of the originally delivered robot are prohibited. Without the consent of ABB it is forbidden to attach additional parts through welding, riveting, or drilling of new holes into the castings. The strength could be affected. CAUTION Ensure that a gripper is prevented from dropping a work piece, if such is used. 24 Product manual - IRB 8700 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.2.4.3 Safety risks related to tools/work pieces 1.2.4.4 Safety risks related to pneumatic/hydraulic systems General Special safety regulations apply to pneumatic and hydraulic systems. Note All components that remain pressurized after separating the machine from the power supply must be provided with clearly visible drain facilities and a warning sign that indicates the need for pressure relief before adjustments or performing any maintenance on the robot system. Residual energy • Residual energy can be present in these systems. After shutdown, particular care must be taken. • The pressure must be released in the complete pneumatic or hydraulic systems before starting to repair them. • Work on hydraulic equipment may only be performed by persons with special knowledge and experience of hydraulics. • All pipes, hoses, and connections have to be inspected regularly for leaks and damage. Damage must be repaired immediately. • Splashed oil may cause injury or fire. Safe design • Gravity may cause any parts or objects held by these systems to drop. • Dump valves should be used in case of emergency. • Shot bolts should be used to prevent tools, etc., from falling due to gravity. Product manual - IRB 8700 25 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.2.4.4 Safety risks related to pneumatic/hydraulic systems
ABB_IRB8700_Product_Manual.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC052853-001&LanguageCode=en&DocumentPartId=&Action=Launch&DocumentRevisionId=D	25	1.2.4.3 Safety risks related to tools/work pieces Safe handling It must be possible to safely turn off tools, such as milling cutters, etc. Make sure that guards remain closed until the cutters stop rotating. It should be possible to release parts by manual operation (valves). Safe design Grippers/end effectors must be designed so that they retain work pieces in the event of a power failure or a disturbance to the controller. Unauthorized modifications of the originally delivered robot are prohibited. Without the consent of ABB it is forbidden to attach additional parts through welding, riveting, or drilling of new holes into the castings. The strength could be affected. CAUTION Ensure that a gripper is prevented from dropping a work piece, if such is used. 24 Product manual - IRB 8700 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.2.4.3 Safety risks related to tools/work pieces 1.2.4.4 Safety risks related to pneumatic/hydraulic systems General Special safety regulations apply to pneumatic and hydraulic systems. Note All components that remain pressurized after separating the machine from the power supply must be provided with clearly visible drain facilities and a warning sign that indicates the need for pressure relief before adjustments or performing any maintenance on the robot system. Residual energy • Residual energy can be present in these systems. After shutdown, particular care must be taken. • The pressure must be released in the complete pneumatic or hydraulic systems before starting to repair them. • Work on hydraulic equipment may only be performed by persons with special knowledge and experience of hydraulics. • All pipes, hoses, and connections have to be inspected regularly for leaks and damage. Damage must be repaired immediately. • Splashed oil may cause injury or fire. Safe design • Gravity may cause any parts or objects held by these systems to drop. • Dump valves should be used in case of emergency. • Shot bolts should be used to prevent tools, etc., from falling due to gravity. Product manual - IRB 8700 25 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.2.4.4 Safety risks related to pneumatic/hydraulic systems 1.2.4.5 Safety risks during operational disturbances General • The industrial robot is a flexible tool that can be used in many different industrial applications. • All work must be carried out professionally and in accordance with the applicable safety regulations. • Care must be taken at all times. Qualified personnel Corrective maintenance must only be carried out by qualified personnel who are familiar with the entire installation as well as the special risks associated with its different parts. Extraordinary risks If the working process is interrupted, extra care must be taken due to risks other than those associated with regular operation. Such an interruption may have to be rectified manually. 26 Product manual - IRB 8700 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.2.4.5 Safety risks during operational disturbances
ABB_IRB8700_Product_Manual.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC052853-001&LanguageCode=en&DocumentPartId=&Action=Launch&DocumentRevisionId=D	26	1.2.4.4 Safety risks related to pneumatic/hydraulic systems General Special safety regulations apply to pneumatic and hydraulic systems. Note All components that remain pressurized after separating the machine from the power supply must be provided with clearly visible drain facilities and a warning sign that indicates the need for pressure relief before adjustments or performing any maintenance on the robot system. Residual energy • Residual energy can be present in these systems. After shutdown, particular care must be taken. • The pressure must be released in the complete pneumatic or hydraulic systems before starting to repair them. • Work on hydraulic equipment may only be performed by persons with special knowledge and experience of hydraulics. • All pipes, hoses, and connections have to be inspected regularly for leaks and damage. Damage must be repaired immediately. • Splashed oil may cause injury or fire. Safe design • Gravity may cause any parts or objects held by these systems to drop. • Dump valves should be used in case of emergency. • Shot bolts should be used to prevent tools, etc., from falling due to gravity. Product manual - IRB 8700 25 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.2.4.4 Safety risks related to pneumatic/hydraulic systems 1.2.4.5 Safety risks during operational disturbances General • The industrial robot is a flexible tool that can be used in many different industrial applications. • All work must be carried out professionally and in accordance with the applicable safety regulations. • Care must be taken at all times. Qualified personnel Corrective maintenance must only be carried out by qualified personnel who are familiar with the entire installation as well as the special risks associated with its different parts. Extraordinary risks If the working process is interrupted, extra care must be taken due to risks other than those associated with regular operation. Such an interruption may have to be rectified manually. 26 Product manual - IRB 8700 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.2.4.5 Safety risks during operational disturbances 1.2.4.6 Risks associated with live electric parts Voltage related risks, general Work on the electrical equipment of the robot must be performed by a qualified electrician in accordance with electrical regulations. • Although troubleshooting may, on occasion, need to be carried out while the power supply is turned on, the robot must be turned off (by setting the main switch to OFF) when repairing faults, disconnecting electric leads and disconnecting or connecting units. • The main supply to the robot must be connected in such a way that it can be turned off from outside the working space of the robot. • Make sure that no one else can turn on the power to the controller and robot while you are working with the system. A good method is to always lock the main switch on the controller cabinet with a safety lock. The necessary protection for the electrical equipment and robot system during construction, commissioning, and maintenance is guaranteed if the valid regulations are followed. All work must be performed: • by qualified personnel • on machine/robot system in deadlock • in an isolated state, disconnected from power supply, and protected against reconnection. Voltage related risks, IRC5 controller A danger of high voltage is associated with, for example, the following parts: • Be aware of stored electrical energy (DC link, Ultracapacitor bank unit) in the controller. • Units such as I/O modules, can be supplied with power from an external source. • The main supply/main switch • The transformers • The power unit • The control power supply (230 VAC) • The rectifier unit (262/400-480 VAC and 400/700 VDC. Note: capacitors!) • The drive unit (400/700 VDC) • The drive system power supply (230 VAC) • The service outlets (115/230 VAC) • The customer power supply (230 VAC) • The power supply unit for additional tools, or special power supply units for the machining process. • The external voltage connected to the controller remains live even when the robot is disconnected from the mains. • Additional connections. Continues on next page Product manual - IRB 8700 27 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.2.4.6 Risks associated with live electric parts
ABB_IRB8700_Product_Manual.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC052853-001&LanguageCode=en&DocumentPartId=&Action=Launch&DocumentRevisionId=D	27	1.2.4.5 Safety risks during operational disturbances General • The industrial robot is a flexible tool that can be used in many different industrial applications. • All work must be carried out professionally and in accordance with the applicable safety regulations. • Care must be taken at all times. Qualified personnel Corrective maintenance must only be carried out by qualified personnel who are familiar with the entire installation as well as the special risks associated with its different parts. Extraordinary risks If the working process is interrupted, extra care must be taken due to risks other than those associated with regular operation. Such an interruption may have to be rectified manually. 26 Product manual - IRB 8700 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.2.4.5 Safety risks during operational disturbances 1.2.4.6 Risks associated with live electric parts Voltage related risks, general Work on the electrical equipment of the robot must be performed by a qualified electrician in accordance with electrical regulations. • Although troubleshooting may, on occasion, need to be carried out while the power supply is turned on, the robot must be turned off (by setting the main switch to OFF) when repairing faults, disconnecting electric leads and disconnecting or connecting units. • The main supply to the robot must be connected in such a way that it can be turned off from outside the working space of the robot. • Make sure that no one else can turn on the power to the controller and robot while you are working with the system. A good method is to always lock the main switch on the controller cabinet with a safety lock. The necessary protection for the electrical equipment and robot system during construction, commissioning, and maintenance is guaranteed if the valid regulations are followed. All work must be performed: • by qualified personnel • on machine/robot system in deadlock • in an isolated state, disconnected from power supply, and protected against reconnection. Voltage related risks, IRC5 controller A danger of high voltage is associated with, for example, the following parts: • Be aware of stored electrical energy (DC link, Ultracapacitor bank unit) in the controller. • Units such as I/O modules, can be supplied with power from an external source. • The main supply/main switch • The transformers • The power unit • The control power supply (230 VAC) • The rectifier unit (262/400-480 VAC and 400/700 VDC. Note: capacitors!) • The drive unit (400/700 VDC) • The drive system power supply (230 VAC) • The service outlets (115/230 VAC) • The customer power supply (230 VAC) • The power supply unit for additional tools, or special power supply units for the machining process. • The external voltage connected to the controller remains live even when the robot is disconnected from the mains. • Additional connections. Continues on next page Product manual - IRB 8700 27 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.2.4.6 Risks associated with live electric parts Voltage related risks, robot A danger of high voltage is associated with the robot in: • The power supply for the motors (up to 800 VDC). • The user connections for tools or other parts of the installation (max. 230 VAC). Voltage related risks, tools, material handling devices, etc. Tools, material handling devices, etc., may be live even if the robot system is in the OFF position. Power supply cables which are in motion during the working process may be damaged. 28 Product manual - IRB 8700 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.2.4.6 Risks associated with live electric parts Continued
ABB_IRB8700_Product_Manual.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC052853-001&LanguageCode=en&DocumentPartId=&Action=Launch&DocumentRevisionId=D	28	1.2.4.6 Risks associated with live electric parts Voltage related risks, general Work on the electrical equipment of the robot must be performed by a qualified electrician in accordance with electrical regulations. • Although troubleshooting may, on occasion, need to be carried out while the power supply is turned on, the robot must be turned off (by setting the main switch to OFF) when repairing faults, disconnecting electric leads and disconnecting or connecting units. • The main supply to the robot must be connected in such a way that it can be turned off from outside the working space of the robot. • Make sure that no one else can turn on the power to the controller and robot while you are working with the system. A good method is to always lock the main switch on the controller cabinet with a safety lock. The necessary protection for the electrical equipment and robot system during construction, commissioning, and maintenance is guaranteed if the valid regulations are followed. All work must be performed: • by qualified personnel • on machine/robot system in deadlock • in an isolated state, disconnected from power supply, and protected against reconnection. Voltage related risks, IRC5 controller A danger of high voltage is associated with, for example, the following parts: • Be aware of stored electrical energy (DC link, Ultracapacitor bank unit) in the controller. • Units such as I/O modules, can be supplied with power from an external source. • The main supply/main switch • The transformers • The power unit • The control power supply (230 VAC) • The rectifier unit (262/400-480 VAC and 400/700 VDC. Note: capacitors!) • The drive unit (400/700 VDC) • The drive system power supply (230 VAC) • The service outlets (115/230 VAC) • The customer power supply (230 VAC) • The power supply unit for additional tools, or special power supply units for the machining process. • The external voltage connected to the controller remains live even when the robot is disconnected from the mains. • Additional connections. Continues on next page Product manual - IRB 8700 27 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.2.4.6 Risks associated with live electric parts Voltage related risks, robot A danger of high voltage is associated with the robot in: • The power supply for the motors (up to 800 VDC). • The user connections for tools or other parts of the installation (max. 230 VAC). Voltage related risks, tools, material handling devices, etc. Tools, material handling devices, etc., may be live even if the robot system is in the OFF position. Power supply cables which are in motion during the working process may be damaged. 28 Product manual - IRB 8700 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.2.4.6 Risks associated with live electric parts Continued 1.2.5 Safety actions 1.2.5.1 Safety fence dimensions General Install a safety cell around the robot to ensure safe robot installation and operation. Dimensioning The fence or enclosure must be dimensioned to withstand the force created if the load being handled by the robot is dropped or released at maximum speed. Determine the maximum speed from the maximum velocities of the robot axes and from the position at which the robot is working in the work cell (see the section Robot motion in the Product specification ). Also consider the maximum possible impact caused by a breaking or malfunctioning rotating tool or other device fitted to the robot. Product manual - IRB 8700 29 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.2.5.1 Safety fence dimensions
ABB_IRB8700_Product_Manual.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC052853-001&LanguageCode=en&DocumentPartId=&Action=Launch&DocumentRevisionId=D	29	Voltage related risks, robot A danger of high voltage is associated with the robot in: • The power supply for the motors (up to 800 VDC). • The user connections for tools or other parts of the installation (max. 230 VAC). Voltage related risks, tools, material handling devices, etc. Tools, material handling devices, etc., may be live even if the robot system is in the OFF position. Power supply cables which are in motion during the working process may be damaged. 28 Product manual - IRB 8700 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.2.4.6 Risks associated with live electric parts Continued 1.2.5 Safety actions 1.2.5.1 Safety fence dimensions General Install a safety cell around the robot to ensure safe robot installation and operation. Dimensioning The fence or enclosure must be dimensioned to withstand the force created if the load being handled by the robot is dropped or released at maximum speed. Determine the maximum speed from the maximum velocities of the robot axes and from the position at which the robot is working in the work cell (see the section Robot motion in the Product specification ). Also consider the maximum possible impact caused by a breaking or malfunctioning rotating tool or other device fitted to the robot. Product manual - IRB 8700 29 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.2.5.1 Safety fence dimensions 1.2.5.2 Fire extinguishing Note Use a CARBON DIOXIDE (CO 2 ) extinguisher in the event of a fire in the robot or controller! 30 Product manual - IRB 8700 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.2.5.2 Fire extinguishing
ABB_IRB8700_Product_Manual.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC052853-001&LanguageCode=en&DocumentPartId=&Action=Launch&DocumentRevisionId=D	30	1.2.5 Safety actions 1.2.5.1 Safety fence dimensions General Install a safety cell around the robot to ensure safe robot installation and operation. Dimensioning The fence or enclosure must be dimensioned to withstand the force created if the load being handled by the robot is dropped or released at maximum speed. Determine the maximum speed from the maximum velocities of the robot axes and from the position at which the robot is working in the work cell (see the section Robot motion in the Product specification ). Also consider the maximum possible impact caused by a breaking or malfunctioning rotating tool or other device fitted to the robot. Product manual - IRB 8700 29 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.2.5.1 Safety fence dimensions 1.2.5.2 Fire extinguishing Note Use a CARBON DIOXIDE (CO 2 ) extinguisher in the event of a fire in the robot or controller! 30 Product manual - IRB 8700 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.2.5.2 Fire extinguishing 1.2.5.3 Emergency release of the robot arm Description In an emergency situation, the brakes on a robot axis can be released manually by pushing a brake release button. How to release the brakes is detailed in the section: • Manually releasing the brakes on page 85 . The robot arm may be moved manually on smaller robot models, but larger models may require using an overhead crane or similar equipment. Increased injury Before releasing the brakes, make sure that the weight of the arms does not increase the pressure on the trapped person, further increasing any injury! DANGER When releasing the holding brakes, the robot axes may move very quickly and sometimes in unexpected ways. Make sure no personnel is near or beneath the robot arm. Product manual - IRB 8700 31 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.2.5.3 Emergency release of the robot arm
ABB_IRB8700_Product_Manual.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC052853-001&LanguageCode=en&DocumentPartId=&Action=Launch&DocumentRevisionId=D	31	1.2.5.2 Fire extinguishing Note Use a CARBON DIOXIDE (CO 2 ) extinguisher in the event of a fire in the robot or controller! 30 Product manual - IRB 8700 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.2.5.2 Fire extinguishing 1.2.5.3 Emergency release of the robot arm Description In an emergency situation, the brakes on a robot axis can be released manually by pushing a brake release button. How to release the brakes is detailed in the section: • Manually releasing the brakes on page 85 . The robot arm may be moved manually on smaller robot models, but larger models may require using an overhead crane or similar equipment. Increased injury Before releasing the brakes, make sure that the weight of the arms does not increase the pressure on the trapped person, further increasing any injury! DANGER When releasing the holding brakes, the robot axes may move very quickly and sometimes in unexpected ways. Make sure no personnel is near or beneath the robot arm. Product manual - IRB 8700 31 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.2.5.3 Emergency release of the robot arm 1.2.5.4 Brake testing When to test During operation, the holding brake of each axis normally wears down. A test can be performed to determine whether the brake can still perform its function. How to test The function of the holding brake of each axis motor may be verified as described below: 1 Run each robot axis to a position where the combined weight of the robot arm and any load is maximized (maximum static load). 2 Switch the motor to the MOTORS OFF. 3 Inspect and verify that the axis maintains its position. If the robot does not change position as the motors are switched off, then the brake function is adequate. 32 Product manual - IRB 8700 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.2.5.4 Brake testing
ABB_IRB8700_Product_Manual.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC052853-001&LanguageCode=en&DocumentPartId=&Action=Launch&DocumentRevisionId=D	32	1.2.5.3 Emergency release of the robot arm Description In an emergency situation, the brakes on a robot axis can be released manually by pushing a brake release button. How to release the brakes is detailed in the section: • Manually releasing the brakes on page 85 . The robot arm may be moved manually on smaller robot models, but larger models may require using an overhead crane or similar equipment. Increased injury Before releasing the brakes, make sure that the weight of the arms does not increase the pressure on the trapped person, further increasing any injury! DANGER When releasing the holding brakes, the robot axes may move very quickly and sometimes in unexpected ways. Make sure no personnel is near or beneath the robot arm. Product manual - IRB 8700 31 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.2.5.3 Emergency release of the robot arm 1.2.5.4 Brake testing When to test During operation, the holding brake of each axis normally wears down. A test can be performed to determine whether the brake can still perform its function. How to test The function of the holding brake of each axis motor may be verified as described below: 1 Run each robot axis to a position where the combined weight of the robot arm and any load is maximized (maximum static load). 2 Switch the motor to the MOTORS OFF. 3 Inspect and verify that the axis maintains its position. If the robot does not change position as the motors are switched off, then the brake function is adequate. 32 Product manual - IRB 8700 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.2.5.4 Brake testing 1.2.5.5 Risk of disabling function "Reduced speed 250 mm/s" Note Do not change Transm gear ratio or other kinematic system parameters from the FlexPendant or a PC. This will affect the safety function "Reduced speed 250 mm/s". Product manual - IRB 8700 33 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.2.5.5 Risk of disabling function "Reduced speed 250 mm/s"
ABB_IRB8700_Product_Manual.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC052853-001&LanguageCode=en&DocumentPartId=&Action=Launch&DocumentRevisionId=D	33	1.2.5.4 Brake testing When to test During operation, the holding brake of each axis normally wears down. A test can be performed to determine whether the brake can still perform its function. How to test The function of the holding brake of each axis motor may be verified as described below: 1 Run each robot axis to a position where the combined weight of the robot arm and any load is maximized (maximum static load). 2 Switch the motor to the MOTORS OFF. 3 Inspect and verify that the axis maintains its position. If the robot does not change position as the motors are switched off, then the brake function is adequate. 32 Product manual - IRB 8700 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.2.5.4 Brake testing 1.2.5.5 Risk of disabling function "Reduced speed 250 mm/s" Note Do not change Transm gear ratio or other kinematic system parameters from the FlexPendant or a PC. This will affect the safety function "Reduced speed 250 mm/s". Product manual - IRB 8700 33 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.2.5.5 Risk of disabling function "Reduced speed 250 mm/s" 1.2.5.6 Safe use of the jogging device Three-position enabling device The three-position enabling device is a manually operated, constant pressure push-button which, when continuously activated in one position only, allows potentially hazardous functions but does not initiate them. In any other position, hazardous functions are stopped safely. The three-position enabling device is of a specific type where you must press the push-button only half-way to activate it. In the fully in and fully out positions, operating the robot is impossible. Note The three-position enabling device is a push-button located on the jogging device which, when pressed halfway in, switches the system to MOTORS ON. When the enabling device is released or pushed all the way in, the manipulator switches to the MOTORS OFF state. To ensure safe use of the jogging device, the following must be implemented: • The enabling device must never be rendered inoperational in any way. • During programming and testing, the enabling device must be released as soon as there is no need for the robot to move. • Anyone entering the working space of the robot must always bring the jogging device with him/her. This is to prevent anyone else from taking control of the robot without his/her knowledge. Hold-to-run function The hold-to-run function allows movement when a button connected to the function is actuated manually and immediately stops any movement when released. The hold-to-run function can only be used in manual mode. How to operate the hold-to-run function for IRC5 is described in Operating manual - IRC5 with FlexPendant . 34 Product manual - IRB 8700 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.2.5.6 Safe use of the jogging device
ABB_IRB8700_Product_Manual.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC052853-001&LanguageCode=en&DocumentPartId=&Action=Launch&DocumentRevisionId=D	34	1.2.5.5 Risk of disabling function "Reduced speed 250 mm/s" Note Do not change Transm gear ratio or other kinematic system parameters from the FlexPendant or a PC. This will affect the safety function "Reduced speed 250 mm/s". Product manual - IRB 8700 33 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.2.5.5 Risk of disabling function "Reduced speed 250 mm/s" 1.2.5.6 Safe use of the jogging device Three-position enabling device The three-position enabling device is a manually operated, constant pressure push-button which, when continuously activated in one position only, allows potentially hazardous functions but does not initiate them. In any other position, hazardous functions are stopped safely. The three-position enabling device is of a specific type where you must press the push-button only half-way to activate it. In the fully in and fully out positions, operating the robot is impossible. Note The three-position enabling device is a push-button located on the jogging device which, when pressed halfway in, switches the system to MOTORS ON. When the enabling device is released or pushed all the way in, the manipulator switches to the MOTORS OFF state. To ensure safe use of the jogging device, the following must be implemented: • The enabling device must never be rendered inoperational in any way. • During programming and testing, the enabling device must be released as soon as there is no need for the robot to move. • Anyone entering the working space of the robot must always bring the jogging device with him/her. This is to prevent anyone else from taking control of the robot without his/her knowledge. Hold-to-run function The hold-to-run function allows movement when a button connected to the function is actuated manually and immediately stops any movement when released. The hold-to-run function can only be used in manual mode. How to operate the hold-to-run function for IRC5 is described in Operating manual - IRC5 with FlexPendant . 34 Product manual - IRB 8700 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.2.5.6 Safe use of the jogging device 1.2.5.7 Work inside the working range of the robot WARNING If work must be carried out within the work area of the robot, then the following points must be observed: • The operating mode selector on the controller must be in the manual mode position to render the three-position enabling device operational and to block operation from a computer link or remote control panel. • The maximum speed of the robot is limited to 250 mm/s when the operating mode selector is in the position Manual mode with reduced speed . This should be the normal position when entering the working space. The position Manual mode with full speed (100%) may only be used by trained personnel who are aware of the risks that this entails. Manual mode with full speed (100%) is not available in USA or Canada. • Pay attention to the rotating axes of the robot. Keep away from axes to not get entangled with hair or clothing. Also, be aware of any danger that may be caused by rotating tools or other devices mounted on the robot or inside the cell. • Test the motor brake on each axis, according to the section Brake testing on page 32 . • To prevent anyone else from taking control of the robot, always put a safety lock on the cell door and bring the three-position enabling device with you when entering the working space. WARNING NEVER , under any circumstances, stay beneath any of the robot's axes! There is always a risk that the robot will move unexpectedly when robot axes are moved using the three-position enabling device or during other work inside the working range of the robot. Product manual - IRB 8700 35 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.2.5.7 Work inside the working range of the robot
ABB_IRB8700_Product_Manual.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC052853-001&LanguageCode=en&DocumentPartId=&Action=Launch&DocumentRevisionId=D	35	1.2.5.6 Safe use of the jogging device Three-position enabling device The three-position enabling device is a manually operated, constant pressure push-button which, when continuously activated in one position only, allows potentially hazardous functions but does not initiate them. In any other position, hazardous functions are stopped safely. The three-position enabling device is of a specific type where you must press the push-button only half-way to activate it. In the fully in and fully out positions, operating the robot is impossible. Note The three-position enabling device is a push-button located on the jogging device which, when pressed halfway in, switches the system to MOTORS ON. When the enabling device is released or pushed all the way in, the manipulator switches to the MOTORS OFF state. To ensure safe use of the jogging device, the following must be implemented: • The enabling device must never be rendered inoperational in any way. • During programming and testing, the enabling device must be released as soon as there is no need for the robot to move. • Anyone entering the working space of the robot must always bring the jogging device with him/her. This is to prevent anyone else from taking control of the robot without his/her knowledge. Hold-to-run function The hold-to-run function allows movement when a button connected to the function is actuated manually and immediately stops any movement when released. The hold-to-run function can only be used in manual mode. How to operate the hold-to-run function for IRC5 is described in Operating manual - IRC5 with FlexPendant . 34 Product manual - IRB 8700 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.2.5.6 Safe use of the jogging device 1.2.5.7 Work inside the working range of the robot WARNING If work must be carried out within the work area of the robot, then the following points must be observed: • The operating mode selector on the controller must be in the manual mode position to render the three-position enabling device operational and to block operation from a computer link or remote control panel. • The maximum speed of the robot is limited to 250 mm/s when the operating mode selector is in the position Manual mode with reduced speed . This should be the normal position when entering the working space. The position Manual mode with full speed (100%) may only be used by trained personnel who are aware of the risks that this entails. Manual mode with full speed (100%) is not available in USA or Canada. • Pay attention to the rotating axes of the robot. Keep away from axes to not get entangled with hair or clothing. Also, be aware of any danger that may be caused by rotating tools or other devices mounted on the robot or inside the cell. • Test the motor brake on each axis, according to the section Brake testing on page 32 . • To prevent anyone else from taking control of the robot, always put a safety lock on the cell door and bring the three-position enabling device with you when entering the working space. WARNING NEVER , under any circumstances, stay beneath any of the robot's axes! There is always a risk that the robot will move unexpectedly when robot axes are moved using the three-position enabling device or during other work inside the working range of the robot. Product manual - IRB 8700 35 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.2.5.7 Work inside the working range of the robot 1.2.5.8 Signal lamp (optional) Description A signal lamp with a yellow fixed light can be mounted on the robot, as a safety device. Function The lamp is active in MOTORS ON mode. Further information Further information about the MOTORS ON/MOTORS OFF mode may be found in the product manual for the controller. 36 Product manual - IRB 8700 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.2.5.8 Signal lamp (optional)
ABB_IRB8700_Product_Manual.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC052853-001&LanguageCode=en&DocumentPartId=&Action=Launch&DocumentRevisionId=D	36	1.2.5.7 Work inside the working range of the robot WARNING If work must be carried out within the work area of the robot, then the following points must be observed: • The operating mode selector on the controller must be in the manual mode position to render the three-position enabling device operational and to block operation from a computer link or remote control panel. • The maximum speed of the robot is limited to 250 mm/s when the operating mode selector is in the position Manual mode with reduced speed . This should be the normal position when entering the working space. The position Manual mode with full speed (100%) may only be used by trained personnel who are aware of the risks that this entails. Manual mode with full speed (100%) is not available in USA or Canada. • Pay attention to the rotating axes of the robot. Keep away from axes to not get entangled with hair or clothing. Also, be aware of any danger that may be caused by rotating tools or other devices mounted on the robot or inside the cell. • Test the motor brake on each axis, according to the section Brake testing on page 32 . • To prevent anyone else from taking control of the robot, always put a safety lock on the cell door and bring the three-position enabling device with you when entering the working space. WARNING NEVER , under any circumstances, stay beneath any of the robot's axes! There is always a risk that the robot will move unexpectedly when robot axes are moved using the three-position enabling device or during other work inside the working range of the robot. Product manual - IRB 8700 35 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.2.5.7 Work inside the working range of the robot 1.2.5.8 Signal lamp (optional) Description A signal lamp with a yellow fixed light can be mounted on the robot, as a safety device. Function The lamp is active in MOTORS ON mode. Further information Further information about the MOTORS ON/MOTORS OFF mode may be found in the product manual for the controller. 36 Product manual - IRB 8700 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.2.5.8 Signal lamp (optional) 1.3 Safety signals and symbols 1.3.1 Safety signals in the manual Introduction to safety signals This section specifies all dangers that can arise when doing the work described in the user manuals. Each danger consists of: • A caption specifying the danger level (DANGER, WARNING, or CAUTION) and the type of danger. • A brief description of what will happen if the operator/service personnel do not eliminate the danger. • Instruction about how to eliminate danger to simplify doing the work. Danger levels The table below defines the captions specifying the danger levels used throughout this manual. Significance Designation Symbol Warns that an accident will occur if the instructions are not followed, resulting in a serious or fatal injury and/or severe damage to the product. It applies to warnings that apply to danger with, for example, contact with high voltage electrical units, explosion or fire risk, risk of poisonous gases, risk of crushing, impact, fall from height, and so on. DANGER xx0200000022 Warns that an accident may occur if the instructions are not followed that can lead to serious injury, pos- sibly fatal, and/or great damage to the product. It applies to warnings that apply to danger with, for example, contact with high voltage electrical units, explosion or fire risk, risk of poisonous gases, risk of crushing, impact, fall from height, etc. WARNING xx0100000002 Warns for electrical hazards which could result in severe personal injury or death. ELECTRICAL SHOCK xx0200000024 Warns that an accident may occur if the instructions are not followed that can result in injury and/or damage to the product. It also applies to warnings of risks that include burns, eye injury, skin injury, hearing damage, crushing or slipping, tripping, im- pact, fall from height, etc. Furthermore, it applies to warnings that include function requirements when fitting and removing equipment where there is a risk of damaging the product or causing a breakdown. CAUTION xx0100000003 Warns for electrostatic hazards which could result in severe damage to the product. ELECTROSTATIC DISCHARGE (ESD) xx0200000023 Continues on next page Product manual - IRB 8700 37 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.3.1 Safety signals in the manual
ABB_IRB8700_Product_Manual.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC052853-001&LanguageCode=en&DocumentPartId=&Action=Launch&DocumentRevisionId=D	37	1.2.5.8 Signal lamp (optional) Description A signal lamp with a yellow fixed light can be mounted on the robot, as a safety device. Function The lamp is active in MOTORS ON mode. Further information Further information about the MOTORS ON/MOTORS OFF mode may be found in the product manual for the controller. 36 Product manual - IRB 8700 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.2.5.8 Signal lamp (optional) 1.3 Safety signals and symbols 1.3.1 Safety signals in the manual Introduction to safety signals This section specifies all dangers that can arise when doing the work described in the user manuals. Each danger consists of: • A caption specifying the danger level (DANGER, WARNING, or CAUTION) and the type of danger. • A brief description of what will happen if the operator/service personnel do not eliminate the danger. • Instruction about how to eliminate danger to simplify doing the work. Danger levels The table below defines the captions specifying the danger levels used throughout this manual. Significance Designation Symbol Warns that an accident will occur if the instructions are not followed, resulting in a serious or fatal injury and/or severe damage to the product. It applies to warnings that apply to danger with, for example, contact with high voltage electrical units, explosion or fire risk, risk of poisonous gases, risk of crushing, impact, fall from height, and so on. DANGER xx0200000022 Warns that an accident may occur if the instructions are not followed that can lead to serious injury, pos- sibly fatal, and/or great damage to the product. It applies to warnings that apply to danger with, for example, contact with high voltage electrical units, explosion or fire risk, risk of poisonous gases, risk of crushing, impact, fall from height, etc. WARNING xx0100000002 Warns for electrical hazards which could result in severe personal injury or death. ELECTRICAL SHOCK xx0200000024 Warns that an accident may occur if the instructions are not followed that can result in injury and/or damage to the product. It also applies to warnings of risks that include burns, eye injury, skin injury, hearing damage, crushing or slipping, tripping, im- pact, fall from height, etc. Furthermore, it applies to warnings that include function requirements when fitting and removing equipment where there is a risk of damaging the product or causing a breakdown. CAUTION xx0100000003 Warns for electrostatic hazards which could result in severe damage to the product. ELECTROSTATIC DISCHARGE (ESD) xx0200000023 Continues on next page Product manual - IRB 8700 37 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.3.1 Safety signals in the manual Significance Designation Symbol Describes important facts and conditions. NOTE xx0100000004 Describes where to find additional information or how to do an operation in an easier way. TIP xx0100000098 38 Product manual - IRB 8700 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.3.1 Safety signals in the manual Continued
ABB_IRB8700_Product_Manual.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC052853-001&LanguageCode=en&DocumentPartId=&Action=Launch&DocumentRevisionId=D	38	1.3 Safety signals and symbols 1.3.1 Safety signals in the manual Introduction to safety signals This section specifies all dangers that can arise when doing the work described in the user manuals. Each danger consists of: • A caption specifying the danger level (DANGER, WARNING, or CAUTION) and the type of danger. • A brief description of what will happen if the operator/service personnel do not eliminate the danger. • Instruction about how to eliminate danger to simplify doing the work. Danger levels The table below defines the captions specifying the danger levels used throughout this manual. Significance Designation Symbol Warns that an accident will occur if the instructions are not followed, resulting in a serious or fatal injury and/or severe damage to the product. It applies to warnings that apply to danger with, for example, contact with high voltage electrical units, explosion or fire risk, risk of poisonous gases, risk of crushing, impact, fall from height, and so on. DANGER xx0200000022 Warns that an accident may occur if the instructions are not followed that can lead to serious injury, pos- sibly fatal, and/or great damage to the product. It applies to warnings that apply to danger with, for example, contact with high voltage electrical units, explosion or fire risk, risk of poisonous gases, risk of crushing, impact, fall from height, etc. WARNING xx0100000002 Warns for electrical hazards which could result in severe personal injury or death. ELECTRICAL SHOCK xx0200000024 Warns that an accident may occur if the instructions are not followed that can result in injury and/or damage to the product. It also applies to warnings of risks that include burns, eye injury, skin injury, hearing damage, crushing or slipping, tripping, im- pact, fall from height, etc. Furthermore, it applies to warnings that include function requirements when fitting and removing equipment where there is a risk of damaging the product or causing a breakdown. CAUTION xx0100000003 Warns for electrostatic hazards which could result in severe damage to the product. ELECTROSTATIC DISCHARGE (ESD) xx0200000023 Continues on next page Product manual - IRB 8700 37 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.3.1 Safety signals in the manual Significance Designation Symbol Describes important facts and conditions. NOTE xx0100000004 Describes where to find additional information or how to do an operation in an easier way. TIP xx0100000098 38 Product manual - IRB 8700 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.3.1 Safety signals in the manual Continued 1.3.2 Safety symbols on product labels Introduction to labels This section describes safety symbols used on labels (stickers) on the product. Symbols are used in combinations on the labels, describing each specific warning. The descriptions in this section are generic, the labels can contain additional information such as values. Note The safety and health symbols on the labels on the product must be observed. Additional safety information given by the system builder or integrator must also be observed. Types of labels Both the robot and the controller are marked with several safety and information labels, containing important information about the product. The information is useful for all personnel handling the robot system, for example during installation, service, or operation. The safety labels are language independent, they only use graphics. See Symbols on safety labels on page 39 . The information labels can contain information in text (English, German, and French). Symbols on safety labels Description Symbol Warning! xx0900000812 Warns that an accident may occur if the instructions are not followed that can lead to serious injury, possibly fatal, and/or great damage to the product. It applies to warnings that apply to danger with, for example, contact with high voltage electrical units, explosion or fire risk, risk of poisonous gases, risk of crushing, impact, fall from height, etc. Caution! xx0900000811 Warns that an accident may occur if the instructions are not followed that can result in injury and/or damage to the product. It also applies to warnings of risks that include burns, eye injury, skin injury, hearing damage, crushing or slipping, tripping, im- pact, fall from height, etc. Furthermore, it applies to warnings that include function requirements when fitting and removing equipment where there is a risk of damaging the product or causing a breakdown. Prohibition ![Image] xx0900000839 Used in combinations with other symbols. Continues on next page Product manual - IRB 8700 39 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.3.2 Safety symbols on product labels
ABB_IRB8700_Product_Manual.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC052853-001&LanguageCode=en&DocumentPartId=&Action=Launch&DocumentRevisionId=D	39	Significance Designation Symbol Describes important facts and conditions. NOTE xx0100000004 Describes where to find additional information or how to do an operation in an easier way. TIP xx0100000098 38 Product manual - IRB 8700 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.3.1 Safety signals in the manual Continued 1.3.2 Safety symbols on product labels Introduction to labels This section describes safety symbols used on labels (stickers) on the product. Symbols are used in combinations on the labels, describing each specific warning. The descriptions in this section are generic, the labels can contain additional information such as values. Note The safety and health symbols on the labels on the product must be observed. Additional safety information given by the system builder or integrator must also be observed. Types of labels Both the robot and the controller are marked with several safety and information labels, containing important information about the product. The information is useful for all personnel handling the robot system, for example during installation, service, or operation. The safety labels are language independent, they only use graphics. See Symbols on safety labels on page 39 . The information labels can contain information in text (English, German, and French). Symbols on safety labels Description Symbol Warning! xx0900000812 Warns that an accident may occur if the instructions are not followed that can lead to serious injury, possibly fatal, and/or great damage to the product. It applies to warnings that apply to danger with, for example, contact with high voltage electrical units, explosion or fire risk, risk of poisonous gases, risk of crushing, impact, fall from height, etc. Caution! xx0900000811 Warns that an accident may occur if the instructions are not followed that can result in injury and/or damage to the product. It also applies to warnings of risks that include burns, eye injury, skin injury, hearing damage, crushing or slipping, tripping, im- pact, fall from height, etc. Furthermore, it applies to warnings that include function requirements when fitting and removing equipment where there is a risk of damaging the product or causing a breakdown. Prohibition ![Image] xx0900000839 Used in combinations with other symbols. Continues on next page Product manual - IRB 8700 39 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.3.2 Safety symbols on product labels Description Symbol See user documentation xx0900000813 Read user documentation for details. Which manual to read is defined by the symbol: • No text: Product manual . • EPS: Application manual - Electronic Position Switches . Before disassemble, see product manual xx0900000816 Do not disassemble xx0900000815 Disassembling this part can cause injury. Extended rotation xx0900000814 This axis has extended rotation (working area) compared to standard. Brake release xx0900000808 Pressing this button will release the brakes. This means that the robot arm can fall down. Continues on next page 40 Product manual - IRB 8700 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.3.2 Safety symbols on product labels Continued
ABB_IRB8700_Product_Manual.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC052853-001&LanguageCode=en&DocumentPartId=&Action=Launch&DocumentRevisionId=D	40	1.3.2 Safety symbols on product labels Introduction to labels This section describes safety symbols used on labels (stickers) on the product. Symbols are used in combinations on the labels, describing each specific warning. The descriptions in this section are generic, the labels can contain additional information such as values. Note The safety and health symbols on the labels on the product must be observed. Additional safety information given by the system builder or integrator must also be observed. Types of labels Both the robot and the controller are marked with several safety and information labels, containing important information about the product. The information is useful for all personnel handling the robot system, for example during installation, service, or operation. The safety labels are language independent, they only use graphics. See Symbols on safety labels on page 39 . The information labels can contain information in text (English, German, and French). Symbols on safety labels Description Symbol Warning! xx0900000812 Warns that an accident may occur if the instructions are not followed that can lead to serious injury, possibly fatal, and/or great damage to the product. It applies to warnings that apply to danger with, for example, contact with high voltage electrical units, explosion or fire risk, risk of poisonous gases, risk of crushing, impact, fall from height, etc. Caution! xx0900000811 Warns that an accident may occur if the instructions are not followed that can result in injury and/or damage to the product. It also applies to warnings of risks that include burns, eye injury, skin injury, hearing damage, crushing or slipping, tripping, im- pact, fall from height, etc. Furthermore, it applies to warnings that include function requirements when fitting and removing equipment where there is a risk of damaging the product or causing a breakdown. Prohibition ![Image] xx0900000839 Used in combinations with other symbols. Continues on next page Product manual - IRB 8700 39 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.3.2 Safety symbols on product labels Description Symbol See user documentation xx0900000813 Read user documentation for details. Which manual to read is defined by the symbol: • No text: Product manual . • EPS: Application manual - Electronic Position Switches . Before disassemble, see product manual xx0900000816 Do not disassemble xx0900000815 Disassembling this part can cause injury. Extended rotation xx0900000814 This axis has extended rotation (working area) compared to standard. Brake release xx0900000808 Pressing this button will release the brakes. This means that the robot arm can fall down. Continues on next page 40 Product manual - IRB 8700 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.3.2 Safety symbols on product labels Continued Description Symbol Tip risk when loosening bolts xx0900000810 The robot can tip over if the bolts are not securely fastened. ![Image] xx1500002402 Crush ![Image] xx0900000817 Risk of crush injuries. Heat xx0900000818 Risk of heat that can cause burns. Continues on next page Product manual - IRB 8700 41 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.3.2 Safety symbols on product labels Continued
ABB_IRB8700_Product_Manual.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC052853-001&LanguageCode=en&DocumentPartId=&Action=Launch&DocumentRevisionId=D	41	Description Symbol See user documentation xx0900000813 Read user documentation for details. Which manual to read is defined by the symbol: • No text: Product manual . • EPS: Application manual - Electronic Position Switches . Before disassemble, see product manual xx0900000816 Do not disassemble xx0900000815 Disassembling this part can cause injury. Extended rotation xx0900000814 This axis has extended rotation (working area) compared to standard. Brake release xx0900000808 Pressing this button will release the brakes. This means that the robot arm can fall down. Continues on next page 40 Product manual - IRB 8700 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.3.2 Safety symbols on product labels Continued Description Symbol Tip risk when loosening bolts xx0900000810 The robot can tip over if the bolts are not securely fastened. ![Image] xx1500002402 Crush ![Image] xx0900000817 Risk of crush injuries. Heat xx0900000818 Risk of heat that can cause burns. Continues on next page Product manual - IRB 8700 41 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.3.2 Safety symbols on product labels Continued Description Symbol Moving robot xx0900000819 The robot can move unexpectedly. xx1000001141 1 2 3 4 xx1500002616 Brake release buttons xx0900000820 xx1000001140 Lifting bolt xx0900000821 Continues on next page 42 Product manual - IRB 8700 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.3.2 Safety symbols on product labels Continued
ABB_IRB8700_Product_Manual.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC052853-001&LanguageCode=en&DocumentPartId=&Action=Launch&DocumentRevisionId=D	42	Description Symbol Tip risk when loosening bolts xx0900000810 The robot can tip over if the bolts are not securely fastened. ![Image] xx1500002402 Crush ![Image] xx0900000817 Risk of crush injuries. Heat xx0900000818 Risk of heat that can cause burns. Continues on next page Product manual - IRB 8700 41 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.3.2 Safety symbols on product labels Continued Description Symbol Moving robot xx0900000819 The robot can move unexpectedly. xx1000001141 1 2 3 4 xx1500002616 Brake release buttons xx0900000820 xx1000001140 Lifting bolt xx0900000821 Continues on next page 42 Product manual - IRB 8700 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.3.2 Safety symbols on product labels Continued Description Symbol Chain sling with shortener xx1000001242 Lifting of robot xx0900000822 Oil xx0900000823 Can be used in combination with prohibition if oil is not allowed. Mechanical stop xx0900000824 No mechanical stop xx1000001144 Stored energy xx0900000825 Warns that this part contains stored energy. Used in combination with Do not disassemble symbol. Continues on next page Product manual - IRB 8700 43 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.3.2 Safety symbols on product labels Continued
ABB_IRB8700_Product_Manual.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC052853-001&LanguageCode=en&DocumentPartId=&Action=Launch&DocumentRevisionId=D	43	Description Symbol Moving robot xx0900000819 The robot can move unexpectedly. xx1000001141 1 2 3 4 xx1500002616 Brake release buttons xx0900000820 xx1000001140 Lifting bolt xx0900000821 Continues on next page 42 Product manual - IRB 8700 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.3.2 Safety symbols on product labels Continued Description Symbol Chain sling with shortener xx1000001242 Lifting of robot xx0900000822 Oil xx0900000823 Can be used in combination with prohibition if oil is not allowed. Mechanical stop xx0900000824 No mechanical stop xx1000001144 Stored energy xx0900000825 Warns that this part contains stored energy. Used in combination with Do not disassemble symbol. Continues on next page Product manual - IRB 8700 43 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.3.2 Safety symbols on product labels Continued Description Symbol Pressure xx0900000826 Warns that this part is pressurized. Usually contains additional text with the pressure level. Shut off with handle xx0900000827 Use the power switch on the controller. Do not step ![Image] xx1400002648 Warns that stepping on these parts can cause damage to the parts. 44 Product manual - IRB 8700 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.3.2 Safety symbols on product labels Continued
ABB_IRB8700_Product_Manual.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC052853-001&LanguageCode=en&DocumentPartId=&Action=Launch&DocumentRevisionId=D	44	Description Symbol Chain sling with shortener xx1000001242 Lifting of robot xx0900000822 Oil xx0900000823 Can be used in combination with prohibition if oil is not allowed. Mechanical stop xx0900000824 No mechanical stop xx1000001144 Stored energy xx0900000825 Warns that this part contains stored energy. Used in combination with Do not disassemble symbol. Continues on next page Product manual - IRB 8700 43 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.3.2 Safety symbols on product labels Continued Description Symbol Pressure xx0900000826 Warns that this part is pressurized. Usually contains additional text with the pressure level. Shut off with handle xx0900000827 Use the power switch on the controller. Do not step ![Image] xx1400002648 Warns that stepping on these parts can cause damage to the parts. 44 Product manual - IRB 8700 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.3.2 Safety symbols on product labels Continued 1.4 Safety related instructions 1.4.1 DANGER - Moving robots are potentially lethal! Description Any moving robot is a potentially lethal machine. When running, the robot may perform unexpected and sometimes irrational movements. Moreover, all movements are performed with great force and may seriously injure any personnel and/or damage any piece of equipment located within the working range of the robot. Elimination Note Action Emergency stop equipment such as gates, tread mats, light curtains, etc. Before attempting to run the robot, make sure all emergency stop equipment is cor- rectly installed and connected. 1 How to use the hold-to-run function is de- scribed in section How to use the hold-to- run function in the Operating manual - IRC5 with FlexPendant . Usually the hold-to-run function is active only in manual full speed mode. To in- crease safety it is also possible to activate hold-to-run for manual reduced speed with a system parameter. 2 The hold-to-run function is used in manual mode, not in automatic mode. Make sure no personnel are present within the working range of the robot before pressing the start button. 3 Product manual - IRB 8700 45 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.4.1 DANGER - Moving robots are potentially lethal!
ABB_IRB8700_Product_Manual.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC052853-001&LanguageCode=en&DocumentPartId=&Action=Launch&DocumentRevisionId=D	45	Description Symbol Pressure xx0900000826 Warns that this part is pressurized. Usually contains additional text with the pressure level. Shut off with handle xx0900000827 Use the power switch on the controller. Do not step ![Image] xx1400002648 Warns that stepping on these parts can cause damage to the parts. 44 Product manual - IRB 8700 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.3.2 Safety symbols on product labels Continued 1.4 Safety related instructions 1.4.1 DANGER - Moving robots are potentially lethal! Description Any moving robot is a potentially lethal machine. When running, the robot may perform unexpected and sometimes irrational movements. Moreover, all movements are performed with great force and may seriously injure any personnel and/or damage any piece of equipment located within the working range of the robot. Elimination Note Action Emergency stop equipment such as gates, tread mats, light curtains, etc. Before attempting to run the robot, make sure all emergency stop equipment is cor- rectly installed and connected. 1 How to use the hold-to-run function is de- scribed in section How to use the hold-to- run function in the Operating manual - IRC5 with FlexPendant . Usually the hold-to-run function is active only in manual full speed mode. To in- crease safety it is also possible to activate hold-to-run for manual reduced speed with a system parameter. 2 The hold-to-run function is used in manual mode, not in automatic mode. Make sure no personnel are present within the working range of the robot before pressing the start button. 3 Product manual - IRB 8700 45 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.4.1 DANGER - Moving robots are potentially lethal! 1.4.2 DANGER - First test run may cause injury or damage! Description Since performing a service activity often requires disassembly of the robot, there are several safety risks to take into consideration before the first test run. Elimination Follow the procedure below when performing the first test run after a service activity, such as repair, installation, or maintenance. DANGER Running the robot without fulfilling the following aspects, may cause severe damage to the robot. Action Remove all service tools and foreign objects from the robot and its working area. 1 Verify that the robot is secured to its position, see installation section in the product manual for the robot. 2 Verify that any safety equipment installed to secure the robot arm position or restrict the robot arm motion during service activity is removed. 3 Verify that the fixture and work piece are well secured, if applicable. 4 Install all safety equipment properly. 5 Make sure all personnel are standing at a safe distance from the robot, that is out of its reach behind safety fences, and so on. 6 Pay special attention to the function of the part that previously was serviced. 7 Collision risks CAUTION When programming the movements of the robot, always identify potential collision risks before the first test run. 46 Product manual - IRB 8700 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.4.2 DANGER - First test run may cause injury or damage!
ABB_IRB8700_Product_Manual.pdf	https://search.abb.com/library/Download.aspx?DocumentID=3HAC052853-001&LanguageCode=en&DocumentPartId=&Action=Launch&DocumentRevisionId=D	46	1.4 Safety related instructions 1.4.1 DANGER - Moving robots are potentially lethal! Description Any moving robot is a potentially lethal machine. When running, the robot may perform unexpected and sometimes irrational movements. Moreover, all movements are performed with great force and may seriously injure any personnel and/or damage any piece of equipment located within the working range of the robot. Elimination Note Action Emergency stop equipment such as gates, tread mats, light curtains, etc. Before attempting to run the robot, make sure all emergency stop equipment is cor- rectly installed and connected. 1 How to use the hold-to-run function is de- scribed in section How to use the hold-to- run function in the Operating manual - IRC5 with FlexPendant . Usually the hold-to-run function is active only in manual full speed mode. To in- crease safety it is also possible to activate hold-to-run for manual reduced speed with a system parameter. 2 The hold-to-run function is used in manual mode, not in automatic mode. Make sure no personnel are present within the working range of the robot before pressing the start button. 3 Product manual - IRB 8700 45 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.4.1 DANGER - Moving robots are potentially lethal! 1.4.2 DANGER - First test run may cause injury or damage! Description Since performing a service activity often requires disassembly of the robot, there are several safety risks to take into consideration before the first test run. Elimination Follow the procedure below when performing the first test run after a service activity, such as repair, installation, or maintenance. DANGER Running the robot without fulfilling the following aspects, may cause severe damage to the robot. Action Remove all service tools and foreign objects from the robot and its working area. 1 Verify that the robot is secured to its position, see installation section in the product manual for the robot. 2 Verify that any safety equipment installed to secure the robot arm position or restrict the robot arm motion during service activity is removed. 3 Verify that the fixture and work piece are well secured, if applicable. 4 Install all safety equipment properly. 5 Make sure all personnel are standing at a safe distance from the robot, that is out of its reach behind safety fences, and so on. 6 Pay special attention to the function of the part that previously was serviced. 7 Collision risks CAUTION When programming the movements of the robot, always identify potential collision risks before the first test run. 46 Product manual - IRB 8700 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.4.2 DANGER - First test run may cause injury or damage! 1.4.3 WARNING - The brake release buttons may be jammed after service work Description The brake release unit has push-buttons for the brake release of each axis motor. When service work is performed inside the SMB recess that includes removal and refitting of the brake release unit, the brake release buttons may be jammed after refitting. DANGER If the power is turned on while a brake release button is jammed in depressed position, the affected motor brake is released! This may cause serious personal injuries and damage to the robot. Elimination To eliminate the danger after service work has been performed inside the SMB recess, follow the procedure below. Action Make sure the power is turned off. 1 Remove the push-button guard, if necessary. 2 Verify that the push-buttons of the brake release unit are working by pressing them down, one by one. 3 Make sure none of the buttons are jammed in the tube. If a button gets jammed in the depressed position, the alignment of the brake release unit must be adjusted so that the buttons can move freely in their tubes! 4 Product manual - IRB 8700 47 3HAC052853-001 Revision: D © Copyright 2015-2017 ABB. All rights reserved. 1 Safety 1.4.3 WARNING - The brake release buttons may be jammed after service work

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