Rev.5 EM111R2120F
SCARA ROBOT
G3 series
MANIPULATOR MANUAL
MANIPULATOR MANUAL G3 series Rev.5
SCARA ROBOT
G3 series Manipulator Manual
Rev.5
Copyright © 2008-2011 SEIKO EPSON CORPORATION. All rights reserved.
G3 Rev.5 i
d
FOREWORD
Thank you for purchasing our robot products.
This manual contains the information necessary for the correct use of the manipu lat o r.
Please carefully read this manual and other related manuals before installing the robot
system.
Keep this manual handy for easy access at all times.
WARRANTY
The Manipulator and its optional parts are shipped to our customers only after being
subjected to the strictest quality controls, tests, and inspections to certify its compliance
with our high performance standards.
Product malfunctions resulting from normal handling or operation will be repaired free of
charge during the normal warranty period. (Please ask your Regional Sales Office for
warranty period information.)
However, customers will be charged for repairs in the following cases (even if they occur
during the warranty period):
1. Damage or malfunction caused by improper use which is not described in the manual,
or careless use.
2. Malfunctions caused by customers’ unauthorized disasse mbly.
3. Damage due to improper adjustments or unauthorized repair attempts.
4. Damage caused by natural disasters such as earthquake, flood, etc.
Warnings, Cautions, Usage:
1. If the Manipulator or associated equipment is used outside of the usage conditions an
product specifications described in the manuals, this warranty is void.
2. If you do not follow the WARNINGS and CAUTIONS in this manual, we cannot be
responsible for any malfunction or accident, even if the result is injury or death.
3. We cannot foresee all possible dangers and consequences. Therefore, this manual
cannot warn the user of all possible hazards.
ii G3 Rev.5
TRADEMARKS
Microsoft, Windows, and Windows logo are either registered trademarks or trademarks of
Microsoft Corporation in the United States and/or other countries. Other brand and
product names are trademarks or registered trademarks of the respective holders.
NOTICE
No part of this manual may be copied or reproduced without authorization.
The contents of this manual are subject to change wit ho ut no tice.
Please notify us if you should fi nd any errors in thi s manual or if you have any comments
regarding its contents.
INQUIRIES
Contact the following service center for robot repairs, inspections or adjustments.
If service center information is not indicated below, please contact the supplier office for
your region.
Please prepare the following items before you contact us.
- Your controller model and its serial number
- Your manipulator model and its serial number
- Software and its version in your robot system
- A description of the problem
SERVICE CENTER
G3 Rev.5 iii
MANUFACTURER & SUPPLIER
TEL : +81-(0)266-61-1802
FAX : +81-(0)266-61-1846
Japan & Others
SEIKO EPSON CORPORATION
Suwa Minami Plant
Factory Automation Systems Dept.
1010 Fujimi, Fujimi-machi,
Suwa-gun, Nagano, 399-0295
JAPAN
SUPPLIERS
Factory Automation/Robotics
TEL : +1-562-290-5900
FAX : +1-562-290-5999
E-MAIL : info@robots.epson.com
Factory Automation Division
TEL : +49-(0)-2159-538-1391
FAX : +49-(0)-2159-538-3170
E-MAIL : robot.infos@epson.de
Factory Automation Division
TEL : +86-(0)-10-8522-1199
FAX : +86-(0)-10-8522-1120
Taiwan
Factory Automation Division
TEL : +886-(0)-2-8786-6688
FAX : +886-(0)-2-8786-6677
North & South America
Europe
China
EPSON AMERICA, INC.
18300 Central Avenue
Carson, CA 90746
USA
EPSON DEUTSCHLAND GmbH
Otto-Hahn-Str.4
D-40670 Meerbusch
Germany
EPSON China Co., Ltd
7F, Jinbao Building No. 89 Jinbao Street
Dongcheng District, Beijing,
China, 100005
EPSON Taiwan Technology & Trading Ltd.
14F, No.7, Song Ren Road, Taipei 110
Taiwan, ROC
iv G3 Rev.5
For Customers in the European Union
The crossed out wheeled bin label that can be found on your product indicates that this
product and incorporated batteries should not be disposed of via the normal household
waste stream. To prevent possible harm to the environment or human health please
separate this product and its batteries from other waste streams to ensure that it can be
recycled in an environmentally sound manner. For more details on available collection
facilities please contact your local government office or the retailer where you purchased
this product. Use of the chemical symbols Pb, Cd or Hg indicates if these metals are used
in the battery.
This information only applies to customers in the European Union, according to
DIRECTIVE 2006/66/EC OF THE EUROPEAN PARLIAMENT AND OF THE
COUNCIL OF 6 September 2006 on batteries and accumulators and waste batteries and
accumulators and repealing Directive 91/157/EEC and legislation transposing and
implementing it into the various national legal systems.
For other countries, please contact your local government to investigate the possibility of
recycling your product.
The battery removal/replacement procedure is described in the following manuals:
Controller manual / Manipulator manual (Maintenance section)
G3 Rev.5 v
Before Reading This Manual
This section describes what you should know before reading this manual.
Structure of Control System
The G3 series Manipulators can be used with the following combinations of Controllers and
software.
The operating methods and descriptions are different depending on which software you are
using. The following icons are put beside appropriate text as necessary. Use the
descriptions that pertain to the software you are using.
Controller
Name Structure
RC180 Controller EPSON RC+ 5.0
Software
RC620
For details on commands, refer to User’s Guide or “On-line help”.
Control Unit
Drive Unit
Turning ON/OFF Controller
When you see the instruction “Turn ON/OFF the Controller” in this manual, be sure to
turn ON/OFF all the hardware components. For the Controller composition, refer to the
table above.
Shape of Motors
The shape of the motors used for the Manipulator that you are using may be different from
the shape of the motors described in this manual because of the specifications.
Setting by Using Software
This manual contains setting procedures by using software. They are marked with the
following icon.
EPSON RC+ 6.0
EPSON
RC+
Figures in this Manual
The figures of manipulators indicated in this manual are basically Standard-model
Manipulator. Unless special instruction is provided, the specifications of Standard-model
and Cleanroom-model are the same.
vi G3 Rev.5
TABLE OF CONTENTS
Before Reading This Manual............................................................................v
Setup & Operation
1. Safety 3
1.1 Conventions.............................................................................................3
1.2 Design and Installation Safety .................................................................4
1.3 Operation Safety......................................................................................5
1.4 Emergency Stop......................................................................................6
1.5 Emergency Movement Without Drive Power ...........................................7
1.6 Manipulator Labels ..................................................................................8
2. Specifications 10
2.1 Features of G3 series Manipulators.......................................................10
2.2 Model Number and Model Differences ..................................................11
2.3 Part Names and Outer Dimensions....................................................... 13
2.3.1 Table Top Mounting....................................................................13
2.3.2 Multiple Mounting.......................................................................17
2.4 Specifications.........................................................................................21
2.5 How to Set the Model ............................................................................25
TABLE OF CONTENTS
3. Environments and Installation 26
3.1 Environmental Conditions......................................................................26
3.2 Base Table.............................................................................................27
3.3 Mounting Dimensions............................................................................28
3.3.1 Table Top Mounting - Straight Arm .............................................29
3.3.2 Table Top Mounting - Left-Curved Arm.......................................30
3.3.3 Table Top Mounting - Right-Curved Arm ....................................31
3.3.4 Multiple Mounting - Straight Arm................................................32
3.3.5 Multiple Mounting - Left-Curved Arm..........................................33
3.3.6 Multiple Mounting - Right-Curved Arm .......................................34
3.4 Unpacking and Transportation...............................................................35
3.5 Installation .............................................................................................36
3.5.1 Table Top Mounting....................................................................36
3.5.2 Multiple Mounting.......................................................................37
3.5.3 Cleanroom-model ......................................................................38
3.6 Connecting the Cables ..........................................................................39
3.7 User Wires and Pneumatic Tubes.........................................................40
3.8 Relocation and Storage.........................................................................42
3.8.1 Precautions for Relocation and Storage.....................................42
3.8.2 Table Top Mounting....................................................................43
3.8.3 Multiple Mounting.......................................................................44
G3 Rev.5 vii
TABLE OF CONTENTS
4. Setting of End Effectors 45
4.1 Attaching an End Effector......................................................................45
4.2 Attaching Cameras and Valves.............................................................46
4.3 Weight and Inertia Settings................................................................... 47
4.4 Precautions for Auto Acceleration/Deceleration of Joint #3...................53
5. Motion Range 54
5.1 Motion Range Setting by Pulse Range (for All Joints)........................... 54
5.2 Motion Range Setting by Mechanical Stops..........................................58
5.3 Setting the Cartesian (Rectangular) Range in the XY Coordinate
System of the Manipulator (for Joints #1 and #2)............................................64
5.4 Standard Motion Range ........................................................................64
4.3.1 Weight Setting...........................................................................47
4.3.2 Inertia Setting............................................................................49
5.1.1 Max. Pulse Range of Joint #1....................................................55
5.1.2 Max. Pulse Range of Joint #2....................................................56
5.1.3 Max. Pulse Range of Joint #3....................................................57
5.1.4 Max. Pulse Range of Joint #4....................................................57
5.2.1 Setting the Mechanical Stops of Joints #1 and #2..................... 58
5.2.2 Setting the Mechanical Stop of Joint #3.....................................62
Maintenance
1. Safety Maintenance 67
2. General Maintenance 68
2.1 Schedule for Maintenance Inspection ...................................................68
2.2 Inspection Point.....................................................................................69
2.2.1 Inspection While the Power is OFF........................................... 69
2.2.2 Inspection While the Power is ON.............................................69
2.3 Greasing ...............................................................................................70
2.4 Tightening Hexagon Socket Head Cap Bolts ........................................ 71
2.5 Matching Origins...................................................................................71
2.6 Layout of Maintenance Parts.................................................................72
2.6.1 Table Top Mounting...................................................................72
2.6.2 Multiple Mounting......................................................................73
3. Covers 74
3.1 Arm Top Cover...................................................................................... 75
3.2 Arm Bottom Cover ................................................................................. 77
3.3 Arm Cap................................................................................................77
3.4 Connector Plate ....................................................................................78
3.5 Connector Sub Plate.............................................................................79
3.6 User Plate .............................................................................................79
3.7 Heatsink Plate....................................................................................... 80
3.8 Base Bottom Cover...............................................................................80
viii G3 Rev.5
TABLE OF CONTENTS
4. Cable Unit 81
4.1 Replacing Cable Unit.............................................................................82
4.2 Wiring Diagrams....................................................................................87
4.2.1 Signal Cable...............................................................................87
4.2.2 Power Cable ..............................................................................88
4.2.3 User Cable.................................................................................89
5. Arm #1 90
5.1 Replacing Joint #1 Motor.......................................................................91
5.2 Replacing Joint #1 Reduction Gear Unit................................................94
6. Arm #2 97
6.1 Replacing Joint #2 Motor.......................................................................98
6.2 Replacing Joint #2 Reduction Gear Unit..............................................102
7. Arm #3 105
7.1 Replacing Joint #3 Motor.....................................................................106
7.2 Replacing the Timing Belt....................................................................110
7.3 Replacing the Brake ............................................................................114
8. Arm #4 116
8.1 Replacing Joint #4 Motor.....................................................................117
8.2 Replacing the Timing Belt....................................................................121
9. Replacing Arm #1 129
10. Bellows 136
11. Ball Screw Spline Unit 138
11.1 Greasing the Ball Screw Spline Unit ..................................................138
11.1.1 Standard-model......................................................................139
11.1.2 Cleanroom-model / Protected-model......................................140
11.2 Replacing the Ball Screw Spline Unit.................................................141
12. Lithium Battery 145
12.1 Replacing the Battery Unit (Lithium Battery)......................................146
12.2 Replacing the Battery Board..............................................................147
13. LED Lamp 149
14. Calibration 150
14.1 About Calibration ...............................................................................150
14.2 Calibration Procedure........................................................................151
14.3 Accurate Calibration of Joint #2.........................................................161
14.4 Calibration Procedure without using Calibration Wizard....................163
G3 Rev.5 ix
TABLE OF CONTENTS
15. Maintenance Parts List 167
15.1 Common Parts ..................................................................................167
15.2 Parts by Environment Model .............................................................168
x G3 Rev.5
Setup & Operation
This volume contains information for setup and operation of the
G3 series Manipulators.
Please read this volume thoroughly before setting up and
operating the Manipulators.
1. Safety
Installation and transportation of robots and robotic equipment shall be performed by
qualified personnel and should conform to all national and local codes. Please read this
manual and other related manuals before installing the robot system or before connecting
cables.
Keep this manual handy for easy access at all times.
1.1 Conventions
Important safety considerations are indicated throughout the manual by the following
symbols. Be sure to read the descriptions shown with each symbol.
WARNING
WARNING
Setup & Operation 1. Safety
This symbol indicates that a danger of possible serious injury or
death exists if the associated instructions are not followed
properly.
This symbol indicates that a danger of possible serious injury or
death caused by electric shock exists if the associated
instructions are not followed properly.
This symbol indicates that a danger of possible harm to people
or physical damage to equipment and facilities exists if the
CAUTION
associated instructions are not followed properly.
G3 Rev.5 3
Setup & Operation 1. Safety
1.2 Design and Installation Safety
Only trained personnel should design and install the robot system. Trained
personnel are defined as those who have taken robot system training and
maintenance training classes held by the manufacturer, dealer, or local
representative company, or those who understand the manuals thoroughly and
have the same knowledge and skill level as those who have completed the training
courses.
To ensure safety, a safeguard must be installed for the robot system. For details
on the safeguard, refer to the Installation and Design Precautions in the Safety
chapter of the EPSON RC+ User’s Guide.
The following items are safety precautions for design personnel:
■
Personnel who design and/or construct the robot system with this product must
read the Safety chapter in the EPSON RC+ User’s Guide to understand the
safety requirements before designing and/or constructing the robot system.
Designing and/or constructing the robot system without understanding the safety
requirements is extremely hazardous, may result in serious bodily injury and/or
severe equipment damage to the robot system, and may cause serious safety
problems.
WARNING
■
The Manipulator and the Controller must be used within the environmental
conditions described in their respective manuals. This product has been
designed and manufactured strictly for use in a normal indoor environment.
Using the product in an environment that exceeds the specified environmental
conditions may not only shorten the life cycle of the product but may also cause
serious safety problems.
■
The robot system must be used within the installation requirements described in
the manuals. Using the robot system outside of the installation requirements
may not only shorten the life cycle of the product but also cause serious safety
problems.
Further precautions for installation are mentioned in the chapter Setup &
Operation: 3. Environments and Installation. Please read this chapter carefully to
understand safe installation procedures before installing the robots and robotic
equipment.
4 G3 Rev.5
1.3 Operation Safety
The following items are safety precautions for qualified Operator personnel:
■
Please carefully read the Safety-related Requirements in the Safety chapter of
the EPSON RC+ User’s Guide before operating the robot system. Operating
the robot system without understanding the safety requirements is extremely
hazardous and may result in serious bodily injury and/or severe equipment
damage to the robot system.
■
Do not enter the operating area of the Manipulator while the power to the robot
system is turned ON. Entering the operating area with the power ON is
extremely hazardous and may cause serious safety problems as the Manipulator
may move even if it seems to be stopped.
■
WARNING
Before operating the robot system, make sure that no one is inside the
safeguarded area. The robot system can be operated in the mode for teaching
even when someone is inside the safeguarded area.
The motion of the Manipulator is always in restricted (low speeds and low power)
status to secure the safety of an operator. However, operating the robot system
while someone is inside the safeguarded area is extremely hazardous and may
result in serious safety problems in case that the Manipulator moves
unexpectedly.
Setup & Operation 1. Safety
WARNING
CAUTION
■
Immediately press the Emergency Stop switch whenever the Manipulator moves
abnormally while the robot system is operated.
■
To shut off power to the robot system, pull out the power plug from the power
source. Be sure to connect the AC power cable to a power receptacle. DO
NOT connect it directly to a factory power source.
■
Before performing any replacement procedure, turn OFF the Controller and
related equipment, and then pull out the power plug from the power source.
Performing any replacement procedure with the power ON is extremely
hazardous and may result in electric shock and/or malfunction of the robot
system.
■
Do not insert or pull out the motor connectors while the power to the robot system
is turned ON. Inserting or pulling out the motor connectors with the power ON is
extremely hazardous and may result in serious bodily injury as the Manipulator
may move abnormally, and also may result in electric shock and/or malfunction of
the robot system.
■
Whenever possible, only one person should operate the robot system. If it is
necessary to operate the robot system with more than one person, ensure that all
people involved communicate with each other as to what they are doing and take
all necessary safety precautions.
G3 Rev.5 5
Setup & Operation 1. Safety
1.4 Emergency Stop
If the Manipulator moves abnormally during operation, immediately press the Emergency
Stop switch. Stops the power supply to the motor, and the arm stops in the shortest
distance with the dynamic brake and mechanical brake.
However, avoid pressing the Emergency Stop switch unnecessarily while the Manipulator
is running normally. Otherwise, the Manipulator may hit the peripheral equipment since
the operating trajectory while the robot system stops is different from that in normal
operation.
To place the system in emergency mode during normal operation, press the Emergency
Stop switch when the Manipulator is not moving.
Refer to the Controller manual for instructions on how to wire the Emergency Stop switch
circuit.
Free running distance in emergency
The operating Manipulator cannot stop immediately after the Emergency Stop switch is
pressed.
The free running time/angle/distance of the Manipulator are shown below. However,
remember that the values vary depending on following conditions.
Weight of the end effector Weight of work piece Operating pose
Weight Speed Accel etc.
Conditions for Measurement
Accel Setting 100
Speed Setting 100
Load [kg] 3
Weight Setting 3
Point where the
emergency stop
signal is input
Joint #1
Joint #2
Stop point
Start point of
operation
Target point
Controller RC180 / RC620
Manipulator G3-25*** G3-30*** G3-35***
Free running
time
Free running
angle
Free running
distance
Joint #1 + Joint #2 [sec.] 0.5 0.5 0.5
Joint #3 [sec.] 0.5 0.5 0.5
Joint #1 [deg.] 35 35 40
Joint #2 [deg.] 50 50 50
Joint #1 + Joint #2 [deg.] 85 85 90
Joint #3 G3-**1** [mm] 95 95 95
6 G3 Rev.5
Setup & Operation 1. Safety
−
1.5 Emergency Movement Without Drive Power
When the system is placed in emergency mode, push the arm or joint of the
Manipulator by hand as shown below:
Arm #1 .............Push the arm by hand.
Arm #2 .............Push the arm by hand.
Joint #3 ............ The joint cannot be moved up/down by hand until the
electromagnetic brake applied to the joint has been released.
Move the joint up/down while pressing the brake release button
switch.
Joint #4........... Rotate the shaft by hand.
Joint #2
(rotating)
−
+
Joint #1
(rotating)
NOTE
)
Joint #3brake release button
Arm #2
+
Joint #3
(up and down)
−
Joint #4
(rotating)
+
−
+
Base
Arm #1
Shaft
The brake release button affects only Joint #3. When the brake release button is
pressed in emergency mode, the brake for Joint #3 is released.
Be careful of the shaft while the brake release button is pressed because the shaft may
be lowered by the weight of an end effector.
G3 Rev.5 7
Setup & Operation 1. Safety
1.6 Manipulator Labels
The following labels are attached near the locations of the Manipulator where specific
dangers exist.
Be sure to comply with descriptions and warnings on the labels to operate and maintain
the Manipulator safely.
Do not tear, damage, or remove the labels. Use meticulous care when handling those
parts or units to which the following labels are attached as well as the nearby areas:
Labels NOTE
A
B
C
D
Before loosening the base mounting screws,
hold the arm and secure it tightly with a band to
prevent hands or fingers from being caught in
the Manipulator.
Hazardous voltage exists while the Manipulator
is ON. To avoid electric shock, do not touch
any internal electric parts.
You can catch your hand or fingers between the
shaft and cover when bringing your hand close
to moving parts.
* Manipulators with bellows do not have this
label for no danger of your hand or fingers being
caught.
E
HOT
Be careful not to burn yourself.
Only authorized personnel should perform sling
work and operate a crane and a forklift.
F
G
When these operations are performed by
unauthorized personnel, it is extremely hazardous
and may result in serious bodily injury and/or
severe equipment damage to the robot system.
Be careful of the hand falling while the brake
release button is being pressed.
8 G3 Rev.5
Setup & Operation 1. Safety
Common
H
I
Table Top Mounting
Multiple Mounting
G3 Rev.5 9
Setup & Operation 2. Specifications
2. Specifications
2.1 Features of G3 series Manipulators
The G3 series Manipulators are high-performance manipulators pursuing high speed, high
accuracy, space saving, and high cost-performance.
The features of the G3 series Manipulators are as follows:
Space productivity
Top level of cycle time and positioning accuracy
Minimized body
10 % downsize of overall height, compared to E2C
Extended motion range
The same size of motion range compared with the other brands’ one up robots
Extended range in Z direction
Obtain the stroke under the body
Succeeded E2C series advantages
Compatibility with the E2C series Manipulators
The installation procedure and mounting dimensions of end effector for the G3 series
are compatible with those for E2C series
* Secure the compatible mounting position with optional parts
Improved productivity
Increase in number of user wires and pneumatic tubes
Enhanced speed of Joint #1, 2, 3, and 4
Improved cycle time
10 G3 Rev.5
2.2 Model Number and Model Differences
G3-25 1 S □-R-UL
UL specification
UL : UL compliant
□
: Non UL compliant
Type
□
: Standard
R : Right-Curved
L : Left-Curved
Mounting type
□
: Table Top Mounting
M : Multiple Mounting
Environment
S : Standard
C : Cleanroom & ESD (Anti-Static)
Joint #3 stroke
: 150 mm
1
: 120 mm (Cleanroom-model)
Arm length
25 : 250 mm
30 : 300 mm
35 : 350 mm
Setup & Operation 2. Specifications
Environment
Cleanroom-model
This model has additional features that reduce dust emitted by the Manipulator to enable
use in clean room environments.
For details on the specifications, refer to Setup & Operation: 2.4 Specifications.
G3 Rev.5 11
Setup & Operation 2. Specifications
Arm
length
250 mm
300 mm
350 mm
Arm type Mounting type Environment
Standard
Standard
Right-Curved
Left-Curved
Standard
Right-Curved
Left-Curved
Table Top Mounting
Table Top Mounting
Multiple Mounting
Table Top Mounting
Table Top Mounting
Table Top Mounting
Multiple Mounting
Table Top Mounting
Multiple Mounting
Table Top Mounting
Multiple Mounting
Joint #3
stroke
Standard 150 G3-251S
Cleanroom 120 G3-251C
Standard 150 G3-301S
Cleanroom 120 G3-301C
Standard 150 G3-301SM
Cleanroom 120 G3-301CM
Standard 150 G3-301S-R
Cleanroom 120 G3-301C-R
Standard 150 G3-301S-L
Cleanroom 120 G3-301C-L
Standard 150 G3-351S
Cleanroom 120 G3-351C
Standard 150 G3-351SM
Cleanroom 120 G3-351CM
Standard 150 G3-351S-R
Cleanroom 120 G3-351C-R
Standard 150 G3-351SM-R
Cleanroom 120 G3-351CM-R
Standard 150 G3-351S-L
Cleanroom 120 G3-351C-L
Standard 150 G3-351SM-L
Cleanroom 120 G3-351CM-L
Model
Number
12 G3 Rev.5
−
−+−
2.3 Part Names and Outer Dimensions
2.3.1 Table Top Mounting
Standard-model G3-**1S
Joint #2
(rotating)
+
Setup & Operation 2. Specifications
Joint #1
(rotating)
Joint #3 Brake release switch
Fittings (white)
for ø6 mm
pneumatic tube
Arm #2
Arm #2
Joint #3
(Up/Down)
−
Shaft
+
Joint #4
(rotating)
User connector
(15-pin D-sub connector)
+
Base
Arm #1
MT label (only for special order)
Face plate (Manipulator serial No.)
Fittings (black)
for ø6 mm
pneumatic tube
Signal cable
Power cable
Fitting (black)
for ø4 mm
pneumatic tube
CE label
UR label
NOTE
)
- The brake release button affects only Joint #3. When the brake release button is pressed in
emergency mode, the brake for Joint #3 is released.
- While the LED lamp is on, the current is being applied to the manipulator. Performing any work
with the power ON is extremely hazardous and it may result in electric shock and/or improper
function of the robot system. Make sure to turn OFF the controller power before the maintenance
work.
G3 Rev.5 13
Setup & Operation 2. Specifications
(
)
(
)
or more
Space for cables
G3-251S G3-301S G3-351S
(*) indicates the stroke margin
by mechanical stop.
1 mm flat cut
Conical hole
Ø3,90°
Max.ø11 through hole
shaft diameter
mechanical stop diameter
Detail of “A”
Calibration point position of Joints #3 and #4
a 120 170 220
b Max.545 Max.575 Max.595
Reference through hole
View from the bottom of the base
14 G3 Rev.5
Cleanroom-model: G3-***C
The following figures show the additional parts and specifications for Cleanroom-model
(Table Top mounting) when compared with the Standard-model in appearance.
Upper bellows
Setup & Operation 2. Specifications
Plate cover
(For Anti-static)
Exhaust port
Lower bellows
Plate cover
(For Anti-static)
Cover
for Table Top mounting surface
G3 Rev.5 15
Setup & Operation 2. Specifications
(
)
or
more
Space for cables
G3-251C G3-301C G3-351C
(*) indicates the stroke margin by mechanical stop.
1 mm flat cut
Conical hole
Ø3,90°
Max.ø11 through hole
shaft diameter
mechanical stop diameter
Detail of “A”
a 120 170 220
b Max.545 Max.575 Max.595
Reference through hole
(View from the bottom of the base)
Calibration point position of Joints #3 and #4
16 G3 Rev.5
−
−
2.3.2 Multiple Mounting
Standard-model: G3-**1SM
Joint #3 Brake release switch
LED lamp
−
Setup & Operation 2. Specifications
Joint #2
(rotating)
+
Base
Arm #1
+
Joint #3
(Up/Down)
Fitting (white)
for ø6 mm
pneumatic tube
Fitting (black)
for ø4 mm
pneumatic tube
+
−
Fitting (black)
pneumatic tube
Arm #2
Shaft
+
User connector
(15-pin D-sub connector)
for ø6 mm
Joint #1
(rotating)
Power cable
Signal cable
Face plate (Manipulator serial No.)
MT label (only for special order)
UR label
CE label
NOTE
)
- The brake release button affects only Joint #3. When the brake release button is pressed in
emergency mode, the brake for Joint #3 is released.
- While the LED lamp is on, the current is being applied to the manipulator. Performing any work
with the power ON is extremely hazardous and it may result in electric shock and/or improper
function of the robot system. Make sure to turn OFF the controller power before the maintenance
work.
G3 Rev.5 17
Setup & Operation 2. Specifications
(
)
(
)
(*) indicates the stroke margin by mechanical stop.
1 mm flat cut
or more Space for cables
G3-301SM G3-351SM
a 170 220
b Max.410 Max.450
Conical hole
Ø3,90°
Calibration point position of Joints #3 and #4
Max.ø11 through hole
shaft diameter
mechanical stop diameter
Detail of “A”
Reference through hole
View from the bottom of the base
18 G3 Rev.5
Cleanroom-model: G3-**1CM
The following figures show the additional parts and specifications for Cleanroom-model
(Multiple Mounting) when compared with the Standard-model in appearance.
Upper bellows
Setup & Operation 2. Specifications
Exhaust port
Lower bellows
Plate cover
(For Anti-static)
G3 Rev.5 19
Setup & Operation 2. Specifications
(
)
(
)
1 mm flat cut
Conical hole
Ø3,90°
(*) indicates the stroke
margin by mechanical stop.
or more Space for cables
G3-301CM G3-351CM
a 170 220
b Max.410 Max.450
Max.ø11 through hole
shaft diameter
mechanical stop diameter
Reference through hole
View from the bottom of the base
Detail of “A”
Calibration point position of Joints #3 and #4
20 G3 Rev.5
Setup & Operation 2. Specifications
2.4 Specifications
Item G3 series Manipulator
Arm #1, #2 250 mm 300 mm 350 mm
Arm length
Max. operating
speed *1
Repeatability
Payload (Load)
Joint #4 allowable
moment of inertia *2
Resolution
Hand
Mounting hole
Weight (cables not included)
Driving method All joints AC servo motor
Motor
energy consumption
Option
Installation method
Installation environment
Joint #3 down force 150 N
Installed wire for customer use
Installed pneumatic
tube for customer use
Environmental
requirements
Noise level *4 L
Applicable Controller RC180, RC620
Assignable Value
( ) Default values
MTBF 3 years
Safety standard
Arm #1 120 mm 170 mm 220 mm
Arm #2 130 mm 130 mm 130 mm
Joints #1, #2 3550 mm/s 3950 mm/s 4350 mm/s
Joint #3 1100 mm/s
Joint #4 3000 deg/s
Joints #1, #2 ± 0.008 mm ± 0.01 mm ± 0.01 mm
Joint #3 ± 0.01 mm
Joint #4 ± 0.005 deg
Rated 1 kg
Max. 3 kg
Rated 0.005 kg·m2
2
Max. 0.05 kg·m
Joints #1
Joint #2
Joint #3
Joint #4
0.0000343323 deg/pulse
0.0000549316 deg/pulse
0.0000878906 mm/pulse
0.000240928 deg/pulse
Shaft diameter ø 16 mm
Through hole ø 11mm
Table top mounting 120 × 120 mm (4-M8)
Multiple mounting
Wall mounting : 174 × 70 mm (4-M8)
Ceiling mounting : 120 × 120 mm (4-M8) / custom specification
14 kg : 31 lb.
Joint #1
Joint #2
Joint #3
Joint #4
200 W
150 W
150 W
150 W
- Multiple Mounting
Cleanroom *3 & ESD
15 (15 pin: D-sub) 15 cores
2 pneumatic tubes (ø6 mm) : 0.59 Mpa (6 kgf/cm2 : 86 psi)
1 pneumatic tubes (ø4 mm) : 0.59 Mpa (6 kgf/cm
Ambient Temp. 5 to 40°C (with minimum temperature variation)
Ambient relative
humidity
10 to 80% (no condensation)
= 70 dB (A)
Aeq
SPEED 1 to (5) to100
ACCEL *5 1 to (10) to 120
SPEEDS 1 to (50) to 2000
ACCELS 1 to (200) to 25000
FINE 0 to (10000) to 65000
WEIGHT 0,130 to (1,130) 3,130
UL1740 (Third Edition, Dated December 7, 2007)
ANSI/RIA R15.06-1999, NFPA 79 (2007 Edition)
CSA/CAN Z434-03 (February 2003)
CE Marking − Machinery, Low Voltage, EMC Directive
2
: 86 psi)
G3 Rev.5 21
Setup & Operation 2. Specifications
Max. motion range (deg) (mm) / Max. pulse range (pulse)
Standard-model / Table Top Mounting
Item
Joint #1
Joint #2
Joint #1
Joint #2
Joint #3
Joint #4
Joint #1
Joint #2
Joint #1
Joint #2
Joint #3
Joint #4
Right hand
Left hand
Right hand
Left hand
± 2566827 ± 2585032
Right hand
Left hand
Right hand
Left hand
Max.
motion range
(deg), (mm)
Max.
pulse range
(pulse)
Straight
Curved
Common
Straight
Curved
Common
Standard-model / Multiple Mounting
Item
Joint #1
Joint #2
Joint #1
Joint #2
Joint #3
Joint #4
Joint #1
Joint #2
Joint #1
Joint #2
Joint #3
Joint #4
Right hand
Left hand
Right hand
Left hand
Right hand
Left hand
Right hand
Left hand
Max.
motion range
(deg), (mm)
Max.
pulse range
(pulse)
Straight
Curved
Common
Straight
Curved
Common
G3-251S G3-301S-* G3-351S-*
± 140
± 141 ± 142
-
-
-
-
− 125~150 − 110~165
− 150~125 − 165~110
− 135~150 − 120~165
− 150~135 − 165~120
150 mm
± 360
− 1456356~6699236
-
-
-
-
− 1019449~6990507 − 582543~7427414
− 1747627~6262329 − 2184534~5825423
− 2457600~2730667 − 2184534~3003734
− 2730667~2457600 − 3003734~2184534
−1706667~0
± 1494221
G3-301SM G3-351SM-*
± 115 ± 120
± 135 ± 142
-
-
-
-
− 105~130
− 130~105
− 120~160
− 160~120
150 mm
± 360
− 728178~5971058 − 873814~6116694
± 2457600 ± 2585032
-
-
-
-
− 436907~6407965
− 1165085~5679787
− 2184534~2912712
− 2912712~2184534
−1706667~0
± 1494221
22 G3 Rev.5
Cleanroom-model / Table Top Mounting
Item
Item
Joint #1
Joint #2
Joint #1
Joint #2
Joint #3
Joint #4
Joint #1
Joint #2
Joint #1
Joint #2
Joint #3
Joint #4
Joint #1
Joint #2
Joint #1
Joint #2
Joint #3
Joint #4
Joint #1
Joint #2
Joint #1
Joint #2
Joint #3
Joint #4
Right hand
Left hand
Right hand
Left hand
Right hand
Left hand
Right hand
Left hand
Right hand
Left hand
Right hand
Left hand
Right hand
Left hand
Right hand
Left hand
Straight
Max.
motion range
(deg), (mm)
Max.
pulse range
(pulse)
Cleanroom-model / Multiple Mounting
Max.
motion range
(deg), (mm)
Max.
pulse range
(pulse)
Curved
Common
Straight
Curved
Common
Straight
Curved
Common
Straight
Curved
Common
Setup & Operation 2. Specifications
G3-251C G3-301C-* G3-351C-*
± 140
± 137 ± 141 ± 142
-
-
-
-
− 125~150 − 110~165
− 150~125 − 165~110
− 135~145 − 120~160
− 145~135 − 160~120
120 mm
± 360
− 1456356~6699236
± 2494009 ± 2566827 ± 2585032
-
-
-
-
− 1019449~6990507 − 582543~7427414
− 1747627~6262329 − 2184534~5825423
− 2457600~2639645 − 2184534~2912712
− 2639645~2457600 − 2912712~2184534
−1365334~0
± 1494221
G3-301CM G3-351CM-*
± 115 ± 120
± 135 ± 142
-
-
-
-
− 105~130
− 130~105
− 120~150
− 150~120
120 mm
± 360
− 728178~5971058 − 873814~6116694
± 2457600 ± 2585032
-
-
-
-
− 436907~6407965
− 1165085~5679787
− 2184534~2730667
− 2730667~2187534
−1365334~0
± 1494221
G3 Rev.5 23
Setup & Operation 2. Specifications
*1: In the case of PTP command.
Maximum operating speed for CP command is 2000 mm/s on horizontal plane.
*2: In the case where the center of gravity is at the center of Joint #4.
If the center of gravity is not at the center of Joint #4, set the parameter using Inertia command.
*3: The exhaust system in the Cleanroom-model Manipulator draws air from the base interior and arm cover
interior together.
A crack or other opening in the base unit can cause loss of negative air pressure in the outer part of the
arm, which can cause increased dust emission.
Do not remove the maintenance cover on the front of the base.
Seal the exhaust port and the exhaust tube with vinyl tape so that the joint is airtight.
If the exhaust flow is not sufficient, dust particle emission may exceed the specified maximum level.
Cleanliness level : Class ISO 3 (ISO14644-1)
In previous criteria; Clean Class: 10 or its equivalent
Amount of Dust (0.1 µm diameter or larger) in 28317 cm
3
(1cft)
sample-air around the center of the motion rang: 10 particles or less.
Exhaust System : Exhaust port diameter : Inner diameter: ø12 mm / Outer diameter: ø16 mm
Exhaust tube : Polyurethane tube
Outer diameter: ø12 mm (Inner diameter:ø8 mm) or
Inner diameter ø16mm or larger
Recommended exhaust flow rate : approx. 1000 cm
3
/s (Normal)
*4: Conditions of Manipulator during measurement as follows:
Operating conditions : Under rated load, 4-joints simultaneous motion, maximum speed, maximum
acceleration, and duty 50%.
Measurement point : In front of the Manipulator, 1000 mm apart from the motion range, 50 mm above
the base-installed surface.
*5: In general use, Accel setting 100 is the optimum setting that maintains the balance of acceleration and
vibration when positioning.
However, you may require an operation with high acceleration to shorten the cycle time by decreasing the
vibration at positioning. In this case, set Accel to larger than 100.
If you specify a larger Accel value, the frequency of the overload error and over heat may rise during
continuous operation. The use of large Accel setting is recommended only for necessary motions.
24 G3 Rev.5
2.5 How to Set the Model
The Manipulator model for your system has been set before shipment from the factory. It
is normally not required to change the model when you receive your system.
■
When you need to change the setting of the Manipulator model, be sure to set the
Manipulator model properly. Improper setting of the Manipulator model may
CAUTION
NOTE
)
result in abnormal or no operation of the Manipulator and/or cause safety
problems.
If an MT label is attached to the rear of a Manipulator, the Manipulator has custom
specifications. The custom specifications may require a different configuration
procedure; check the custom specifications number described on the MT label and contact
us when necessary.
The Manipulator model can be set from software.
Refer to the chapter Robot Configuration in the EPSON RC+ User’s Guide.
Setup & Operation 2. Specifications
G3 Rev.5 25
Setup & Operation 3. Environments and Installation
3. Environments and Installation
3.1 Environmental Conditions
A suitable environment is necessary for the robot system to function properly and safely.
Be sure to install the robot system in an environment that meets the following conditions:
Item Conditions
Ambient temperature * 5 to 40°C (with minimum temperature variation)
Ambient relative humidity 10 to 80% (no condensation)
First transient burst noise 2 kV or less
Electrostatic noise 6 kV or less
Environment · Install indoors.
· Keep away from direct sunlight.
· Keep away from dust, oily smoke, salinity, metal
powder or other contaminants.
· Keep away from flammable or corrosive solvents
and gases.
· Keep away from water.
· Keep away from shocks or vibrations.
· Keep away from sources of electric noise.
NOTE
)
WARNING
Manipulators are not suitable for operation in harsh environments such as painting areas,
etc. When using Manipulators in inadequate environments that do not meet the above
conditions, please contact us.
* The ambient temperature conditions are for the Manipulators only. For the Controller
the Manipulators are connected to, refer to the Controller manual.
Special Environmental Conditions
The surface of the Manipulator has general oil resistance. However, if your
requirements specify that the Manipulator must withstand certain kinds of oil, please
consult your distributor.
Rapid change in temperature and humidity can cause condensation inside the
Manipulator.
If your requirements specify that the Manipulator handles food, please consult your
distributor to check whether the Manipulator gives damage to the food or not.
The Manipulator cannot be used in corrosive environments where acid or alkaline is
used. In a salty environment where the rust is likely to gather, the Manipulator is
susceptible to rust.
■
Use an earth leakage breaker on the AC power cable of the Controller to avoid
the electric shock and circuit breakdown caused by an unexpected water leak.
Prepare the earth leakage brake that pertains the controller you are using. For
details, refer to the controller manual.
26 G3 Rev.5
3.2 Base Table
A base table for anchoring the Manipulator is not supplied. Please make or obtain the
base table for your Manipulator. The shape and size of the base table differs depending
on the use of the robot system. For your reference, we list some Manipulator table
requirements here.
The torque and reaction force produced by the movement of the Manipulator are as
follows:
Setup & Operation 3. Environments and Installation
Max. Reaction torque on the horizontal plate : 300 Nm
Max. Horizontal reaction force : 2000 N
Max. Vertical reaction force : 1000 N
The threaded holes required for mounting the Manipulator base are M8. Use mounting
bolts with specifications conforming to ISO898-1 property class: 10.9 or 12.9.
For dimensions, refer to Setup & Operation: 3.3 Mounting Dimensions.
The plate for the Manipulator mounting face should be 20 mm thick or more and made of
steel to reduce vibration. The surface roughness of the steel plate should be 25 μm or
less.
The table must be secured on the floor or wall to prevent it from moving.
The Manipulator must be installed horizontally.
When using a leveler to adjust the height of the base table, use a screw with M16 diameter
or more.
If you are passing cables through the holes on the base table, see the figures below.
M/C Cables
Do not remove the M/C cables from the Manipulator.
47
26
Power Cable
Connector
[unit : mm]
53
18
Signal Cable
Connector
NOTE
)
WARNING
G3 Rev.5 27
For environmental conditions regarding space when placing the Controller on the base
table, refer to the Controller manual.
■
To ensure safety, a safeguard must be installed for the robot system.
For details on the safeguard, refer to the EPSON RC+ User’s Guide.
Setup & Operation 3. Environments and Installation
3.3 Mounting Dimensions
The maximum space described in figures shows that the radius of the end effector is 60
mm or less. If the radius of the end effector exceeds 60 mm, define the radius as the
distance to the outer edge of maximum space.
If a camera or electromagnetic valve extends outside of the arm, set the maximum range
including the space that they may reach.
Be sure to allow for the following extra spaces in addition to the space required for
mounting the Manipulator, Controller, and peripheral equipment.
space for teaching
space for maintenance and inspection
(Ensure a space to open the rear side cover and the maintenance cover for
maintenance.)
space for cables
The minimum bend radius of the power cable is 90 mm. When installing the cable, be
sure to maintain sufficient distance from obstacles. In addition, leave enough space for
other cables so that they are not bent forcibly.
Ensure distance to the safeguard from the maximum motion range is more than 100 mm.
28 G3 Rev.5
Setup & Operation 3. Environments and Installation
3.3.1 Table Top Mounting – Straight Arm
Base mounting face
Center of Joint#3
Maximum space
Motion range
Area limited by mechanical stop
G3-251S 141° 2.3° 84.0 150 9.6 6.7
G3-251C 137° 6.3°
G3-301S 142° 3.8° 104.8 150 9.6 6.7
G3-301C 141° 4.8°
G3-351S 142° 3.8° 142.3 150 9.6 6.7
G3-351C
a b c d e f g h j k
140° 2°
142° 3.8°
79.3
96.2
134.2
92.0
107.1
146.6
120 250 221.9 224.5 143.3°
170 300 260.2 263.9
220 350 298.5 303.3
q
145.8°
m n p
120 4.1 10.7
120 4.1 10.7
120 4.1 10.7
g Length of Arm #1 (mm) b Joint #1 angle to hit mechanical stop (degree)
h-g Length of Arm #2 (mm) d Joint #2 angle to hit mechanical stop (degree)
m Stroke of Joint #3 (mm) n Joint #3 range to hit lower mechanical stop (mm)
f Motion range p Joint #3 range to hit upper mechanical stop (mm)
a Motion range of Joint #1 (degree) j Range from center of axis to back end (mm)
c Motion range of Joint #2 (degree) k
Range from center of axis to back end after moved to
mechanical stop (mm)
e Mechanical stop area q Joint #2 motion range + angle to hit mechanical stop (degree)
G3 Rev.5 29
Setup & Operation 3. Environments and Installation
3.3.2 Table Top Mounting – Left-Curved Arm
Center of Joint#3
Motion range
Maximum space
Area limited
by mechanical stop
Base mounting face
G3-301S-L 150° 3.3°
G3-301C-L
G3-351S-L 165° 2.8° 100.3 183.0
G3-351C-L
a b c d e f g h j k
150° 3° 125° 6°
165° 5° 110° 4°
145° 8.3°
160° 7.8°
135° 79.5 86.8 113.2 120.7 170 300 277.2
120° 97.0
107.5 184.2
m
n p q
191.6 220 350 342.5
G3-301S-L 281.4 227.5 241.5
G3-301C-L 288.7 201.8 227.5
G3-351S-L 219.4
G3-351C-L
r s t u v w x y z
6.7 -
153.3° 138.3°
10.7
6.7
167.8° 123.8° 3.8°
10.7
3.8°
346.6 205.2
222.9
150 9.6
120 4.1
150 9.6
120 4.1
n Length of Arm #1 (mm) b, d Joint #1 angle to hit mechanical stop (degree)
p-n Length of Arm #2 (mm) f, z Joint #2 angle to hit mechanical stop (degree)
u Stroke of Joint #3 (mm) v Joint #3 range to hit lower mechanical stop (mm)
m, j Motion range w Joint #3 range to hit upper mechanical stop (mm)
a, c Motion range of Joint #1 (degree) q, s
e, g Motion range of Joint #2 (degree) r, t
Range from center of axis to back end (mm)
Range from center of axis to back end after moved to
mechanical stop (mm)
h, k Mechanical stop area x, y Joint #2 motion range + angle to hit mechanical stop (degree)
30 G3 Rev.5
Setup & Operation 3. Environments and Installation
3.3.3 Table Top Mounting – Right-Curved Arm
Center of Joint#3
Maximum space
Motion range
Area limited
by mechanical stop
Base mounting face
G3-301S-R 150°
G3-301C-R
G3-351S-R 165° 100.3 183.0
G3-351C-R
a b c d e f g h j k
125° 6° 150° 3° 135° 3.3°
110° 4° 165° 5° 120° 3.8°
145°
160°
79.5 86.8 113.2 120.7
97.0
107.5 184.2
m
191.6
G3-301S-R 227.5 241.5 281.4
G3-301C-R
G3-351S-R 219.4
G3-351C-R
n p q r s t u v w x y z
170 300
201.8 227.5
220 350 205.2
222.9
277.2
288.7
342.5 346.6
150 9.6
120 4.1
150 9.6
120 4.1
6.7 -
138.3° 153.3°
10.7
6.7 2.8°
123.8° 167.8°
10.7
8.3°
7.8°
n Length of Arm #1 (mm) b, d Joint #1 angle to hit mechanical stop (degree)
p-n Length of Arm #2 (mm) f, z Joint #2 angle to hit mechanical stop (degree)
u Stroke of Joint #3 (mm) v Joint #3 range to hit lower mechanical stop (mm)
m, j Motion range w Joint #3 range to hit upper mechanical stop (mm)
a, c Motion range of Joint #1 (degree) q, s
e, g Motion range of Joint #2 (degree) r, t
Range from center of axis to back end (mm)
Range from center of axis to back end after moved to
mechanical stop (mm)
h, k Mechanical stop area x, y Joint #2 motion range + angle to hit mechanical stop (degree)
G3 Rev.5 31
Setup & Operation 3. Environments and Installation
3.3.4 Multiple Mounting – Straight Arm
Center of Joint#3
Maximum space
Motion range
Area limited
by mechanical stop
Base mounting face
G3-301SM/CM 115° 135° 112.0 120.7 170 300 201.8 212.4 138.8°
G3-351SM/CM 120°
a b c d e f g h j k
4°
142°
3.8°
134.2 142.3 220 350 240.0 253.0 145.8°
q
G3-301SM
m n p
150 9.6
6.7
G3-301CM 120 4.1 10.7
G3-351SM
150 9.6
6.7
G3-351CM 120 4.1 10.7
g Length of Arm #1 (mm) b Joint #1 angle to hit mechanical stop (degree)
h-g Length of Arm #2 (mm) d Joint #2 angle to hit mechanical stop (degree)
m Stroke of Joint #3 (mm) n Joint #3 range to hit lower mechanical stop (mm)
f Motion range p Joint #3 range to hit upper mechanical stop (mm)
a Motion range of Joint #1 (degree) j Range from center of axis to back end (mm)
c Motion range of Joint #2 (degree) k
Range from center of axis to back end after moved to
mechanical stop (mm)
e Mechanical stop area q Joint #2 motion range + angle to hit mechanical stop (degree)
32 G3 Rev.5
Setup & Operation 3. Environments and Installation
3.3.5 Multiple Mounting – Left-Curved Arm
Center of Joint#3
Maximum space
Motion range
Area limited
by mechanical stop
Base mounting face
G3-351SM-L 3.3°
G3-351CM-L
a b c d e f g h j k
130°
2°
105° 5°
160° 2.8° 107.5
150° 12.8°
120° 103.3
125.6
183.0 191.9
m
G3-351SM-L 280.8
G3-351CM-L
n p q r s t x y z
220 350 271.4
277.2
186.9 205.2 162.8° 123.8° 3.8°
G3-351SM-L
G3-351CM-L
u v w
150 9.6
120 4.1
6.7
10.7
n Length of Arm #1 (mm) b, d Joint #1 angle to hit mechanical stop (degree)
p-n Length of Arm #2 (mm) f, z Joint #2 angle to hit mechanical stop (degree)
u Stroke of Joint #3 (mm) v Joint #3 range to hit lower mechanical stop (mm)
m, j Motion range w Joint #3 range to hit upper mechanical stop (mm)
a, c Motion range of Joint #1 (degree) q, s
e, g Motion range of Joint #2 (degree) r, t
Range from center of axis to back end (mm)
Range from center of axis to back end after moved to
mechanical stop (mm)
h, k Mechanical stop area x, y Joint #2 motion range + angle to hit mechanical stop (degree)
G3 Rev.5 33
Setup & Operation 3. Environments and Installation
3.3.6 Multiple Mounting – Right-Curved Arm
Center of Joint#3
Maximum space
Motion range
Area limited
by mechanical stop
Base mounting face
G3-351SM-R 3.3° 160° 107.5
G3-351CM-R
a b c d e f g h j k
105° 5° 130°
2°
120° 3.8°
150°
103.3
125.6
183.0 191.9
m
G3-351SM-R 280.8 2.8°
G3-351CM-R
N p q r s t x y z
220 350 186.9 205.2 271.4
277.2
123.8° 162.8°
12.8°
G3-351SM-R
G3-351CM-R
u v w
150 9.6
120 4.1
6.7
10.7
n Length of Arm #1 (mm) b, d Joint #1 angle to hit mechanical stop (degree)
p-n Length of Arm #2 (mm) f, z Joint #2 angle to hit mechanical stop (degree)
u Stroke of Joint #3 (mm) v Joint #3 range to hit lower mechanical stop (mm)
m, j Motion range w Joint #3 range to hit upper mechanical stop (mm)
a, c Motion range of Joint #1 (degree) q, s
e, g Motion range of Joint #2 (degree) r, t
Range from center of axis to back end (mm)
Range from center of axis to back end after moved to
mechanical stop (mm)
h, k Mechanical stop area x, y Joint #2 motion range + angle to hit mechanical stop (degree)
34 G3 Rev.5
Setup & Operation 3. Environments and Installation
3.4 Unpacking and Transportation
THE INSTALLATION SHALL BE PREFORMED BY QUALIFIED INSTALLATION
PERSONNEL AND SHOULD CONFORM TO ALL NATIONAL AND LOCAL
CODES.
■
Only authorized personnel should perform sling work and operate a crane and a
forklift. When these operations are performed by unauthorized personnel, it is
WARNING
extremely hazardous and may result in serious bodily injury and/or severe
equipment damage to the robot system.
■
Using a cart or similar equipment, transport the Manipulator in the same manner
as it was delivered.
■
After removing the bolts securing the Manipulator to the delivery equipment, the
Manipulator can fall. Be careful not to get hands or fingers caught.
■
The arm is secured with a wire tie. Leave the wire tie secured until you finish the
installation so as not to get hands or fingers caught.
CAUTION
■
To carry the Manipulator, have two or more people to work on it and secure the
Manipulator to the delivery equipment or hold the areas indicated in gray in the
figure (bottom of Arm #1 and bottom of the base) by hand.
When holding the bottom of the base by hand, be very careful not to get your
hands or fingers caught.
Multiple M ounting
G3-301*M : approx. 14 kg: 31 lb.
Table Top Mounting
G3-251* : approx. 14 kg: 31 lb.
G3-301* : approx. 14 kg: 31 lb.
G3-351* : approx. 14 kg: 31 lb.
■
Stabilize the Manipulator with your hands when hoisting it.
■
When transporting the Manipulator for a long distance, secure it to the delivery
G3-351*M : approx. 14 kg: 31 lb
equipment directly so that the Manipulator never falls.
If necessary, pack the Manipulator in the same style as it was delivered.
G3 Rev.5 35
Setup & Operation 3. Environments and Installation
3.5 Installation Procedure
■
The robot system must be installed to avoid interference with buildings,
structures, utilities, other machines and equipment that may create a trapping
hazard or pinch points.
The following sections describe the installation of the Standard Manipulator.
3.5.1 Table Top Mounting
3.5.2 Multiple Mounting
For Cleanroom-model manipulator, refer to this section;
3.5.3 Cleanroom-model
3.5.1 Table Top Mounting
■
Install the Table Top Mounting Manipulator with two or more people.
The Manipulator weights are as follows. Be careful not to get hands, fingers, or
feet caught and/or have equipment damaged by a fall of the Manipulator.
G3-251* : approx. 14 kg: 31 lb.
G3-301* : approx. 14 kg: 31 lb.
G3-351* : approx. 14 kg: 31 lb.
CAUTION
CAUTION
Standard-model
(1) Secure the base to the base table with
four bolts.
NOTE
)
(2) Using nippers, cut off the wire tie
(3) Remove the bolts securing the wire ties
Use bolts with specifications
conforming to ISO898-1 Property
Class: 10.9 or 12.9.
binding the shaft and arm retaining
bracket on the base.
removed in step (2).
Wire tie
10 mm
4-M8×30
Spring
Washer
Plane
Washer
Screw Hole
(depth 20 mm
or more)
Bolt
:M4×15
Sheet
36 G3 Rev.5
WARNING
Setup & Operation 3. Environments and Installation
3.5.2 Multiple Mounting
■
Install the Multiple Mounting Manipulator with two or more people.
The Manipulator weights are as follows. Be careful not to get hands, fingers, or
feet caught and/or have equipment damaged by a fall of the Manipulator.
G3-301*M : approx. 14 kg: 31 lb.
G3-351*M : approx. 14 kg: 31 lb.
■
When installing the Manipulator to the wall, support the Manipulator, and then
secure the anchor bolts. Removing the support without securing the anchor
bolts properly is extremely hazardous and may result in fall of the Manipulator.
NOTE
)
Design and make the base table for anchoring the Multiple Mounting Manipulators so that
it does not touch any cable connected to the base connector plate and duct.
The recommended installation patterns are as follows:
Side Ceiling
G3 Rev.5 37
Setup & Operation 3. Environments and Installation
Standard-model
(1)
Unpack the manipulator with retaining the
arm posture.
(2) Secure the base to the wall with four bolts.
NOTE
)
Use bolts with specifications conforming
to ISO898-1 Property Class: 10.9 or 12.9.
3.5.3 Cleanroom-model
(1) Unpack it outside of the clean room.
(2) Secure the Manipulator to delivery equipment such as a pallet with bolts so that the
Manipulator does not fall.
(3) Wipe off the dust on the Manipulator with a little alcohol or distilled water on a
lint-free cloth.
(4) Carry the Manipulator in the clean room.
(5) Refer to the installation procedure of each Manipulator model and install the
Manipulator.
Screw Hole
(depth 20 mm or more)
Plane Washer
Spring Washer
4-M8×30
(6) Connect an exhaust tube to the exhaust port.
■
When operating the Manipulator under special environmental conditions (adverse
conditions with dust and oily smoke), do not place the controller in the same
CAUTION
38 G3 Rev.5
condition since the controller does not comply with IP54 / IP65. Doing so may
cause equipment damage to and/or malfunction of the controller.
Setup & Operation 3. Environments and Installation
3.6 Connecting the Cables
■
To shut off power to the robot system, pull out the power plug from the power
source. Be sure to connect the AC power cable to a power receptacle. DO
NOT connect it directly to a factory power source.
■
Before performing any replacement procedure, turn OFF the Controller and related
equipment, and then pull out the power plug from the power source.
Performing any replacement procedure with the power ON is extremely hazardous
and may result in electric shock and/or malfunction of the robot system.
■
Be sure to connect the cables properly. Do not allow unnecessary strain on the
WARNING
CAUTION
When the Manipulator is a Cleanroom-model, be aware of the followings.
CAUTION
C able Connections
cables. (Do not put heavy objects on the cables. Do not bend or pull the cables
forcibly.) The unnecessary strain on the cables may result in damage to the
cables, disconnection, and/or contact failure. Damaged cables, disconnection,
or contact failure is extremely hazardous and may result in electric shock and/or
improper function of the robot system.
■
Grounding the manipulator is done by connecting with the controller. Ensure that
the controller is grounded and the cables are correctly connected. If the ground
wire is improperly connected to ground, it may result in the fire or electric shock.
■
When connecting the Manipulator to the Controller, make sure that the serial
numbers on each equipment match. Improper connection between the
Manipulator and Controller may not only cause improper function of the robot
system but also serious safety problems. The connection method varies with the
Controller used. For details on the connection, refer to the Controller manual.
If the G series Manipulator or E2 series Manipulator is connected to the Controller
for the PS series (ProSix), it may result in malfunction of the Manipulator.
For the Manipulator of Cleanroom-model, use it with an exhaust system.
For details, refer to Setup & Operation: 2.4 Specifications.
■
When operating the Manipulator under special environmental conditions (adverse
conditions with dust and oily smoke), do not place the controller in the same
condition since the controller does not comply with IP54 / IP65. Doing so may
cause equipment damage to and/or malfunction of the controller.
Connect the power connector and signal connector of
the M/C cables to the Controller.
Power Connector
Signal Connector
G3 Rev.5 39
Setup & Operation 3. Environments and Installation
3.7 User Wires and Pneumatic Tubes
■
Only authorized or certified personnel should be allowed to perform wiring.
CAUTION
Electrical Wires
Pneumatic Tubes
Wiring by unauthorized or uncertified personnel may result in bodily injury and/or
malfunction of the robot system.
User electrical wires and pneumatic tubes are contained in the cable unit.
Rated Voltage
Allowable
Current
Wires Nominal Sectional Area Note
AC/DC30 V 1 A 15 0.211 mm2 Twist pair
Maker Standard
15 pin
Suitable Connector JAE
Clamp Hood JAE
DA-15PF-N (Solder type)
DA-C8-J10-F2-1R (Connector setscrew: #4-40 NC)
Pins with the same number, indicated on the connectors on both ends of the cables, are
connected.
Max. Usable Pneumatic Pressure Pneumatic Tubes Outer Diameter × Inner Diameter
0.59 MPa (6 kgf/cm2 : 86 psi)
2
1
ø6 mm × ø4 mm
ø4 mm × ø2.5 mm
Fittings for ø6 mm and ø4 mm (outer diameter) pneumatic tubes are supplied on both ends
of the pneumatic tubes.
Common Parts
Brake release
button switch
15-pin D-sub connector
Fitting (black) for
ø4 mm pneumatic tube
Fitting (black) for
ø6 mm pneumatic tube
Fitting (white) for
ø6 mm pneumatic tube
40 G3 Rev.5
Setup & Operation 3. Environments and Installation
Table Top Mounting
Multiple Mounting
Fitting (white) for
ø6 mm pneumatic tube
Fitting (black) for
ø6 mm pneumatic tube
Fitting (white) for
ø6 mm pneumatic tube
Fitting (black) for
ø4 mm pneumatic tube
Fitting (black) for
ø6 mm pneumatic tube
Base back side
User connector
(15-pin D-sub connector)
Fitting (black)
for ø4 mm pneumatic tube
User connector
(15-pin D-sub connector)
Base upper side
G3 Rev.5 41
Setup & Operation 3. Environments and Installation
3.8 Relocation and Storage
3.8.1 Precautions for Relocation and Storage
Observe the following when relocating, storing, and transporting the Manipulators.
THE INSTALLATION SHALL BE PREFORMED BY QUALIFIED INSTALLATION
PERSONNEL AND SHOULD CONFORM TO ALL NATIONAL AND LOCAL
CODES.
■
Only authorized personnel should perform sling work and operate a crane and a
forklift. When these operations are performed by unauthorized personnel, it is
WARNING
extremely hazardous and may result in serious bodily injury and/or severe
equipment damage to the robot system.
■
Before relocating the Manipulator, fold the arm and secure it tightly with a wire tie
to prevent hands or fingers from being caught in the Manipulator.
■
When removing the anchor bolts, support the Manipulator to prevent falling.
Removing the anchor bolts without support may result in a fall of the Manipulator,
and then get hands, fingers, or feet caught.
CAUTION
■
To carry the Manipulator, have two or more people to work on it and secure the
Manipulator to the delivery equipment or hold the bottom of Arm #1, the bottom of
the main cable fitting, and the bottom of the base by hand. When holding the
bottom of the base by hand, be very careful not to get hands or fingers caught.
■
Stabilize the Manipulator with your hands when hoisting it. Unstable hoisting is
extremely hazardous and may result in fall of the Manipulator.
When transporting the Manipulator for a long distance, secure it to the delivery
equipment so that the Manipulator cannot fall.
If necessary, pack the Manipulator in the same way as it was delivered.
When the Manipulator is used for a robot system again after long-term storage,
perform a test run to verify that it works properly, and then operate it thoroughly.
Transport and store the Manipulator in the range of -25°C to +55°C.
Humidity within 10% to 90% is recommended.
When condensation occurs on the Manipulator during transport or storage, turn
ON the power only after the condensation dries.
Do not shock or shake the Manipulator during transport.
42 G3 Rev.5
CAUTION
Setup & Operation 3. Environments and Installation
3.8.2 Table Top Mounting
■
Install or relocate the Table Top Mounting Manipulator with two or more people.
The Manipulator weights are as follows. Be careful not to get hands, fingers, or
feet caught and/or have equipment damaged by a fall of the Manipulator.
G3-251* : approx. 14 kg: 31 lb.
G3-301* : approx. 14 kg: 31 lb.
G3-351* : approx. 14 kg: 31 lb.
(1) Turn OFF the power on all devices and unplug the cables.
NOTE
)
Remove the mechanical stops if using them to limit the motion range of Joints #1 and
#2. For details on the motion range, refer to Setup & Operation: 5.2 Motion Range
Setting by Mechanical Stops.
(2) Cover the arm with a sheet so that the arm will not be damaged.
Tie the lower end of the shaft and arm, and the base and arm together with the wire
tie.
Be careful not to tie them too tight. Otherwise, the shaft may bend.
Example of Arm Retaining Posture
Wire tie
Bolt
:M4
×15
Sheet
(3) Hold the bottom of Arm #1 by hand to unscrew the anchor bolts.
Then, remove the Manipulator from the base table.
G3 Rev.5 43
Setup & Operation 3. Environments and Installation
3.8.3 Multiple Mounting
■
Install or relocate the Multiple Mounting Manipulator with two or more people.
The Manipulator weights are as follows. Be careful not to get hands, fingers, or
feet caught and/or have equipment damaged by a fall of the Manipulator.
G3-301*M : approx. 14 kg: 31 lb.
WARNING
)
G3-351*M : approx. 14 kg: 31 lb.
■
When removing the Manipulator from the wall, support the Manipulator, and then
remove the anchor bolts. Removing the anchor bolts without supporting is
extremely hazardous and may result in fall of the Manipulator.
(1) Turn OFF the power on all devices and unplug the cables.
NOTE
Remove the mechanical stops if using them to limit the motion range of Joints #1 and
#2. For details on the motion range, refer to Setup & Operation: 5.2 Motion Range
Setting by Mechanical Stops.
(2) Cover the arm with a sheet so that the arm will not be damaged.
Refer to the figure below and bind the shaft and arm retaining bracket on the base.
Example of Arm
Retaining Posture
Wire tie
Sheet
(3) Hold the bottom of Arm #1 by hand to unscrew the anchor bolts. Then, remove the
Manipulator from the wall.
44 G3 Rev.5
t
4. Setting of End Effectors
4.1 Attaching an End Effector
Users are responsible for making their own end effector(s). Before attaching an end
effector, observe these guidelines.
■
If you use an end effector equipped with a gripper or chuck, connect wires and/or
pneumatic tubes properly so that the gripper does not release the work piece
when the power to the robot system is turned OFF. Improper connection of the
wires and/or pneumatic tubes may damage the robot system and/or work piece
CAUTION
as the work piece is released when the Emergency Stop switch is pressed.
I/O outputs are configured at the factory so that they are automatically shut off (0)
by power disconnection, the Emergency Stop switch, or the safety features of the
robot system.
Shaft
- Attach an end effector to the lower end of the shaft.
For the shaft dimensions, and the overall dimensions of the Manipulator, refer to Setup
& Operation: 2. Specifications.
Setup & Operation 4. Setting of End Effectors
- Do not move the upper limit mechanical stop on the lower side of the shaft.
Otherwise, when “Jump motion” is performed, the upper limit mechanical stop may hit
the Manipulator, and the robot system may not function properly.
- Use a split muff coupling with an M4 bolt or larger to attach the end effector to the
shaft.
Brake release button
- Joint #3 cannot be moved up/down by hand because
the electromagnetic brake is applied to the joint while
power to the robot system is turned OFF.
This prevents the shaft from hitting peripheral
equipment in the case that the shaft is lowered by the
weight of the end effector when the power is
disconnected during operation, or when the motor is
turned OFF even though the power is turned ON.
To move Joint #3 up/down while attaching an end
effector, turn ON the Controller and press the brake
release button.
This button switch is a momentary-type; the brake is released only while the button
switch is being pressed.
The shaft may be lowered by
the weight of the end effector.
Brake release button
- Be careful of the shaft while the brake release button is being pressed because the shaf
G3 Rev.5 45
may be lowered by the weight of the end effector.
Layouts
- When you operate the manipulator with an end effector, the end effector may interfere
with the Manipulator because of the outer diameter of the end effector, the size of the
work piece, or the position of the arms. When designing your system layout, pay
attention to the interference area of the end effector.
Setup & Operation 4. Setting of End Effectors
g
g
4.2 Attaching Cameras and Valves
Arm #2 has threaded holes as shown in the figure below. Use these holes for attaching
cameras, valves, and other equipment. [Unit: mm]
Common Dimensions
Table Top Mounting
face
From the base mountin
Multiple Mounting
From the reference hole
face
From the base mountin
46 G3 Rev.5
t
4.3 Weight and Inertia Settings
To ensure optimum Manipulator performance, it is important to make sure that the load
(weight of the end effector and work piece) and moment of inertia of the load are within
the maximum rating for the Manipulator, and that Joint #4 does not become eccentric.
If the load or moment of inertia exceeds the rating or if the load becomes eccentric, follow
the steps below, “4.3.1Weight Setting” and “4.3.2 Inertia Setting” to set parameters.
Setting parameters makes the PTP motion of the Manipulator optimal, reduces vibration to
shorten the operating time, and improves the capacity for larger loads. In addition, it
reduces persistent vibration produced when the moment of inertia of the end effector and
work piece is larger that the default setting.
CAUTION
4.3.1 Weight Setting
■
The total weight of the end effector and the work piece must not exceed 3 kg.
The G3 series Manipulators are not designed to work with loads exceeding 3 kg.
Always set the Weight parameters according to the load. Setting a value that is
smaller than the actual load may cause errors, excessive shock, insufficient
function of the Manipulator, and/or shorten the life cycle of parts/mechanisms.
Setup & Operation 4. Setting of End Effectors
The acceptable weight capacity (end effector and work piece) in G3 series is 1 kg at the
default rating and 3 kg at the maximum. When the load (weight of the end effector and
work piece) exceeds the rating, change the setting of Weight parameter.
After the setting is changed, the maximum acceleration/deceleration speed of the robot
system at PTP motion corresponding to the “Weight Parameter” is set automatically.
Load on the Shaft
The load (weight of the end effector and work piece) on the shaft can be set by Weight
parameter.
EPSON
RC+
Enter a value into the [Load inertia:] text box on the [Inertia] panel ([Tools] - [Robo
Manager]). (You may also execute the Inertia command from the [Command Window].)
Load on the Arm
When you attach a camera or other devices to the arm, calculate the weight as the
equivalent of the shaft. Then, add this to the load and enter the total weight to the Weight
parameter.
Equivalent Weight Formula
When you attach the equipment near Arm #2:
When you attach the equipment to the end of Arm #2:
W
: equivalent weight
M
M
: weight of camera etc.
L
: length of Arm #1
1
L
: length of Arm #2
2
L
: distance from rotation center of Joint #2 to center of gravity
M
= M (L1)2/(L1+L2)2
W
M
= M (LM)2/(L2)2
W
M
of camera etc.
G3 Rev.5 47
Setup & Operation 4. Setting of End Effectors
<Example> A “1 kg” camera is attached to the end of the G3 series arm (180 mm away
from the rotation center of Joint #2) with a load weight of “1 kg”.
M = 1
= 130
L
2
= 180
L
M
= 1 × 1802/1302 = 1.917 ⇒ 1.9 (round up)
W
M
W + W
= 1 + 1.9 = 2.9
M
Enter “2.9” for the Wei gh t P ar am e ter.
Automatic speed setting by Weight
(%)
140
120
100
80
Shaft
Weight of
camera
M=1kg
W=1kg
* The percentage in the graph
100
is based on the speed at
rated weight (1 kg) as 100%.
Joint #2
=130 mm
L
2
=180 mm
L
M
(%)
(%)
60
40
20
0 1 1.5 2 2.5 3 (kg)
Automatic acceleration/deceleration setting by Weight
140
110
120
100
80
100
90
80
60
40
20
0 1 1.5 2 2.5 3 (kg)
140
110
120
100
80
60
70
60
40
Weight setting
* The percentage in the graph is
based on the acceleration
/ deceleration at rated weight
(3 kg) as 100%.
G3-25***
Weight setting
* The percentage in the graph is
based on the acceleration
/ deceleration at rated weight
(3 kg) as 100%.
G3-30***
20
0 1 1.5 2 2.5 3 (kg)
Weight setting
48 G3 Rev.5
Setup & Operation 4. Setting of End Effectors
t
(%)
140
120
100
80
60
110
100
90
70
* The percentage in the graph is
based on the acceleration
/ deceleration at rated weight
(3 kg) as 100%.
G3-35***
40
20
CAUTION
EPSON
RC+
0 1 1.5 2 2.5 3 (kg)
Weight setting
4.3.2 Inertia Setting
Moment of Inertia and the Inertia Setting
The moment of inertia is defined as “the ratio of the torque applied to a rigid body and its
resistance to motion”. This value is typically referred to as “the moment of inertia”,
2
“inertia”, or “GD
end effector) attached to the shaft, the moment of inertia of load must be considered.
■
The moment of inertia of the load (weight of the end effector and work piece)
must be 0.05 kgwm
work with a moment of inertia exceeding 0.05 kgwm
Always set the moment of inertia parameter to the correct moment of inertia.
Setting a value that is smaller than the actual moment of inertia may cause
errors, excessive shock, insufficient function of the Manipulator, and/or shorten
the life cycle of parts/mechanisms.
The acceptable moment of inertia of load for a G3 series Manipulator is 0.005 kgwm2 at the
default rating and 0.05 kgwm
exceeds the rating, change the setting of the moment of inertia parameter of the Inertia
command. After the setting is changed, the maximum acceleration/deceleration speed of
Joint #4 at PTP motion corresponding to the “moment of inertia” value is set
automatically.
Moment of inertia of load on the shaft
The moment of inertia of load (weight of the end effector and work piece) on the shaft can
be set by the “moment of inertia” parameter of the Inertia command.
Enter a value into the [Load inertia:] text box on the [Inertia] panel ([Tools] - [Robo
Manager]). (You may also execute the Inertia command from the [Command Window].)
”. When the Manipulator operates with additional objects (such as an
2
or less. The G3 series Manipulators are not designed to
2
at the maximum. When the moment of inertia of the load
2
.
G3 Rev.5 49
Setup & Operation 4. Setting of End Effectors
Automatic acceleration/deceleration setting of Joint #4 by Inertia (moment of inertia)
(%)
120
100 100
100
80
80
CAUTION
60
50
40
30
(%)
20
0 0.005 0.01 0.02 0.03 0.04 0.05 (kg・m2) Moment of inertia setting
120
100
100
100
80
60
40
80
50
G3-35***
30
20
0 0.005 0.01 0.02 0.03 0.04 0.05 (kg・m2) Moment of inertia setting
Eccentric Quantity and the Inertia Setting
■
The eccentric quantity of load (weight of the end effector and work piece) must be
150 mm or less. The G3 series Manipulators are not designed to work with
eccentric quantity exceeding 150 mm.
Always set the eccentric quantity parameter according to the eccentric quantity.
Setting a value that is smaller than the actual eccentric quantity may cause
errors, excessive shock, insufficient function of the Manipulator, and/or shorten
the life cycle of parts/mechanisms.
The acceptable eccentric quantity of load in G3 series is 0 mm at the default rating and
150 mm at the maximum. When the eccentric quantity of load exceeds the rating, change
the setting of eccentric quantity parameter of Inertia command. After the setting is
changed, the maximum acceleration/deceleration speed of the Manipulator at PTP motion
corresponding to the “eccentric quantity” is set automatically.
Rotation center
Position of load’s center of gravity
Eccentric quantity (150 mm or less)
Eccentric Quantity
50 G3 Rev.5
Setup & Operation 4. Setting of End Effectors
Eccentric quantity of load on the shaft
The eccentric quantity of load (weight of the end effector and work piece) on the shaft can
be set by “eccentric quantity” parameter of Inertia command.
EPSON
RC+
Enter a value into the [Eccentricity:] text box on the [Inertia] panel ([Tools] - [Robot
Manager]). (You may also execute the Inertia command from the [Command Window].)
Automatic acceleration/deceleration setting by Inertia (eccentric quantity)
120
(%)
100
80
60
40
20
100
60
40
* The percentage in the graph is
based on the acceleration /
deceleration at rated eccentricity
(0 mm) as 100%.
20
0 50 100 150 (mm)
Eccentricity setting
Calculating the Moment of Inertia
Refer to the following examples of formulas to calculate the moment of inertia of load
(end effector with work piece).
The moment of inertia of the entire load is calculated by the sum of each part (a), (b), and
(c).
Joint #3 shaft
End effector (a)
Moment of inertia
+
of work piece (b)
Work piece (c)
Moment of inertia
+
of work piece (c)
Work piece (b)
Whole moment
of inertia
Moment of inertia
=
of end effector (a)
Rotation center
The methods for calculating the moment of inertia for (a), (b), and (c) are shown below.
Calculate the total moment of inertia using the basic formulas.
G3 Rev.5 51
Setup & Operation 4. Setting of End Effectors
(a) Moment of inertia of a rectangular parallelepiped
Rotation center
Rectangular parallelepiped’s center of gravity
Mass (m)
L
h
(b) Moment of inertia of a cylinder
Cylinder’s center of gravity
Rotation center
Mass (m)
(c) Moment of inertia of a sphere
Rotation center
b
r
L
Sphere’s center of gravity
2
+ h2
b
m+ m
12
2
r
m+ m
2
× L
2
× L
2
L
r
Mass (m)
2
2
5
+ m × L2
mr
52
G3 Rev.5
Setup & Operation 4. Setting of End Effectors
4.4 Precautions for Auto Acceleration/Deceleration of Joint #3
When you move the Manipulator in horizontal PTP motion with Joint #3 (Z) at a high
position, the motion time will be faster.
When Joint #3 gets below a certain point, then auto acceleration/deceleration is used to
reduce acceleration/deceleration. (Refer to the figure below.) The higher the position of
the shaft is, the faster the motion acceleration/deceleration is. However, it takes more
time to move Joint #3 up and down. Adjust the position of Joint #3 for the Manipulator
motion after considering the relation between the current position and the destination
position.
The upper limit of Joint #3 during horizontal motion using Jump command can be set by
the LimZ command.
Automatic acceleration/deceleration vs. Joint #3 position
(%)
120
100
80
60
40
100
100
* Figures on the graph (%) are
the proportion to the
acceleration/deceleration speed
at the shaft upper limit position.
30
G3-25***
G3-30***
NOTE
)
20
(%)
0 -30 -60 -90 -120 -150 (mm) Shaft height
120
100
80
100
100
* Figures on the graph (%) are
the proportion to the
acceleration/deceleration speed
60
at the shaft upper limit position.
60
G3-35***
40
20
0 -30 -60 -90 -120 -150 (mm) Shaft height
When moving the Manipulator horizontally while the shaft is being lowered, it may cause
over-shoot at the time of final positioning.
G3 Rev.5 53
Setup & Operation 5. Motion Range
5. Motion Range
■
When setting up the motion range for safety, both the pulse range and
CAUTION
mechanical stops must always be set at the same time.
The motion range is preset at the factory as explained in Setup & Operation: 5.4 Standard
Motion Range. That is the maximum motion range of the Manipulator.
There are three methods for setting the motion range described as follows:
1. Setting by pulse range (for all joints)
2. Setting by mechanical stops (for Joints #1 to #3)
3. Setting the Cartesian (rectangular) range in the X, Y coordinate system of the
Manipulator (for Joints #1 and #2)
Rectangular range setting
Mechanical
stop
When the motion range is changed due to layout efficiency or safety, follow the
descriptions in 5.1 to 5.3 to set the range.
Motion range
Pulse range
Mechanical
stop
5.1 Motion Range Setting by Pulse Range (for All Joints)
Pulses are the basic unit of Manipulator motion. The motion range of the Manipulator is
controlled by the pulse range between the pulse lower limit and upper limit of each joint.
Pulse values are read from the encoder output of the servo motor.
For the maximum pulse range, refer to the following sections.
The pulse range must be set inside of the mechanical stop range.
5.1.1 Max. Pulse Range of Joint #1
5.1.2 Max. Pulse Range of Joint #2
5.1.3 Max. Pulse Range of Joint #3
5.1.4 Max. Pulse Range of Joint #4.
54
NOTE
)
EPSON
RC+
Once the Manipulator receives an operating command, it checks whether the target
position specified by the command is within the pulse range before operating. If the
target position is out of the set pulse range, an error occurs and the Manipulator does not
move.
The pulse range can be set on the [Range] panel shown by selecting [Tools]-[Robot
Manager]. (You may also execute the Range command from the [Command Window].)
G3 Rev.5
Setup & Operation 5. Motion Range
5.1.1 Max. Pulse Range of Joint #1
The 0 (zero) pulse position of Joint #1 is the position where Arm #1 faces toward the
positive (+) direction on the X-coordinate axis.
When the 0 pulse is a starting point, the counterclockwise pulse value is defined as the
positive (+) and the clockwise pulse value is defined as the negative (-).
+Y
Table Top Mounting
A
Max. Motion Range
(deg.)
B
Max. Pulse Range
(pulse)
Multiple Mounting
A
Max. Motion Range
(deg.)
B
Max. Pulse Range
(pulse)
+ A
+ B
− A
+X 0 pulse
− B
Arm Standard -R -L
25
30
35
25
30
35
±140
−1456356 ~ 6699236
−1019449 ~ 6990507 −1747627 ~ 6262329
−582542 ~ 7427413 −2184533 ~ 5825422
− −
−125 ~ 150 −150 ~ 125
−110 ~ 165 −165 ~ 110
− −
Arm Standard -R -L
30
35
30
35
±115
±120
−728178 ~ 5971058
−873813 ~ 6116693 −436907 ~ 6407965 −1165085 ~ 5679787
− −
−105 ~ 130 −130 ~ 105
− −
G3 Rev.5 55
Setup & Operation 5. Motion Range
5.1.2 Max. Pulse Range of Joint #2
The 0 (zero) pulse position of Joint #2 is the position where Arm #2 is in-line with Arm #1.
With the 0 pulse as a starting point, the counterclockwise pulse value is defined as the
positive (+) and the clockwise pulse value is defined as the negative (-).
+ B
0 pulse
+ A
Table Top Mounting (S: Standard-model / C: Cleanroom-model)
Arm
A
Max. Motion
Range
(deg.)
B
Max. Pulse
Range
(pulse)
Table Top Mounting (S:
25
30
35
25
30
35
Standard-model / C: Cleanroom-model)
Standard
±141 / ±137
±142 / ±141
±142
−
2566827 ~ 2566827
/
−2494009 ~ 2494009
−
2585031 ~ 2585031
/
−2494009 ~ 2494009
2585031 ~ 2585031
−
−135 ~ 150 / −135 ~ 145 −150 ~ 135 / −145 ~ 135
−120 ~ 165 / −120 ~ 160 −165 ~ 120 / −160 ~ 120
−2457600 ~ 2730667
/
−2457600 ~ 2639645
−2184533 ~ 3003733
/
−2184533 ~ 2912711
− A
− B
-R -L
− −
− −
−2730667 ~ 2457600
/
−2639645 ~ 2457600
−3003733 ~ 2184533
/
−2912711 ~ 2184533
Max. Motion
Range
(deg.)
Max. Pulse
Range
(pulse)
56
A
B
Arm
30
35
30
35
Standard
±135
±142
2457600 ~ 2457600
−
2585031 ~ 2585031
−
−120 ~ 160 / −120 ~ 150 −160 ~ 120 / −150 ~ 120
−2184533 ~ 2912711
/
−2184533 ~ 2730667
-R -L
− −
− −
−2912711 ~ 2184533
/
−2730667 ~ 2184533
G3 Rev.5
Setup & Operation 5. Motion Range
5.1.3 Max. Pulse Range of Joint #3
The 0 (zero) pulse position of Joint #3 is the position where the shaft is at its upper limit.
The pulse value is always negative because Joint #3 always moves lower than the 0 pulse
position.
Upper limit: 0 pulse
NOTE
)
Model Joint #3 Stroke Lower Limit Pulse
G3-**1S* 150 mm −1706667
G3-**1C* (Cleanroom-model) 120 mm −1365334
For the
stop cannot be changed.
Cleanroom-model (G3-**1C*), the motion range set with the Joint #3 mechanical
5.1.4 Max. Pulse Range of Joint #4
The 0 (zero) pulse position of Joint #4 is the position where the flat near the end of the
shaft faces toward the end of Arm #2. With the 0 pulse as a starting point, the
counterclockwise pulse value is defined as the positive (+) and the clockwise pulse value
is defined as the negative (-).
+Y
Counterclockwise (+value)
+X 0 pulse ± 1494221 pulse
Clockwise (-value)
G3 Rev.5 57
Setup & Operation 5. Motion Range
5.2 Motion Range Setting by Mechanical Stops
Mechanical stops physically limit the absolute area that the Manipulator can move.
Both Joints #1 and #2 have threaded holes in the positions corresponding to the angle for
the mechanical stop settings. Install the bolts in the holes corresponding to the angle that
you want to set.
Joints #3 can be set to any length less than the maximum stroke.
Table Top Mounting
Mechanical stop of Joint #3
(Lower limit mechanical stop)
(Do not move the upper
limit mechanical stop.)
Mechanical stop of
Joint #2 (Adjustable)
Mechanical stop of
Joint #1 (Fixed)
Mechanical stop of Joint #2
(Fixed)
Mechanical stop of Joint #1
(Adjustable)
Multiple Mounting
Mechanical stop of Joint #1 (Adjustable)
Mechanical stop of Joint #1 (Fixed)
* The different mechanical stop positions from Table Top mounting are indicated for
Multiple mounting.
5.2.1 Setting the Mechanical Stops of Joints #1 and #2
58
Both Joints #1 and #2 have threaded holes in the positions corresponding to the angle for
the mechanical stop settings. Install the bolts in the holes corresponding to the angle that
you want to set.
Install the bolts for the mechanical stop of Joint #1 (adjustable) to the following position.
Table Top mounting : Arm bottom side
Multiple mounting : Arm top side
G3 Rev.5
Setup & Operation 5. Motion Range
Joint #1 Mechanical Stops
Setting Angle
Pulse Value
Setting Angle
Pulse Value
Setting Angle
Pulse Value
Setting Angle
Pulse Value
R L
Views from the bottom of Arm #1
Model Arm a b c
G3-**1S/C
250
300
350
300
±140°
±140°
±140°
-125°
~ +150° -105°
-110°
-110°
-110°
+110°
+110°
+110°
+130°
G3-**1S/C-R
350
300
~ +165° -90°
-150°
~ +125° -130°
+145°
+105°
-110°
G3-**1S/C-L
350
300
-165°
~ +110° -145°
±115°
-100°
+90°
+100°
G3-**1SM/CM
350
G3-351SM/CM-R 350
G3-351SM/CM-L 350
±120°
-105°
~ +130° -95°
-130°
~ +105° -120°
-105°
+105°
+120°
+95°
+90° +95° +100° +105° +110° +115° +120°
5242880 5388516 5534151 5679787 5825423 5971058 6116694
+125° +130° +140° +145° +150° +165°
6262329 6407965 6699236 6844872 6990507 7427414
-90° -95° -100° -105° -110° -115 -120°
0
-145636
-125° -130° -140° -145° -150°
-291271 -436907 -582542 -728178 -873813
+165°
-1019449 -1165085 -1456356 -1601991 -1747627 -2184533
(°: degree)
G3 Rev.5 59
Setup & Operation 5. Motion Range
Joint #2 Mechanical Stops
L
R
Views from the top of Arm #1
Model Arm a b c d
250
G3-**1S/C
G3-**1S/C-R
G3-**1S/C-L
G3-**1SM/CM
G3-351SM/CM-R 350
G3-351SM/CM-L 350
300
350
300
350
300
350
300
350
+141°
+142°
+142°
+150°
+165°
+135°
+120°
+135°
+142°
+160°
+120°
-141°
-142°
-142°
-135°
-120°
-150°
-165°
-135°
-142°
-120°
-160°
+120°
+120°
+120°
+130°
+145°
+115°
+100°
+115°
+120°
+150°
+110°
-120°
-120°
-120°
-115°
-100°
-130°
-145°
-115°
-120°
-110°
-150°
Setting Angle
Pulse Value
Setting Angle
Pulse Value
Setting Angle
Pulse Value
Setting Angle
Pulse Value
+100° +110° +115° +120° +130° +135°
1820444 2002488 2093511 2184533 2366577 2457600
+141° +142° +145° +150° +160° +165°
2566826 2585031 2639644 2730666 2912711 3003733
-100° -100° -115° -120° -130° -135°
-1820444 -2002488 -2093511 -2184533 -2366577 -2457600
-141° -142°
-2566826 -2585031 -2639644 -2730666 -2912711 -3003733
-145°
-150° -160° -165°
(°: degree)
NOTE
)
In case of Multiple Mounting, it is impossible to limit the operating range completely.
Because it may hit the wall within the setting range of mechanical stops.
60
G3 Rev.5
Setup & Operation 5. Motion Range
(1) Turn OFF the Controller.
(2) Install a hexagon socket head cap bolt into the hole corresponding to the setting angle,
(3) Turn ON the Controller.
(4) Set the pulse range corresponding to the new positions of the mechanical stops.
NOTE
)
Example: Using G3-251S*
EPSON
RC+
(5) Move the arm by hand until it touches the mechanical stops, and make sure that the
and tighten it.
Joint
Be sure to set the pulse range inside the positions of the mechanical stop range.
Execute the following commands from the [Command Window].
>JRANGE 1,-582542,5825423 ' the pulse range of Joint #1
>JRANGE 2,-2184533,2184533 ' Sets the pulse range of Joint #2
>RANGE ' Checks the setting using Range
-582542, 5825423,-2184533,2184533,-1706667
,0, -1494221, 1494221
arm does not hit any peripheral equipment during operation.
Hexagon socket head cap
bolt (fully threaded)
1
The angle of Joint #1 is set from –110 degrees to +110 degrees.
The angle of Joint #2 is set from -120 degrees to +120 degrees.
M8 × 10
The number
of bolts
1 bolt /
one side
Recommended
tightening torque
3720 N⋅cm (380 kgf⋅cm)
(6) Operate the joint changed at low speeds until it reaches the positions of the minimum
and maximum pulse range. Make sure that the arm does not hit the mechanical
stops. (Check the position of the mechanical stop and the motion range you set.)
Example: Using G3-251S*
The angle of Joint #1 is set from -110 degrees to +110 degrees.
EPSON
RC+
The Pulse command (Go Pulse command) moves all joints to the specified positions at
Execute the following commands from the [Command Window].
>MOTOR ON ' Turns ON the motor
>CP ON ' Enters low-power mode
>SPEED 5 ' Sets at low speeds
>PULSE -582542,0,0,0 ' Moves to the min. pulse position of Joint #1
>PULSE 5825423,0,0,0 ' Moves to the max. pulse position of Joint #1
>PULSE 2621440,- 2184533,0,0 ' Moves to the min. pulse position of Joint #2
>PULSE 2621440,2184533,0,0 ' Moves to the max. pulse position of Joint #2
the same time. Specify safe positions after considering motion of not only the joints
whose pulse range have been changed, but also other joints.
In this example, Joint #1 is moved to the center of its motion range (pulse value:
2621440) when checking Joint #2.
The angle of Joint #2 is set from -120 degrees to +120 degrees.
If the arm is hitting the mechanical stops or if an error occurs after the arm hits the
mechanical stops, either reset the pulse range to a narrower setting or extend the
positions of the mechanical stops within the limit.
G3 Rev.5 61
Setup & Operation 5. Motion Range
f
5.2.2 Setting the Mechanical Stop of Joint #3
NOTE
)
(1) Turn ON the Controller and turn OFF the motors using the Motor OFF command.
This method applies only to the Standard-model Manipulator (G3-**1S*) / Multiple
Mounting Manipulator (G3-**1SM).
For the
stop cannot be changed.
Cleanroom-model (G3-**1C*), the motion range set with the Joint #3 mechanical
(2) Push up the shaft while pressing the brake
release button.
Do not push the shaft up to its upper limit or it
will be difficult for the arm top cover to be
removed. Push the shaft up to a position
where the Joint #3 mechanical stop can be
changed.
NOTE
(3) Turn OFF the Controller.
(4) Loosen the lower limit mechanical stop screw (M3×10).
A mechanical stop is mounted on both the top and bottom of Joint #3. However, only
(5) The upper end of the shaft defines the maximum
When you press the brake release button, the shaft may lower due to the weight of the
)
NOTE
)
end effector. Be sure to hold the shaft by hand while pressing the button.
the position of the lower limit mechanical stop on the top can be changed. Do not
remove the upper limit mechanical stop on the bottom because the calibration point o
Joint #3 is specified using the stop.
stroke. Move the lower limit mechanical stop
down by the length you want to limit the stroke.
For example, when the lower limit mechanical
stop is set at “150 mm” stroke, the lower limit Z
coordinate value is “-150”. To change the
value to “-130”, move the lower limit
mechanical stop down “20 mm”. Use calipers
to measure the distance when adjusting the
mechanical stop.
Measure
this distance.
Brake release button
Lower limit
mechanical
stop screw
M3×10
Shaft
62
(6) Firmly tighten the lower limit mechanical stop screw (M3×10) not to let it enter the
shaft groove.
Recommended tightening torque: 245 N⋅cm (25 kgf⋅cm)
(7) Turn ON the Controller.
G3 Rev.5
Setup & Operation 5. Motion Range
k
j
m
(8) Move Joint #3 to its lower limit while pressing the brake release button, and then chec
the lower limit position. Do not lower the mechanical stop too far. Otherwise, the
oint may not reach a target position.
(9) Calculate the lower limit pulse value of the pulse range using the formula shown below
and set the value.
The result of the calculation is always negative because the lower limit Z coordinate
value is negative.
** For the Joint #3 resolution,
EPSON
RC+
(10)Using the Pulse command (Go Pulse command), move Joint #3 to the lower limit
NOTE
If it is difficult to check whether Joint #3 hits a mechanical stop, turn OFF the
)
EPSON
RC+
Lower limit of pulse (pulse)
= lower limit Z coordinate value (mm) / Resolution (
refer to the section Setup & Operation 2.4 Specifications.
Execute the following command from the [Command Window]. Enter the
calculated value in X.
>JRANGE 3,X
position of the pulse range at low speed. If the mechanical stop range is less than
the pulse range, Joint #3 will hit the mechanical stop and an error will occur. When
the error occurs, either change the pulse range to a lower setting or extend the position
of the mechanical stop within the limit.
Controller and lift the arm top cover to check the condition causing the problem fro
the side.
Execute the following commands from the [Command Window]. Enter the value
calculated in Step (10) in X
>MOTOR ON ' Turns ON the motor
>SPEED 5 ' Sets low speed
>PULSE 0,0,X
,0 ' Moves to the lower limit-pulse position of Joint #3.
,0 ' Sets the pulse range of Joint #3
.
(In this example, all pulses except those for Joint #3 are “0”.
Substitute these “0s” with the other pulse values specifying a
position where there is no interference even when lowering
Joint #3.)
mm/pulse)
G3 Rev.5 63
Setup & Operation 5. Motion Range
t
5.3 Setting the Cartesian (Rectangular) Range in the XY
Coordinate System of the Manipulator (for Joints #1 and #2)
Use this method to set the upper and lower limits of the X and Y coordinates.
This setting is only enforced by software. Therefore, it does not change the physical
range. The maximum physical range is based on the position of the mechanical stops.
EPSON
RC+
Set the XYLim setting on the [XYZ Limits] panel shown by selecting [Tools]-[Robo
Manager].
(You may also execute the XYLim command from the [Command Window].)
5.4 Standard Motion Range
The following “motion range” diagrams show the standard (maximum) specification.
When each Joint motor is under servo control, the center of Joint #3’s (shaft’s) lowest
point moves in the areas shown in the figure.
“Area limited by mechanical stop” is the area where the center of Joint #3’s lowest point
can be moved when each joint motor is not under servo control.
“Mechanical stop” sets the limited motion range so that the center of Joint #3 cannot move
beyond the area mechanically.
“Maximum space” is the area that contains the farthest reach of the arms. If the
maximum radius of the end effector is over 60 mm, add the “Area limited by mechanical
stop” and “radius of the end effector”. The total value is specified as the maximum area.
For the motion area figures, refer to Setup & Operation 3.3 Mounting Dimensions.
64
G3 Rev.5
Maintenance
This volume contains maintenance procedures with safety
precautions for G3 series Manipulators.
66
1. Safety Maintenance
Please read this chapter, this manual, and other relevant manuals carefully to understand
safe maintenance procedures before performing any routine maintenance.
Only authorized personnel who have taken safety training should be allowed to
maintain the robot system.
Safety training is the program for industrial robot operators that follows the laws
and regulations of each nation.
The personnel who have taken safety training acquire knowledge of industrial
robots (operations, teaching, etc.), knowledge of inspections, and knowledge of
related rules/regulations.
The personnel who have completed the robot system-training and maintenancetraining classes held by the manufacturer, dealer, or locally-incorporated
company are allowed to maintain the robot system.
Do not remove any parts that are not covered in this manual. Follow the
■
maintenance procedure strictly as described in this manual. Improper removal
of parts or improper maintenance may not only cause improper function of the
robot system but also serious safety problems.
Maintenance 1. Safety Maintenance
WARNING
WARNING
■
Keep away from the Manipulator while the power is ON if you have not taken the
training courses. Do not enter the operating area while the power is ON.
Entering the operating area with the power ON is extremely hazardous and may
cause serious safety problems as the Manipulator may move even it seems to be
stopped.
■
When you check the operation of the Manipulator after replacing parts, be sure to
check it while you are outside of the safeguarded area. Checking the operation
of the Manipulator while you are inside of the safeguarded area may cause
serious safety problems as the Manipulator may move unexpectedly.
■
Before operating the robot system, make sure that both the Emergency Stop
switches and safeguard switch function properly. Operating the robot system
when the switches do not function properly is extremely hazardous and may
result in serious bodily injury and/or serious damage to the robot system as the
switches cannot fulfill their intended functions in an emergency.
■
To shut off power to the robot system, pull out the power plug from the power
source. Be sure to connect the AC power cable to a power receptacle. DO
NOT connect it directly to a factory power source.
■
Before performing any replacement procedure, turn OFF the Controller and
related equipment, and then pull out the power plug from the power source.
Performing any replacement procedure with the power ON is extremely
hazardous and may result in electric shock and/or malfunction of the robot
system.
G3 Rev.5 67
Maintenance 1. Safety Maintenance
Be sure to connect the cables properly. Do not allow unnecessary strain on the
■
cables. (Do not put heavy objects on the cables. Do not bend or pull the cables
forcibly.) The unnecessary strain on the cables may result in damage to the
CAUTION
cables, disconnection, and/or contact failure. Damaged cables, disconnection,
or contact failure is extremely hazardous and may result in electric shock and/or
improper function of the robot system.
2. General Maintenance
This chapter describes maintenance inspections and procedures. Performing maintenance
inspections and procedures properly is essential for preventing trouble and ensuring safety.
Be sure to perform the maintenance inspections in accordance with the schedule.
2.1 Schedule for Maintenance Inspection
Inspection points are divided into five stages: daily, monthly, quarterly, biannual, and
annual. The inspection points are added every stage.
If the Manipulator is operated for 250 hours or longer per month, the inspection points
must be added every 250 hours, 750 hours, 1500 hours, and 3000 hours operation.
1 month (250 h) √
2 months (500 h) √
3 months (750 h) √ √
4 months (1000 h) √
5 months (1250 h) √
6 months (1500 h) √ √ √
7 months (1750 h) √
8 months (2000 h) √
9 months (2250 h) √ √
10 months (2500 h) √
11 months (2750 h) √
12 months (3000 h) √ √ √ √
13 months (3250 h)
…
Daily
inspection
Inspect every day
…
Monthly
inspection
√
…
Inspection Point
Quarterly
inspection
…
Biannual
inspection
…
Annual
inspection
…
h = hour
68 G3 Rev.5
2.2 Inspection Point
2.2.1 Inspection While the Power is OFF (Manipulator is not operating)
Inspection Point Inspection Place Daily Monthly Quarterly Biannual Annual
Maintenance 2. General Maintenance
Check looseness or backlash of
bolts/screws.
Tighten them if necessary.
(For the tightening torque, refer to
Maintenance: 2.4 Tightening
Hexagon Socket Head Cap Bolts.)
Check looseness of connectors.
If the connectors are loosen, push it
securely or tighten.
Visually check for external defects.
Clean up if necessary.
Check for bends or improper
location. Repair or place it properly
if necessary.
Check tension of timing belts.
Tighten it if necessary.
Grease conditions Refer to Maintenance: 2.3 Greasing.
End effector mounting bolts √ √ √ √ √
Manipulator mounting bolts √ √ √ √ √
Each arm locking bolts √ √ √ √ √
Bolts/screws around shaft √
Bolts/screws securing motors,
reduction gear units, etc.
External connectors on
Manipulator (on the connector
plates etc.)
Manipulator cable unit √ √ √ √
External appearance of
Manipulator
External cables √ √ √ √
Safeguard etc. √ √ √ √ √
Inside of Arm #2 √ √
√ √ √ √ √
√ √ √ √ √
2.2.2 Inspection While the Power is ON (Manipulator is operating)
√
Inspection Point Inspection Place Daily Monthly Quarterly Biannual Annual
Check motion range Each joint √
Move the cables back and forth
lightly to check whether the cables
are disconnected.
Push each arm in MOTOR ON
status to check whether backlash
exists.
Check whether unusual sound or
vibration occurs.
Measure the accuracy repeatedly by
a gauge.
External cables
(including cable unit of the
Manipulator)
Each arm √
Whole √ √ √ √ √
Whole √
√ √
G3 Rev.5 69
Maintenance 2. General Maintenance
2.3 Greasing
The ball screw spline and reduction gear units need greasing regularly. Only use the
grease specified in the following table.
■
Keep enough grease in the Manipulator. Operating the Manipulator with
insufficient grease will damage sliding parts and/or result in insufficient function of
CAUTION
Greasing part Greasing Interval Grease Refer to:
the Manipulator. Once the parts are damaged, a lot of time and money will be
required for the repairs.
Joint #3 Ball screw spline shaft
Joint #1
Joint #2
* Under normal conditions, the reduction gear units shall be greased only when the motor is replaced. However, in
Reduction gear units In the replacement of motor* SK-1A
case of severe working conditions (such as high duty, high speeds, large payloads, etc.), the reduction gear units
must be greased every 10,000 hours.
First time: after 50 km operation
2nd or more: after 100 km operation
Maintenance: 11.1 Greasing the Ball
AFB
Screw Spline Unit
Maintenance:
5.2 Replacing the Joint #1 Reduction
Gear Unit
6.2 Replacing the Joint #2 Reduction
Gear Unit
■
If grease gets into your eyes, mouth, or on your skin, follow the instructions
below.
If grease gets into your eyes
: Flush them thoroughly with clean water, and then see a doctor
immediately.
If grease gets into your mouth
CAUTION
: If swallowed, do not induce vomiting. See a doctor immediately.
: If grease just gets into your mouth, wash out your mouth with water
thoroughly.
If grease gets on your skin
: Wash the area thoroughly with soap and water.
70 G3 Rev.5
Maintenance 2. General Maintenance
a
2.4 Tightening Hexagon Socket Head Cap Bolts
Hexagon socket head cap bolts are used in places where mechanical strength is required.
(A hexagon socket head cap bolt will be called a “bolt” in this manual.) These bolts are
fastened with the tightening torques shown in the following table.
When it is necessary to refasten these bolts in some procedures in this manual (except
special cases as noted), use a torque wrench so that the bolts are fastened with the
appropriate tightening torques as shown below.
Tightening Torque
Bolt
Refer below for the set screw.
M3 245 N⋅cm (25 kgf⋅cm)
M4 490 N⋅cm (50 kgf⋅cm) M4 245 N⋅cm (25 kgf⋅cm)
M5 980 N⋅cm (100 kgf⋅cm) M5 392 N⋅cm (40 kgf⋅cm)
M6 1,760 N⋅cm (180 kgf⋅cm)
M8 3,720 N⋅cm (380 kgf⋅cm)
M10 7,350 N⋅cm (750 kgf⋅cm)
M12 12,740 N⋅cm (1,300 kgf⋅cm)
Set Screw Tightening Torque
We recommend that the bolts aligned on a circumference should be fastened in a crisscross
pattern as shown in the figure below.
5
Bolt hole
3 4
1
8
Do not fasten all bolts securely at one time.
Divide the number of times that the bolts are
fastened into two or three and fasten the bolts
securely with a hexagonal wrench. Then, use
torque wrench so that the bolts are fastened with
tightening torques shown in the table above.
7
2
6
2.5 Matching Origins
After parts have been replaced (motors, reduction gear units, a brake, timing belts, a ball
screw spline unit, etc.), the Manipulator cannot operate properly because a mismatch
exists between the origin stored in each motor and its corresponding origin stored in the
Controller. After replacing the parts, it is necessary to match these origins.
For calibration, the pulse values for a specific position must be recorded in advance.
Before replacing parts, select easy point (pose) data from the registered point data to check
the accuracy. Then, follow the steps below to display the pulse values and record them.
EPSON
RC+
G3 Rev.5 71
Execute the following command from the [Command Window].
>PULSE
PULSE: [Joint #1 Pulse value] pls [Joint #2 Pulse value] pls [Joint #3 Pulse value]
pls [Joint #4 Pulse value] pls
Maintenance 2. General Maintenance
2.6 Layout of Maintenance Parts
2.6.1 Table Top Mounting
G3-**1S : Standard-model
LED lamp
Ball screw spline unit
Brake release button switch
Cable unit
Arm cover
Joint #4 motor
Z belt
U1 belt
Joint #3
motor
Joint #2 motor
Joint #2 reduction gear unit
U2 belt
Joint #1
reduction
gear unit
Joint #1 motor
G3-**1C : Cleanroom-model (with bellows)
Bellows
Lithium battery &
Battery board
Joint #3
motor
Power cable
Signal cable
Joint #3 brake
(Figure: G3-301S)
Gasket
Gasket
Bellows
Heat release sheet
(Figure: G3-301C)
72 G3 Rev.5
Maintenance 2. General Maintenance
y
2.6.2 Multiple Mounting
G3-**1SM : Standard-model
Ball screw
spline unit
Arm cover
Joint #4
motor
Z belt
U1 belt
LED lamp
U2 belt
Brake release switch
Joint #3
motor
Joint #2
Joint #2
reduction
gear
motor
Cable unit
Power cable
Signal cable
Joint #1
motor
Joint #1
reduction
gear
Lithium batter
Battery board
Joint #3
motor
&
Joint #3 brake
(Figure: G3-301SM)
G3-**1CM : Cleanroom-model (with bellows)
Bellows
Gasket
Gasket
Bellows
Heat release sheet
(Figure: G3-301CM)
G3 Rev.5 73
Maintenance 3. Covers
3. Covers
All procedures for removing and installing covers in maintenance are described in this
chapter.
■
Do not insert or pull out the motor connectors while the power to the robot system
is turned ON. Inserting or pulling out the motor connectors with the power ON is
extremely hazardous and may result in serious bodily injury as the Manipulator
may move abnormally, and also may result in electric shock and/or malfunction of
the robot system.
■
To shut off power to the robot system, pull out the power plug from the power
source. Be sure to connect the AC power cable to a power receptacle. DO NOT
connect it directly to a factory power source.
■
Before performing any replacement procedure, turn OFF the Controller and related
WARNING
Maintenance Parts and Tools
equipment, and then pull out the power plug from the power source.
Performing any replacement procedure with the power ON is extremely hazardous
and may result in electric shock and/or malfunction of the robot system.
■
Be careful not to get any foreign substances in the Manipulator, connectors, and
pins during maintenance. Turning ON the power to the robot system when any
foreign substances exist in them is extremely hazardous and may result in electric
shock and/or malfunction of the robot system.
Maintenance
parts
Tools
Name Quantity Note
Under cover gasket 1
Silicon adhesive
(for the gasket on the
Connector Plate)
Hexagonal wrench
(width across flats: 3 mm)
Torque wrench 1
Cross-point screwdriver 1
Wiping cloth 1 For wiping adhesive
R13B031226
1
R13B031227
1 For M4 screw
For M4 truss screw
For bellows removal (Only for Cleanroom-model)
Only for Cleanroom-model
Only for Cleanroom-model
74 G3 Rev.5
Maintenance 3. Covers
Table Top Mounting Multiple Mounting
Connector plate
Arm top cover
Arm
bottom cover
Connector
sub plate
Arm cap
Connector
plate
Connector
sub plate
Heatsink plate
Arm top cover
Arm bottom cover
Base bottom cover
Heatsink plate
G3 Rev.5 75
Maintenance 3. Covers
b
3.1 Arm Top Cover
■
Do not remove the arm top cover forcibly. Removing the cover forcibly may
result in damage to the cables, disconnection, and/or contact failure. Damaged
cables, disconnection, or contact failure is extremely hazardous and may result in
electric shock and/or improper function of the robot system.
■
When installing the cover, be careful not to allow the cables to interfere with the
cover mounting and do not bend these cables forcibly to push them into the
CAUTION
Arm Top Cover
Removal
cover. Unnecessary strain on cables may result in damage to the cables,
disconnection, and/or contact failure. Damaged cables, disconnection, or
contact failure is extremely hazardous and may result in electric shock and/or
improper function of the robot system.
When routing the cables, observe the cable locations after removing the cover.
Be sure to place the cables back to their original locations.
(1) Turn ON the Controller.
(2) Press and hold the brake release button switch to let the shaft down. Be sure to keep
enough space and prevent the end effector hitting any peripheral equipment.
NOTE
)
(3) Turn OFF the Controller.
(4) Unscrew the arm top cover mounting bolts, and
NOTE
)
The brake release button switch affects only Joint #3. When the brake release button
switch is pressed, the brake for Joint #3 is released simultaneously.
Be careful of the shaft while the brake release button switch is being pushed
may be lowered by the weight of an end effector.
then lift the cover.
When bellows are installed to the manipulator,
remove the upper bellows and then remove the
arm top cover. For bellows removal, refer to
Maintenance 10. Bellows.
Be careful for user wires and tubes when
removing the cover.
ecause it
4-M4×12
4-M4×8
Truss
Arm top cover
76 G3 Rev.5
d
d
Arm Top Cover
Installation
(1) Set the arm top cover to the arm and secure with
the arm top cover mounting bolts.
After mounting the arm top cover, make sure
that the lower limit mechanical stop does not
touch the cylindrical part of the arm top cover.
Maintenance 3. Covers
Brake release switch
Lower limit
mechanical stop
Arm top cover
Cylindrical part
Shaft
(2) When bellows are installed to the manipulator, install the arm top cover and then
install the upper bellows.
For bellows installation, refer to Maintenance10. Bellows.
3.2 Arm Bottom Cover
Unscrew the arm bottom cover mounting bolts, and then pull the cover downward and
remove it.
NOTE
)
The arm bottom cover may not be removed from the shaft because the end effector is
installed.
If it is necessary to remove the cover completely (for replacement of the ball screw spline
unit etc.), remove the end effector.
If it is not necessary to remove the cover completely, move the shaft to the lower limit, an
lower the arm bottom cover. Then, perform maintenance or inspection.
When bellows are installed to the manipulator, remove or pull down the lower bellows an
then remove the arm bottom cover. For bellows removal, refer to Maintenance 10.
Bellows.
G3-**1S* (Standard-model) G3-**1C* (Cleanroom-model)
3-M4×12
Arm bottom cover
A gasket is installed to G3-**1C* (Cleanroom-model).
G3 Rev.5 77
Gasket
Arm bottom cover
3-M4×12
Maintenance 3. Covers
3.3 Arm Cap
Unscrew the arm cap mounting bolts and remove the cover.
Arm cap is not installed to the Multiple Mounting Manipulators.
G3-**1 Table Top Mounting
M4×8
Flat washer
Arm cap
3.4 Connector Plate
■
Do not remove the connector plate forcibly. Removing the connector plate
forcibly may result in damage to the cables, disconnection, and/or contact failure.
Damaged cables, disconnection, or contact failure is extremely hazardous and
may result in electric shock and/or improper function of the robot system.
■
When installing the connector plate, be careful not to allow the cables to interfere
with the plate mounting and do not bend these cables forcibly to push them into
CAUTION
the cover.
Unnecessary strain on cables may result in damage to the cables, disconnection,
and/or contact failure. Damaged cables, disconnection, or contact failure is
extremely hazardous and may result in electric shock and/or improper function of
the robot system.
When routing the cables, observe the cable locations after removing the
connector plate. Be sure to place the cables back to their original locations.
Unscrew the connector plate mounting bolts and remove the plate.
G3-**1* Table Top Mounting G3-**1*M Multiple Mounting
Truss:
4-M4×8
Connector plate
Truss:
4-M4×8
Connector plate
78 G3 Rev.5
Maintenance 3. Covers
3.5 Connector Sub Plate
■
Do not remove the connector sub plate forcibly. Removing the connector sub
plate forcibly may result in damage to the cables, disconnection, and/or contact
failure. Damaged cables, disconnection, or contact failure is extremely
hazardous and may result in electric shock and/or improper function of the robot
system.
■
When installing the connector sub plate, be careful not to allow the cables to
interfere with the plate mounting and do not bend these cables forcibly to push
CAUTION
G3-**1* Table Top Mounting G3-**1*M Multiple Mounting
them into the cover.
Unnecessary strain on cables may result in damage to the cables, disconnection,
and/or contact failure. Damaged cables, disconnection, or contact failure is
extremely hazardous and may result in electric shock and/or improper function of
the robot system.
When routing the cables, observe the cable locations after removing the
connector sub plate. Be sure to place the cables back to their original locations.
Unscrew the connector sub plate mounting bolts and remove the plate.
Truss:
4-M4×8
3.6 User Plate
Unscrew the user plate mounting bolts and remove the plate.
G3-**1S* Standard-model G3-**1C* Cleanroom-model
Connector sub plate
Truss: 4-M4×8
User plate
3-M4×12
Truss: 4-M4×8
Connector sub plate
Truss: 4-M4×8
Gasket
User plate
3-M4×12
A gasket is installed to G3-**1C* (Cleanroom-model).
G3 Rev.5 79
Maintenance 3. Covers
T
4
×
r
×
3.7 Heatsink Plate
Unscrew the heatsink plate mounting bolts to remove the plate.
G3-**1* Table Top Mounting G3-**1*M Multiple Mounting
Heatsink plate
russ:
-M4×8
Truss:
2-M4×8
Heat release sheet
Be careful of the Heat release sheet at the side of the Motor, and be sure to keep it.
NOTE
)
Be careful when you mount the Heatsink plate without the Heat release sheet, it may cause
the malfunction or break by the heat from the Motor.
3.8 Base Bottom Cover
Unscrew the base bottom cover mounting bolts and remove the cover.
G3-**1C* Cleanroom-model
Heatsink plate
Truss:
4-M4×8
Truss:
2-M4
8
Heat release sheet
NOTE
)
Base bottom cove
Truss: 4-M4 8
A base bottom cover is not installed to G3-**1S* (Standard-model).
80 G3 Rev.5
4. Cable Unit
■
Do not insert or pull out the motor connectors while the power to the robot system
is turned ON. Inserting or pulling out the motor connectors with the power ON is
extremely hazardous and may result in serious bodily injury as the Manipulator
may move abnormally, and also may result in electric shock and/or malfunction of
the robot system.
■
To shut off power to the robot system, pull out the power plug from the power
source. Be sure to connect the AC power cable to a power receptacle. DO
NOT connect it directly to a factory power source.
■
WARNING
CAUTION
Before performing any replacement procedure, turn OFF the Controller and
related equipment, and then pull out the power plug from the power source.
Performing any replacement procedure with the power ON is extremely
hazardous and may result in electric shock and/or malfunction of the robot
system.
■
Be careful not to get any foreign substances in the Manipulator, connectors, and
pins during maintenance. Turning ON the power to the robot system when any
foreign substances exist in them is extremely hazardous and may result in
electric shock and/or malfunction of the robot system.
■
Be sure to connect the cables properly. Do not allow unnecessary strain on the
cables. (Do not put heavy objects on the cables. Do not bend or pull the cables
forcibly.) The unnecessary strain on the cables may result in damage to the
cables, disconnection, and/or contact failure. Damaged cables, disconnection,
or contact failure is extremely hazardous and may result in electric shock and/or
improper function of the robot system.
Maintenance 4. Cable Unit
G3 Rev.5 81
Maintenance 4. Cable Unit
4.1 Replacing Cable Unit
Since the power is supplied to each motor from the lithium battery installed on the battery
board via the battery connector, the position data will not be lost when the Controller is
turned OFF. When the battery connectors are disconnected, the position data will be lost,
and EPSON RC+ will display an error when the Controller is turned ON.
If the error occurs, execute the calibration of all joints and axes.
For details, refer to Maintenance: 14. Calibration.
Maintenance parts, Tools and Materials
Name Quantity Note
Maintenance
parts
Tools
Material
Cable unit 1
Battery Unit (Lithium battery) 1 R13ZA00600300
Hexagonal wrench (width across flats: 3 mm) 1 For M4 screw
Hexagonal wrench (width across flats: 4 mm) 1 For M5 screw
Spanner (width across flats: 5 mm) 1 For D-sub connector removal
Nut screwdriver (width across flats: 5 mm) 1 For D-sub connector removal
Torque wrench 1
Nippers 1 For cutting wire tie
Wire tie 9
Each manipulator model
(Refer to Maintenance:
15. Maintenance parts)
Table Top mounting
Cable Unit
(Figure: G3-301S)
82 G3 Rev.5
Maintenance 4. Cable Unit
CAUTION
Multi-Layout mounting
Cable unit
(Figure: G3-301SM)
■
If the connectors have been disconnected during the replacement of the cable
unit, be sure to reconnect the connectors to their proper positions. Refer to the
block diagrams.
Improper connection of the connectors may result in improper function of the
robot system.
For details on the connections, refer to Maintenance: 4.2 Wiring Diagrams.
■
When installing the cover, be careful not to allow the cables to interfere with the
cover mounting and do not bend these cables forcibly to push them into the
cover. Unnecessary strain on cables may result in damage to the cables,
disconnection, and/or contact failure. Damaged cables, disconnection, or
contact failure is extremely hazardous and may result in electric shock and/or
improper function of the robot system.
When routing the cables, observe the cable locations after removing the cover.
Be sure to place the cables back to their original locations.
■
Be sure to connect the cables properly. Do not allow unnecessary strain on the
cables. (Do not put heavy objects on the cables. Do not bend or pull the cables
forcibly.) The unnecessary strain on the cables may result in damage to the
cables, disconnection, and/or contact failure. Damaged cables, disconnection,
or contact failure is extremely hazardous and may result in electric shock and/or
improper function of the robot system.
G3 Rev.5 83
Maintenance 4. Cable Unit
y
Cable unit
Removal
(3) Turn OFF the Controller and disconnect the power cable and signal cable connectors
(4) Remove the connector plate.
(5) Remove the connector sub plate.
(6) Connect the spare battery to the spare battery connector (XB11) of Joint #1 signal
(1) Turn ON the Controller and change the motor to OFF status (MOTOR OFF).
(2) Press and hold the brake release button switch to let the shaft down. Be sure to
keep enough space and prevent the end effector hitting any peripheral equipment.
The brake release button switch affects only Joint #3. When the brake release
button switch is pressed, the brake for Joint #3 is released simultaneously.
Be careful of the shaft while the brake release button switch is being pushed because
it may be lowered by the weight of an end effector.
from thee controller.
For details, refer to Maintenance: 3.4 Connector Plate.
For details, refer to Maintenance: 3.5 Connector Sub Plate.
cable.
- Use the battery unit as the spare battery.
- The position of Joint #1 motor is stored with the battery on Arm #2/
Connect the spare battery otherwise the Joint #1 position data will be lost.
(7) Disconnect the air tubes, ground wire, D-sub cable, and seven connectors (X10, X20,
X30, X111, X121, X131, XB10) connected to the connector plate and connector sub
plate (inner side).
NOTE
)
(8) Cut off one wire tie binding Base side cables.
(9) Remove the arm top cover.
(10)
(11)
- Be sure to keep the connectors of the battery board connected at cables
replacement. Otherwise, the motor will lose position data and the calibration
must be executed again.
- Remember the cable layout so that the cables can be reconnected correctly after
replacement.
For details, refer to Maintenance: 3.1 Arm Top Cover.
Remove the Battery board.
Loosen the mounting screws for the User plate
and remove the plate from the Arm #2.
At this point, the ground is removed with the
plate.
2-M4×10
Batter
2-M4×12
board
84 G3 Rev.5
×
×
(12) Disconnect 11 connectors on the Arm side.
X21, X22, X31, X32, X33, X41, X42, X61, X221, X231, X241
Maintenance 4. Cable Unit
NOTE
)
(13) Disconnect the D-sub cable, air tubes, and connector of the brake release button
NOTE
)
(14) Remove the mounting screws for the cable unit and remove the unit from the
X61 is connected to the battery board.
Be sure to keep the connectors of the battery board connected at cables replacement.
Otherwise, the Joint #2, #3, and #4 motors will lose position data and the calibration
must be executed again.
switch from the user plate.
Mounting screws for the D-sub cable are very small. Be sure to keep the screws.
Press the ring on the fitting and pull out the air tube. (ø6×2, ø4×2)
Be sure to observe the connection for connecting the disconnected parts after
replacement.
Manipulator.
Table Top Mounting Multiple Mounting
Cable
unit
3-M4
12
4-M4×10
3-M4
Cable
unit
12
3-M4×10
G3 Rev.5 85
Maintenance 4. Cable Unit
Cable unit
(1) Mount the cable unit to the Manipulator.
Installation
(2) Connect the following to inner connector plate and connector sub plate.
(3) Connect Joint #1 Signal cable connector and XB10.
(4) Bundle the wire tie removed in Removal Step (8).
Air tube // Ground wire // D-sub cable
Joint #1 Signal cable connector and Power cable connector
4 connectors (X20, X30, X121, X131)
(5) Mount the user plate to the Arm #2.
At this point, mount the ground together.
(6) Connect the connectors:
X21, X22, X31, X32, X33, X41, X61,X221, X231, X241
(7) Mount the battery board to the Arm #2.
(8) Remove the spare battery from XB11.
(9) Mount the connector plate to the base.
For the details, refer to Maintenance: 3.4 Connector Plate.
(10)Mount the connector sub plate to the base.
For details, refer to Maintenance: 3.5 Connector Sub Plate.
(11) Set and secure the Arm #2 cover without the cables being stuck.
For details, refer to Maintenance: 3.1 Arm Top Cover.
(12)When the connector falls off from the battery board, execute the calibration of all axes.
For details, refer to Maintenance: 14 Calibration.
86 G3 Rev.5
4.2 Wiring Diagrams
4.2.1 Signal Cable
Maintenance 4. Cable Unit
Mounting plate
Cable color
Pink
Red
P R V W Y
Code
Cable color
Black
Brown
B
BR
Code
Detail Board Diagram
Violet
White
Green
Blue
G L O
Yellow
Orange
G3 Rev.5 87
Maintenance 4. Cable Unit
4.2.2 Power Cable
Cable color
Pink
Red
Violet
White
Yellow
Blue
L
Light green
LG
Orange
O
P R V W Y
Code
Cable color
Black
Brown
B
BR
Code
Green
G
88 G3 Rev.5
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