IAI RCP5-SA7C, RCP5-SA6C, RCP5-SA4C, RCP5-SA4R, RCP5-SA6R Instruction Manual

ROBO Cylinder

RCP5/RCP5CR Actuators

Slider Type

Instruction Manual

Seventh Edition



Standard Type Motor Straight Type: RCP5-SA4C, SA6C, SA7C
Standard Type Motor Reversing Type: RCP5-SA4R, SA6R, SA7R
Cleanroom Type Motor Straight Type: RCP5CR-SA4C, SA6C, SA7C



IAI America, Inc.

Please Read Before Use

Thank you for purchasing our product.

This instruction manual explains the handling methods, structure and maintenance of this product,
among others, providing the information you need to know to use the product safely.

Before using the product, be sure to read this manual and fully understand the contents explained herein
to ensure safe use of the product.
The DVD that comes with the product contains instruction manuals for IAI products.
When using the product, refer to the necessary portions of the applicable instruction manual by printing
them out or displaying them on a PC.

After reading the instruction manual, keep it in a convenient place so that whoever is handling this
product can reference it quickly when necessary.

[Important]

x This instruction manual is original.
x This product is not to be used for any other purpose from what is noted in this instruction

manual. IAI shall not be liable whatsoever for any loss or damage arising from the result of using
the product for any other purpose from what is noted in the manual.

x The information contained in this instruction manual is subject to change without notice for the

purpose of production improvement.

x If you have any question or finding regarding the information contained in this instruction manual,

contact our customer center or our sales office near you.

x Using or copying all or a part of this instruction manual without permission is prohibited.
x The company names, names of products and trademarks of each company shown in the

sentences are registered trademarks.

Table of Contents

Safety Guide........................................................................................................... 1

Caution in Handling ................................................................................................ 8

International Standards Compliances ..................................................................... 9

Names of the Parts............................................................................................... 10

1. Specifications Check....................................................................................... 13

1.1 Checking the Product........................................................................................................ 13

1.1.1 Parts..................................................................................................................... 13

1.1.2 Related Instruction Manuals for the Each Controller Supported by

This Product ......................................................................................................... 13

1.1.3 How to Read the Model Nameplate..................................................................... 13

1.1.4 How to Read the Model Number.......................................................................... 14

1.2 Specifications .................................................................................................................... 15

1.2.1 Speed................................................................................................................... 15

1.2.2 Maximum Acceleration and Transportable Mass................................................. 19

1.2.3 Driving System • Position Detector ...................................................................... 36

1.2.4 Positioning Precision............................................................................................ 36

1.2.5 Current Limiting Value and Pressing Force .........................................................37

1.2.6 Allowable Moment of Actuator ............................................................................. 41

1.3 Options .............................................................................................................................. 42

1.3.1 Brake Type (Model : B) ........................................................................................ 42

1.3.2 Reversed-home Specification (Model : NM) ........................................................ 42

1.3.3 Cable Eject Direction Changed (Model No. : CJT, CJR, CJL, CJB, CJO) ........... 42

1.3.4 Motor Left Reversed, Motor Right Reversed (Model No. : ML, MR).................... 42

1.3.5 Slider part roller type (Model No. : SR)................................................................ 43

1.3.6 Slider spacer (Model No. : SS)............................................................................. 43

1.3.7 Air vacuum joint on other side (Model No. : VR).................................................. 43

1.4 Motor • Encoder Cables .................................................................................................... 44

1.4.1 Motor • Encoder Integrated Cables...................................................................... 44

1.4.2 Motor • Encoder Integrated Cables Robot Type .................................................. 45

2. Installation....................................................................................................... 46

2.1 Transportation ................................................................................................................... 46

2.2 Installation and Storage • Preservation Environment........................................................ 48

2.3 How to Install..................................................................................................................... 49

2.3.1 Installation ............................................................................................................ 49

2.3.2 Installation of the Main Unit.................................................................................. 50

2.3.3 Vacuum of Cleanroom Type................................................................................. 57

3. Connecting with the Controller........................................................................ 58

4. Maintenance and Inspection........................................................................... 62

4.1 Inspection Items and Schedule ......................................................................................... 62

4.2 External Visual Inspection................................................................................................. 63

4.3 Cleaning ............................................................................................................................ 63

4.4 Internal Inspections ........................................................................................................... 64

4.5 Internal Cleaning ............................................................................................................... 65

4.6 Grease Supply................................................................................................................... 66

4.6.1 What Grease to Use............................................................................................. 66

4.6.2 How to Apply Grease ........................................................................................... 67

4.7 Procedure for Stainless Steel Sheet Replacement and Adjustment ................................. 70

4.7.1 Preparation........................................................................................................... 70

4.7.2 Procedure for Replacement and Tuning.............................................................. 71

4.8 Procedure for Belt Replacement and Tuning ....................................................................76

4.8.1 Inspection of the Belt............................................................................................ 76

4.8.2 Belt to Use............................................................................................................ 76

4.8.3 Belt Replacement................................................................................................. 77

4.9 Motor Replacement Process............................................................................................. 79

4.9.1 SA4C, SA6C, SA7R............................................................................................. 79

4.9.2 SA4R, SA6R, SA7R............................................................................................. 81

5. External Dimensions....................................................................................... 83

5.1 RCP5-SA4C ...................................................................................................................... 83

5.2 RCP5-SA6C ...................................................................................................................... 84

5.3 RCP5-SA7C ...................................................................................................................... 85

5.4 RCP5CR-SA4C, RCP5-SA4C (Option Model SR)............................................................ 85

5.5 RCP5CR-SA6C, RCP5-SA6C (Option Model SR)............................................................ 87

5.6 RCP5CR-SA7C, RCP5-SA7C (Option Model SR)............................................................ 88

5.7 RCP5CR-SA4R ................................................................................................................. 83

5.8 RCP5CR-SA6R ................................................................................................................. 90

5.9 RCP5CR-SA7R ................................................................................................................. 91

6. Life.................................................................................................................. 91

6.1 How to Calculate Operation Life ....................................................................................... 91

6.2 Operation Life.................................................................................................................... 92

7. Warranty ......................................................................................................... 94

7.1 Warranty Period................................................................................................................. 94

7.2 Scope of the Warranty....................................................................................................... 94

7.3 Honoring the Warranty ...................................................................................................... 94

7.4 Limited Liability..................................................................................................................94

7.5 Conditions of Conformance with Applicable Standards/Regulations, Etc.,

and Applications ................................................................................................................ 95

7.6 Other Items Excluded from Warranty................................................................................ 95

Change History..................................................................................................... 96

1

Safety Guide

“Safety Guide” has been written to use the machine safely and so prevent personal injury or property
damage beforehand. Make sure to read it 1before the operation of this product.

Safety Precautions for Our Products

The common safety precautions for the use of any of our robots in each operation.

No.

Operation

Description

Description

1 Model

Selection

Ɣ This product has not been planned and designed for the application

where high level of safety is required, so the guarantee of the protection
of human life is impossible. Accordingly, do not use it in any of the
following applications.

1) Medical equipment used to maintain, control or otherwise affect human
life or physical health.

2) Mechanisms and machinery designed for the purpose of moving or
transporting people (For vehicle, railway facility or air navigation
facility)

3) Important safety parts of machinery (Safety device, etc.)

Ɣ Do not use the product outside the specifications. Failure to do so may

considerably shorten the life of the product.

Ɣ Do not use it in any of the following environments.

1) Location where there is any inflammable gas, inflammable object or
explosive

2) Place with potential exposure to radiation

3) Location with the ambient temperature or relative humidity exceeding
the specification range

4) Location where radiant heat is added from direct sunlight or other large
heat source

5) Location where condensation occurs due to abrupt temperature
changes

6) Location where there is any corrosive gas (sulfuric acid or hydrochloric
acid)

7) Location exposed to significant amount of dust, salt or iron powder

8) Location subject to direct vibration or impact

Ɣ For an actuator used in vertical orientation, select a model which is

equipped with a brake. If selecting a model with no brake, the moving
part may drop when the power is turned OFF and may cause an accident
such as an injury or damage on the work piece.

2

No.

Operation

Description

Description

2 Transportation Ɣ When carrying a heavy object, do the work with two or more persons or

utilize equipment such as crane.

Ɣ When the work is carried out with 2 or more persons, make it clear who is

to be the leader and who to be the follower(s) and communicate well with
each other to ensure the safety of the workers.

Ɣ When in transportation, consider well about the positions to hold, weight

and weight balance and pay special attention to the carried object so it
would not get hit or dropped.

Ɣ Transport it using an appropriate transportation measure.

The actuators available for transportation with a crane have eyebolts
attached or there are tapped holes to attach bolts. Follow the instructions
in the instruction manual for each model.

Ɣ Do not step or sit on the package.
Ɣ Do not put any heavy thing that can deform the package, on it.
Ɣ When using a crane capable of 1t or more of weight, have an operator

who has qualifications for crane operation and sling work.

Ɣ When using a crane or equivalent equipments, make sure not to hang a

load that weighs more than the equipment’s capability limit.

Ɣ Use a hook that is suitable for the load. Consider the safety factor of the

hook in such factors as shear strength.

Ɣ Do not get on the load that is hung on a crane.
Ɣ Do not leave a load hung up with a crane.
Ɣ Do not stand under the load that is hung up with a crane.

3 Storage and

Preservation

Ɣ The storage and preservation environment conforms to the installation

environment. However, especially give consideration to the prevention of
condensation.

Ɣ Store the products with a consideration not to fall them over or drop due

to an act of God such as earthquake.

4 Installation

and Start

(1) Installation of Robot Main Body and Controller, etc.
Ɣ Make sure to securely hold and fix the product (including the work part). A

fall, drop or abnormal motion of the product may cause a damage or
injury.
Also, be equipped for a fall-over or drop due to an act of God such as
earthquake.

Ɣ Do not get on or put anything on the product. Failure to do so may cause

an accidental fall, injury or damage to the product due to a drop of
anything, malfunction of the product, performance degradation, or
shortening of its life.

Ɣ When using the product in any of the places specified below, provide a

sufficient shield.

1) Location where electric noise is generated

2) Location where high electrical or magnetic field is present

3) Location with the mains or power lines passing nearby

4) Location where the product may come in contact with water, oil or
chemical droplets

3

No.

Operation

Description

Description

(2) Cable Wiring
Ɣ Use our company’s genuine cables for connecting between the actuator

and controller, and for the teaching tool.

Ɣ Do not scratch on the cable. Do not bend it forcibly. Do not pull it. Do not

coil it around. Do not insert it. Do not put any heavy thing on it. Failure to
do so may cause a fire, electric shock or malfunction due to leakage or
continuity error.

Ɣ Perform the wiring for the product, after turning OFF the power to the

unit, so that there is no wiring error.

Ɣ When the direct current power (+24V) is connected, take the great care

of the directions of positive and negative poles. If the connection direction
is not correct, it might cause a fire, product breakdown or malfunction.

Ɣ Connect the cable connector securely so that there is no disconnection

or looseness. Failure to do so may cause a fire, electric shock or
malfunction of the product.

Ɣ Never cut and/or reconnect the cables supplied with the product for the

purpose of extending or shortening the cable length. Failure to do so may
cause the product to malfunction or cause fire.

4 Installation

and Start

(3) Grounding
Ɣ The grounding operation should be performed to prevent an electric

shock or electrostatic charge, enhance the noise-resistance ability and
control the unnecessary electromagnetic radiation.

Ɣ For the ground terminal on the AC power cable of the controller and the

grounding plate in the control panel, make sure to use a twisted pair
cable with wire thickness 0.5mm

2

(AWG20 or equivalent) or more for
grounding work. For security grounding, it is necessary to select an
appropriate wire thickness suitable for the load. Perform wiring that
satisfies the specifications (electrical equipment technical standards).

Ɣ Perform Class D Grounding (former Class 3 Grounding with ground

resistance 100: or below).

4

No.

Operation

Description

Description

4 Installation

and Start

(4) Safety Measures
Ɣ When the work is carried out with 2 or more persons, make it clear who is

to be the leader and who to be the follower(s) and communicate well with
each other to ensure the safety of the workers.

Ɣ When the product is under operation or in the ready mode, take the

safety measures (such as the installation of safety and protection fence)
so that nobody can enter the area within the robot’s movable range.
When the robot under operation is touched, it may result in death or
serious injury.

Ɣ Make sure to install the emergency stop circuit so that the unit can be

stopped immediately in an emergency during the unit operation.

Ɣ Take the safety measure not to start up the unit only with the power

turning ON. Failure to do so may start up the machine suddenly and
cause an injury or damage to the product.

Ɣ Take the safety measure not to start up the machine only with the

emergency stop cancellation or recovery after the power failure. Failure
to do so may result in an electric shock or injury due to unexpected
power input.

Ɣ When the installation or adjustment operation is to be performed, give

clear warnings such as “Under Operation; Do not turn ON the power!”
etc. Sudden power input may cause an electric shock or injury.

Ɣ Take the measure so that the work part is not dropped in power failure or

emergency stop.

Ɣ Wear protection gloves, goggle or safety shoes, as necessary, to secure

safety.

Ɣ Do not insert a finger or object in the openings in the product. Failure to

do so may cause an injury, electric shock, damage to the product or fire.

Ɣ When releasing the brake on a vertically oriented actuator, exercise

precaution not to pinch your hand or damage the work parts with the
actuator dropped by gravity.

5 Teaching Ɣ When the work is carried out with 2 or more persons, make it clear who is

to be the leader and who to be the follower(s) and communicate well with
each other to ensure the safety of the workers.

Ɣ Perform the teaching operation from outside the safety protection fence,

if possible. In the case that the operation is to be performed unavoidably
inside the safety protection fence, prepare the “Stipulations for the
Operation” and make sure that all the workers acknowledge and
understand them well.

Ɣ When the operation is to be performed inside the safety protection fence,

the worker should have an emergency stop switch at hand with him so
that the unit can be stopped any time in an emergency.

Ɣ When the operation is to be performed inside the safety protection fence,

in addition to the workers, arrange a watchman so that the machine can
be stopped any time in an emergency. Also, keep watch on the operation
so that any third person can not operate the switches carelessly.

Ɣ Place a sign “Under Operation” at the position easy to see.
Ɣ When releasing the brake on a vertically oriented actuator, exercise

precaution not to pinch your hand or damage the work parts with the
actuator dropped by gravity.

* Safety protection Fence : In the case that there is no safety protection fence,

the movable range should be indicated.

5

No.

Operation

Description

Description

6 Trial Operation Ɣ When the work is carried out with 2 or more persons, make it clear who is

to be the leader and who to be the follower(s) and communicate well with
each other to ensure the safety of the workers.

Ɣ After the teaching or programming operation, perform the check

operation one step by one step and then shift to the automatic operation.

Ɣ When the check operation is to be performed inside the safety protection

fence, perform the check operation using the previously specified work
procedure like the teaching operation.

Ɣ Make sure to perform the programmed operation check at the safety

speed. Failure to do so may result in an accident due to unexpected
motion caused by a program error, etc.

Ɣ Do not touch the terminal block or any of the various setting switches in

the power ON mode. Failure to do so may result in an electric shock or
malfunction.

7 Automatic

Operation

Ɣ Check before starting the automatic operation or rebooting after

operation stop that there is nobody in the safety protection fence.

Ɣ Before starting automatic operation, make sure that all peripheral

equipment is in an automatic-operation-ready state and there is no alarm
indication.

Ɣ Make sure to operate automatic operation start from outside of the safety

protection fence.

Ɣ In the case that there is any abnormal heating, smoke, offensive smell, or

abnormal noise in the product, immediately stop the machine and turn
OFF the power switch. Failure to do so may result in a fire or damage to
the product.

Ɣ When a power failure occurs, turn OFF the power switch. Failure to do so

may cause an injury or damage to the product, due to a sudden motion of
the product in the recovery operation from the power failure.

6

No.

Operation

Description

Description

8 Maintenance

and Inspection

Ɣ When the work is carried out with 2 or more persons, make it clear who is

to be the leader and who to be the follower(s) and communicate well with
each other to ensure the safety of the workers.

Ɣ Perform the work out of the safety protection fence, if possible. In the

case that the operation is to be performed unavoidably inside the safety
protection fence, prepare the “Stipulations for the Operation” and make
sure that all the workers acknowledge and understand them well.

Ɣ When the work is to be performed inside the safety protection fence,

basically turn OFF the power switch.

Ɣ When the operation is to be performed inside the safety protection fence,

the worker should have an emergency stop switch at hand with him so
that the unit can be stopped any time in an emergency.

Ɣ When the operation is to be performed inside the safety protection fence,

in addition to the workers, arrange a watchman so that the machine can
be stopped any time in an emergency. Also, keep watch on the operation
so that any third person can not operate the switches carelessly.

Ɣ Place a sign “Under Operation” at the position easy to see.
Ɣ For the grease for the guide or ball screw, use appropriate grease

according to the instruction manual for each model.

Ɣ Do not perform the dielectric strength test. Failure to do so may result in

a damage to the product.

Ɣ When releasing the brake on a vertically oriented actuator, exercise

precaution not to pinch your hand or damage the work parts with the
actuator dropped by gravity.

Ɣ The slider or rod may get misaligned OFF the stop position if the servo is

turned OFF. Be careful not to get injured or damaged due to an
unnecessary operation.

Ɣ Pay attention not to lose the cover or untightened screws, and make sure

to put the product back to the original condition after maintenance and
inspection works.
Use in incomplete condition may cause damage to the product or an
injury.

* Safety protection Fence : In the case that there is no safety protection

fence, the movable range should be indicated.

9 Modification

and Dismantle

Ɣ Do not modify, disassemble, assemble or use of maintenance parts not

specified based at your own discretion.

10 Disposal Ɣ When the product becomes no longer usable or necessary, dispose of it

properly as an industrial waste.

Ɣ When removing the actuator for disposal, pay attention to drop of

components when detaching screws.

Ɣ Do not put the product in a fire when disposing of it.

The product may burst or generate toxic gases.

11 Other Ɣ Do not come close to the product or the harnesses if you are a person

who requires a support of medical devices such as a pacemaker. Doing
so may affect the performance of your medical device.

Ɣ See Overseas Specifications Compliance Manual to check whether

complies if necessary.

Ɣ For the handling of actuators and controllers, follow the dedicated

instruction manual of each unit to ensure the safety.

7

Alert Indication

The safety precautions are divided into “Danger”, “Warning”, “Caution” and “Notice” according to the
warning level, as follows, and described in the instruction manual for each model.

Level Degree of Danger and Damage Symbol

Danger

This indicates an imminently hazardous situation which, if the product
is not handled correctly, will result in death or serious injury.

Danger

Warning

This indicates a potentially hazardous situation which, if the product is
not handled correctly, could result in death or serious injury.

Warning

Caution

This indicates a potentially hazardous situation which, if the product is
not handled correctly, may result in minor injury or property damage.

Caution

Notice

This indicates lower possibility for the injury, but should be kept to use
this product properly.

Notice

8

Caution in Handling

1. Ensure use of the product in the specified conditions, environments and
ranges.

An operation out of the specified conditions may cause a drop in performance or malfunction of
the product.

2. Do not attempt to have any handling or operation that is not stated in this
instruction manual.

3. It is recommended to apply our products for the wiring between the actuator
and the controller.

4. Do not attempt to establish the settings for the speed and acceleration/
deceleration above the allowable range.

An operation with speed and acceleration/deceleration beyond the allowable range may cause an
abnormal noise, vibration, malfunction or shortened life.

5. Set the allowable moment within the allowable range.

An operation with the load beyond the allowable moment may cause an abnormal noise, vibration,
malfunction or shortened life. If it is extreme, flaking may occur on the guide.

6. Set the overhang load within the allowable range.

Attaching a load with an overhang load above the allowable range may cause vibration and
abnormal noise.

7. If back and forth operations are performed repeatedly in short distance, it
may wear out the film of grease.

Continuous back and forth operation within a distance less than 30mm may cause wear of grease.
As a reference, have approximately 5 cycles of back and forth operation in a distance more than
50mm in every 5,000 to 10,000 cycles to regenerate the oil film. Keep using the actuator with the
grease worn out may cause malfunction. If it is extreme, flaking may occur on the guide, ball screw.

8. Do not attempt to hit the slider against an abstacle with high speed.

It may destroy the coupling.

9. Make sure to attach the actuator properly by following this instruction
manual.

Using the product with the actuator not being certainly retained or affixed may cause abnormal
noise, vibration, malfunction or shorten the product life.

10. The position will slightly move only in the first time of turning the servo on
after the power is supplied.

In the first time to turn the servo on after the power is supplied only, position adjustment operation
will be conducted due to the characteristics of the stepper motor. For this reason, the position will
slightly move. The maximum amount of move is 0.025 * lead length [mm].
Pay attention not to have peripheral equipment interfere.

9

11. For PCON-CA and MSEP Controllers (with option: T), it is available to
switch over the setting between effective and ineffective of the high output
setting in the parameter setting.

(In the setting at delivery, the high output setting is set to effective.)
For MSEL Controller, the high output setting is effective and cannot switch
it over to ineffective.
[Refer to an instruction manual for each controller for details]

The performance of weight capacity at each velocity and acceleration/deceleration setting differs
between the high output setting being effective and ineffective. Refer to the applicable
performance specification when the high output setting is effective or ineffective in 1.2
Specifications.



Controller Parameter Remarks

PCON-CA No.152 High Output Setting

[0: Ineffective, 1: Effective]

MSEP No.28 High Output Setting

[0: Ineffective, 1: Effective]

Option T: In high output setting,

available to have high output
setting effective







10

International Standards Compliances

This actuator complies with the following overseas standard.
Refer to Overseas Standard Compliance Manual (ME0287) for more detailed information.

RoHS Directive CE Marking

{ {

11

Names of the Parts

In this Instruction manual, the left and right sides are indicated by looking at the actuator from the motor
end, with the actuator placed horizontally, as shown in the figure below.

1. Standard Type Motor Straight Type

Motor unit

Screw for motor unit attachment

Stainless steel sheet

Side cover

Front bracket Slider cover

Slider

Base

Tapped hole for
ground cable connection Connector

Motor Side

Opposite Side

Right Side

Left Side

2. Standard Type Motor Reversing Type

The direction of the motor is either left reversed: ML (shown in figure above), right reversed: MR.
There is no top reversed type.
Note) Reversing types are not applicable to CR specifications.

Reversing bracket

Pulley bracket

Pulley cover

Left Side

Right Side

Motor unit

Screw for motor unit attachment

12

3.

Cleanroom Type Motor Straight Type

Air Vacuum Joint Type

Air Tube Outer Diameter

•

SA4/6 : φ6

•

SA7 : φ8

Stainless steel sheet

Side cover

Front bracket

Slider cover

Opposite Side

Right Side

Left Side

Slider

Base

Motor unit

Screw for motor unit attachment

Tapped hole for ground cable connection

Connector

Motor Side

1. Specifications Check

13

1. Specifications Check

1.1 Checking the Product

The standard configuration of this product is comprised of the following parts.
See the component list for the details of the enclosed components. If you find any fault or missing parts,
contact your local IAI distributor.

1.1.1 Parts

No. Name Model number Quantity Remarks

1 Actuator

Refer to “How to Read the Model
Nameplate” and “How to Read the
Model Number.”

1

Accessories

2

Motor • Encoder Cables

(Note1)

1

3 In-house made seals

4 First Step Guide 1

5 Instruction Manual (DVD) 1

6 Safety Guide 1

Note1 The motor • encoder cables supplied vary depending on the controller used. [Refer to 1.4,

“Motor • Encoder Cables.”]

1.1.2 Related Instruction Manuals for the Each Controller Supported by This

Product

Shown below is a list of the instruction manuals for the controllers related to this product which is
recorded in Instruction Manual (DVD).

No. Name Control No.

1 Instruction Manual for PCON-CA/CFA Controller ME0289
2 Instruction Manual for MSEP Controller ME0299
3 Instruction Manual for MSEL Controller ME0336

4 Instruction Manual for RC PC Software RCM-101-MW/RCM-101-USB ME0155

5 Instruction Manual for Touch Panel Teaching Pendant CON-PTA/PDA/PGA ME0295

6

Instruction Manual for Touch Panel Teaching Pendant TB-01/01D/01DR
Applicable for Position Controller

ME0324

1.1.3 How to Read the Model Nameplate

Model

Serial number

MODEL RCP5-SA4C-WA-35P-5-50-P3-P-B

SERIAL No.100090266 MADE IN JAPAN

1. Specifications Check

14

1.1.4 How to Read the Model Number

RCP5 - SA4C - WA - 35P - 5 - 50 - P3 - P - B - **

Note 1 Identification for IAI use only: It may be displayed for IAI use. It is not a code to show the

model type.

<Series name>

Standard Type

RCP5

Cleanroom Type

RCP5CR

<Type>

Motor straight type
SA4C
SA6C
SA7C
Motor reversing type
SA4R
SA6R
SA7R

<Encoder Type>

WA : Battery-less absolute

<Motor Type>

35P : 35Ƒ size
42P : 42Ƒ size
56P : 56Ƒ size

<Lead>

SA4C, SA4R

2.5/5/10/16

SA6C, SA6R

3/6/12/20

SA7C, SA7R

4/8/16/24

Identification for IAI use only

(Note1)

<Options>

B : Brake
NM : Reversed-home

specificationspecification

CJT : Cable eject direction changed

(Top)

CJR : Cable eject direction changed

(Right)

CJL : Cable eject direction changed

(Left)

CJB : Cable eject direction changed

(Bottom)

CJO : Cable eject direction changed

(Outward)

ML : Motor left reversed(Standard)
MR : Motor right reversed
SS :

Slider spacer (SA7R)
SR : Slider part roller type
VR : Air vacuum joint on other side

<Cable Length>

N : None
P : 1m
S : 3m
M : 5m
XƑƑ : Length specification
RƑƑ : Robot cable

<Controller>

P3 : PCON-CA
MSEP
MSEL

<Stroke>

[Refer to 1.2 “Specifications”]

1. Specifications Check

15

1.2 Specifications

1.2.1 Speed

[1] Motor Straight Type

[When high-output setting is effective]

Speed limits [Unit: mm/s]

Stroke [mm]

Type

Motor

Type

Lead
[mm]

Horizontal/

Vertical

50 100 150 200 250 300 350 400 450 500 550 600 650 700 750 800

Horizontal 195 165 135 - - - - - -

2.5
Vertical 195 165 135 - - - - - -

Horizontal 390 330 275 - - - - - -

5

Vertical 390 330 275 - - - - - -

Horizontal 785 675 555 - - - - - -

10

Vertical 785 675 555 - - - - - -

Horizontal 1260 1060 875 - - - - - -

SA4C 35P

16

Vertical 1260 1060 875 - - - - - -

Horizontal 225

215 180 150 130 115 100 85 75

3

Vertical 225

215 180 150 130 115 100 85 75

Horizontal 450

435 365 305 265 230 200 175 155

6

Vertical 450

435 365 305 265 230 200 175 155

Horizontal 900

885 735 620 535 460 405 335 315

12

Vertical 900

885 735 620 535 460 405 335 315

Horizontal 1440

1335 1130 970 840 735 650 575

SA6C 42P

20

Vertical 1280

1130 970 840 735 650 575

Horizontal 245 215

185 160 140 125

4

Vertical 210

185 160 140 125

Horizontal 490

430 375 325 290 255

8

Vertical 490

430 375 325 290 255

Horizontal 980

875 755 660 585 520

16

Vertical 840

755 660 585 520

Horizontal 1200

1145 1000 885 785

SA7C 56P

24

Vertical 1200

1145 1000 885 785

1. Specifications Check

16

[When high-output setting is ineffective]

Speed limits [Unit: mm/s]

Stroke [mm]

Type

Motor

Type

Lead
[mm]

Horizontal/

Vertical

50 100 150 200 250 300 350 400 450 500 550 600 650 700 750 800

Horizontal 130 - - - - - -

2.5
Vertical 130 - - - - - -

Horizontal 260 - - - - - -

5

Vertical 260 - - - - - -

Horizontal 525 - - - - - -

10

Vertical 525 - - - - - -

Horizontal 840 - - - - - -

SA4C 35P

16

Vertical 840 - - - - - -

Horizontal 150

130 115 100 85 75

3

Vertical 150

130 115 100 85 75

Horizontal 300

265 230 200 175 155

6

Vertical 300

265 230 200 175 155

Horizontal 600

535 460 405 355 315

12

Vertical 600

535 460 405 355 315

Horizontal 960

840 735 650 575

SA6C 42P

20

Vertical 960

840 735 650 575

Horizontal 140

125

4

Vertical 140

125

Horizontal 280

255

8

Vertical 280

255

Horizontal 560

520

16

Vertical 560

520

Horizontal 800

785

SA7C 56P

24

Vertical 800

785

1. Specifications Check

17

[2] Motor Reversing Type

[When high-output setting is effective]

Speed limits [Unit: mm/s]

Stroke [mm]

Type

Motor

Type

Lead
[mm]

Horizontal/

Vertical

50 100 150 200 250 300 350 400 450 500 550 600 650 700 750 800

Horizontal 195 165 135 - - - - - -

2.5
Vertical 195 165 135 - - - - - -

Horizontal 390 330 275 - - - - - -

5

Vertical 390 330 275 - - - - - -

Horizontal 785 675 555 - - - - - -

10

Vertical 785 675 555 - - - - - -

Horizontal 1260 1060 875 - - - - - -

SA4R 35P

16

Vertical 1260 1060 875 - - - - - -

Horizontal 225

215 180 150 130 115 100 85 75

3

Vertical 225

215 180 150 130 115 100 85 75

Horizontal 450

435 365 305 265 230 200 175 155

6

Vertical 450

435 365 305 265 230 200 175 155

Horizontal 900

885 735 620 535 460 405 335 315

12

Vertical 800

735 620 535 460 405 335 315

Horizontal 1280

1130 970 840 735 650 575

SA6R 42P

20

Vertical 1280

1130 970 840 735 650 575

Horizontal 210

185 160 140 125

4

Vertical 210

185 160 140 125

Horizontal 490

430 375 325 290 255

8

Vertical 490

430 375 325 290 255

Horizontal 840

755 660 585 520

16

Vertical 700

660 585 520

Horizontal 1000

885 785

SA7R 56P

24

Vertical 1000

885 785

1. Specifications Check

18

[When high-output setting is ineffective]

Speed limits [Unit: mm/s]

Stroke [mm]

Type

Motor

Type

Lead
[mm]

Horizontal/

Vertical

50 100 150 200 250 300 350 400 450 500 550 600 650 700 750 800

Horizontal 130 - - - - - -

2.5
Vertical 130 - - - - - -

Horizontal 260 - - - - - -

5

Vertical 260 - - - - - -

Horizontal 525 - - - - - -

10

Vertical 525 - - - - - -

Horizontal 840 - - - - - -

SA4R 35P

16

Vertical 840 - - - - - -

Horizontal 150

130 115 100 85 75

3

Vertical 150

130 115 100 85 75

Horizontal 300

265 230 200 175 155

6

Vertical 300

265 230 200 175 155

Horizontal 600

535 460 405 355 315

12

Vertical 600

535 460 405 355 315

Horizontal 960

840 735 650 575

SA6R 42P

20

Vertical 960

840 735 650 575

Horizontal 140

125

4

Vertical 140

125

Horizontal 280

255

8

Vertical 280

255

Horizontal 560

520

16

Vertical 560

520

Horizontal 800

785

SA7R 56P

24

Vertical 600

Caution: When a speed less than the minimum speed, operation will not made in the set

speed.
Do not attempt to set a speed less than the minimum speed.
Figure out the minimum speed using the following formula.
Min. Speed [mm/s] = Lead Length [mm] / Number of Encoder Pulse / 0.001 [sec]

1. Specifications Check

19

1.2.2 Maximum Acceleration and Transportable Mass

If the transportable mass is smaller than as specified, the acceleration/deceleration can be raised
beyond the applicable level.

[1] Motor Straight Type

[When high–output setting for motor straight type is effective]

Payload capacity by acceleration/deceleration [kg]

Type

Motor

Type

Lead
[mm]

Horizontal /

Vertical

Velocity

[mm/s]

0.1G 0.3G 0.5G 0.7G 1.0G

0 12 12 12 12 12
20 12 12 12 12 12
40 12 12 12 12 12
65 12 12 12 12 12
85 12 12 12 12 12

105 12 12 12 12 12
130 12 12 12 12 12
150 12 12 12 12 12
175 12 12 12 12 12

Horizontal

195 12 12 12 12 12

0 9 9 9 - ­20 9 9 9 - ­40 9 9 9 - ­65 9 9 9 - ­85 9 9 9 - -

105 9 9 9 - ­130 9 9 9 - ­150 9 9 9 - ­175 9 9 9 - -

2.5

Vertical

195 9 9 9 - -

0 12 12 12 10 10
40 12 12 12 10 10
85 12 12 12 10 10

130 11 11 11 10 10
175 10 10 10 10 10
215 10 10 10 10 10
260 10 10 10 10 10
305 10 10 10 10 10
350 10 10 10 10 10

Horizontal

390 10 10 10 10 10

0 4.5 4.5 4.5 - ­40 4.5 4.5 4.5 - ­85 4.5 4.5 4.5 - -

130 4.5 4.5 4.5 - ­175 4.5 4.5 4.5 - ­215 4.5 4.5 4.5 - ­260 4.5 4.5 4.5 - ­305 4.5 4.5 4.5 - ­350 4.5 4.5 4.5 - -

SA4C 35P

5

Vertical

390 4.5 4.5 4.5 - -

1. Specifications Check

20

[When high-output setting is effective of the motor straight type]

Payload capacity by acceleration/deceleration [kg]

Type

Motor

Type

Lead
[mm]

Horizontal /

Vertical

Velocity

[mm/s]

0.1G 0.3G 0.5G 0.7G 1.0G

0 10 10 10 8 8
85 10 10 10 8 8

175 10 10 10 8 8
260 9 9 9 8 8
350 9 9 9 8 8
435 8 8 8 8 8
525 8 8 8 7 7
610 8 8 7 6 5
700 - 8 6 4 3

Horizontal

785 - 7 4 3 3

0 2.25 2.25 2.25 - ­85 2.25 2.25 2.25 - -

175 2.25 2.25 2.25 - ­260 2.25 2.25 2.25 - ­350 2.25 2.25 2.25 - ­435 2.25 2.25 2.25 - ­525 2.25 2.25 2.25 - ­610 2.25 2.25 2.25 - ­700 - 2 2 - -

10

Vertical

780 - 2 1.5 - -

0 4 4 4 4 4

140 4 4 4 4 4
280 4 4 4 4 4
420 4 4 4 4 4
560 4 4 4 4 4
700 4 4 4 4 4
840 - 4 4 4 3.5
980 - 4 4 3.5 3

1120 - 4 3 2 1.5

Horizontal

1260 - - 2 1.5 1

0 1 1 1 - -

140 1 1 1 - ­280 1 1 1 - ­420 1 1 1 - ­560 1 1 1 - ­700 1 1 1 - ­840 - 1 1 - ­980 - 1 1 - -

1120 - 1 0.75 - -

SA4C 35P

16

Vertical

1260 - - 0.5 - -

1. Specifications Check

21

[When high-output setting is effective of the motor straight type]

Payload capacity by acceleration/deceleration [kg]

Type

Motor

Type

Lead
[mm]

Horizontal /

Vertical

Velocity

[mm/s]

0.1G 0.3G 0.5G 0.7G 1.0G

0 25 25 25 25 25
25 25 25 25 25 25
50 25 25 25 25 25
75 25 25 25 25 25

100 25 25 25 25 25
125 25 25 25 25 25
150 25 25 25 25 22.5
175 25 25 25 20 19
200 25 25 20 18 16

Horizontal

225 25 18 16 15 12

0 16 16 16 - ­25 16 16 16 - ­50 16 16 16 - ­75 16 16 16 - -

100 16 16 16 - ­125 16 16 16 - ­150 16 14 13 - ­175 13 12 11 - ­200 11 10 9 - -

3

Vertical

225 9 8 - - -

0 25 25 20 16 14
50 25 25 20 16 14

100 25 25 20 16 14
150 25 25 20 16 14
200 25 25 20 16 14
250 25 25 20 16 14
300 25 25 20 15 11
350 25 20 14 12 9
400 25 16 10 8 6.5

Horizontal

450 18 12 6 5 2.5

0 6 6 6 - ­50 6 6 6 - -

100 6 6 6 - ­150 6 6 6 - ­200 6 6 6 - ­250 6 6 5.5 - ­300 6 5.5 5 - ­350 6 4.5 4 - ­400 4.5 3.5 3 - -

SA6C 42P

6

Vertical

450 3.5 2 2 - -

1. Specifications Check

22

[When high-output setting is effective of the motor straight type]

Payload capacity by acceleration/deceleration [kg]

Type

Motor

Type

Lead
[mm]

Horizontal /

Vertical

Velocity

[mm/s]

0.1G 0.3G 0.5G 0.7G 1.0G

0 15 15 12.5 11 10

100 15 15 12.5 11 10
200 15 15 12.5 11 10
300 15 15 12.5 11 10
400 15 14 11 10 8.5
500 15 13 10 8 6.5
600 15 12 9 6 4
700 12 10 8 4 2.5
800 10 7 5 2 1

Horizontal

900 - 5 3 1 1

0 2.5 2.5 2.5 - -

100 2.5 2.5 2.5 - ­200 2.5 2.5 2.5 - ­300 2.5 2.5 2.5 - ­400 2.5 2.5 2.5 - ­500 2.5 2.5 2.5 - ­600 2.5 2.5 2.5 - ­700 2.5 2.5 2 - ­800 2 1.5 1 - -

12

Vertical

900 - 0.5 0.5 - -

0 10 10 9 7 6

160 10 10 9 7 6
320 10 10 9 7 6
480 10 10 9 7 6
640 10 10 8 6 5
800 10 9 6.5 4.5 3
960 - 8 5 3.5 2

1120 - 6.5 3 2 1.5

1280 - - 1 1 1

Horizontal

1440 - - 1 0.5 -

0 1 1 1 - -

160 1 1 1 - ­320 1 1 1 - ­480 1 1 1 - ­640 1 1 1 - ­800 1 1 1 - ­960 - 1 1 - -

1120 - 0.5 0.5 - -

1280 - - 0.5 - -

SA6C 42P

20

Vertical

1440 - - - - -

1. Specifications Check

23

[When high-output setting is effective of the motor straight type]

Payload capacity by acceleration/deceleration [kg]

Type

Motor

Type

Lead
[mm]

Horizontal /

Vertical

Velocity

[mm/s]

0.1G 0.3G 0.5G 0.7G 1.0G

0 45 45 45 40 40
35 45 45 45 40 40
70 45 45 45 40 40

105 45 45 45 40 35
140 45 45 35 30 25
175 45 30 18 - ­210 40 8 - - -

Horizontal

245 35 - - - -

0 25 25 25 - ­35 25 25 25 - ­70 25 25 25 - -

105 22 20 19 - ­140 16 14 12 - ­175 11 9 7.5 - ­210 8 - - - -

4

Vertical

245 - - - - -

0 45 45 45 40 40
70 45 45 45 40 40

140 45 45 40 38 35
210 45 40 35 30 24
280 40 30 25 20 15
350 35 20 9 4 ­420 25 7 - - -

Horizontal

490 15 - - - -

0 16 16 16 - ­70 16 16 16 - -

140 16 16 16 - ­210 11 10 9.5 - ­280 9 8 7 - ­350 7 5 4 - ­420 5 2 - - -

8

Vertical

490 2 - - - -

0 40 40 35 28 27

140 40 40 35 28 27
280 40 38 35 25 24
420 35 25 20 15 10
560 25 20 15 10 6
700 20 15 10 5 3
840 - 9 4 2 2

Horizontal

980 - 4 - - -

0 8 8 8 - -

140 8 8 8 - ­280 8 8 8 - ­420 6 5 4.5 - ­560 5 4 3 - ­700 4 3 2 - ­840 - 1 - - -

SA7C 56P

16

Vertical

980 - - - - -

1. Specifications Check

24

[When high-output setting is effective of the motor straight type]

Payload capacity by acceleration/deceleration [kg]

Type

Motor

Type

Lead
[mm]

Horizontal /

Vertical

Velocity

[mm/s]

0.1G 0.3G 0.5G 0.7G 1.0G

0 20 20 18 16 14

200 20 20 18 16 14
400 20 20 18 16 14
600 20 16 15 10 9
800 16 12 10 7 4

1000 - 8 4.5 4 2

Horizontal

1200 - 5.5 2 2 1

0 3 3 3 - -

200 3 3 3 - ­400 3 3 3 - ­600 3 3 3 - ­800 - 3 2.5 - -

1000 - 2 1.5 - -

SA7C 56P 24

Vertical

1200 - 1 1 - -