IAI RCS4-TA7C, RCS4-TA4R, RCS4-TA6R, RCS4-TA6C, RCS4-TA7R Instruction Manual

Specifications

Installation

Maintenance and
Inspection

External Dimensions

Life

Warranty

Appendix

ROBO Cylinder

®

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1

ch.

2

ch.

3

ch.

4

ch.

5

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8

Instruction Manual

Connecting with
the Controller

Table Type

First Edition ME3774-1B

RCS4- TA4C/TA6C/TA7C

TA4R/TA6R/TA7R

Please Read Before Use

Thank you for purchasing our product.

This instruction manual explains the handling methods, structure and maintenance of this product,

providing the information you need in order 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 enclosed with the product contains instruction manuals for IAI products.

When using the product, refer to the necessary sections 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 the

product can refer to it quickly when necessary.

[Important]

● This instruction manual is an original document dedicated for this product.

● This product cannot be used in ways not shown in this instruction manual. IAI shall not be

liable for any result whatsoever arising from the use of the product in any other way than what

is noted in the manual.

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

purpose of product improvement.

● If any issues arise regarding the information contained in this instruction manual, contact our

customer center or the nearest sales office.

● Use or reproduction of this instruction manual in full or in part without permission is prohibited.

● The company names, names of products and trademarks of each company shown in the text

are registered trademarks.

RCS4 Table Type Instruction Manual Configuration

Product name Instruction manual name

Control
number

RCS4 First Step Guide ME3775

RCS4 Table Type

Instruction Manual

(this document)

ME3774

SCON-CB/CFB Controller

SCON-CB/CFB Controller

Instruction Manual

ME0340

SCON-CAL/CGAL Controller

SCON-CAL/CGAL Controller

Instruction Manual

ME0243

MSCON-C Controller

MSCON-C Controller

Instruction Manual

ME0306

SSEL-CS Controller

SSEL-CS Controller

Instruction Manual

ME0157

XSEL-P/Q Controller

XSEL-P/Q Controller

Instruction Manual

ME0148

XSEL-R/S Controller

XSEL-R/S Controller

Instruction Manual

ME0313

XSEL-RA/SA Controller

XSEL-RA/SA Controller

Instruction Manual

ME0359

PC Compatible Software for RC/EC

RCM-101-MW/RCM-101-USB

Instruction Manual

ME0155

PC Compatible Software for XSEL

IA-101-X-MW/IA-101-X-USBMW

Instruction Manual

ME0154

Touch Panel Teaching Pendant

TB-01/01D/01DR

Applicable for Position Controller

Instruction Manual

ME0324

Touch Panel Teaching Pendant

TB-02/02D

Applicable for Position Controller

Instruction Manual

ME0355

Data Setter

TB-03

Applicable for Position Controller

ME0376

Touch Panel Teaching Pendant

TB-01/01D/01DR

Applicable for Program Controller

Instruction Manual

ME0325

Touch Panel Teaching Pendant

TB-02/02D

Applicable for Program Controller

Instruction Manual

ME0356

Data Setter

TB-03

Applicable for Program Controller

ME0377

Contents

Safety Guide ···················································································· Intro-1
Precautions for Handling ···································································· Intro-9

International Standard Compliance ······················································· Intro-10
Names of the Parts ··········································································· Intro-11

Chapter 1 Specifications

1.1 Checking the product ································································ 1-1

Parts ··············································································································· 1-1
How to Read the Model Nameplate ········································································· 1-2
How to Read the Model Number ············································································ 1-2
Product list ········································································································ 1-3

1.2 Specifications ·········································································· 1-4

Specifications ····································································································· 1-4
Moment Load Displacement Amount ······································································· 1-40
Duty ratio ·········································································································· 1-43

1.3 Options ·················································································· 1-45

With brake (Model Code: B) ··················································································· 1-45
Cable Exit Direction Changed

(Model Code: CJT, CJR, CJL, CJB and CJO) ·················································· 1-45
Motor Reversed Direction (Model Code: ML, MR) ······················································· 1-45
Reversed-home Specification (Model Code: NM) ······················································· 1-45
High Rigidity Specification (Double Guide Block) (Model Code: DB) ······························· 1-46
Rear Attachment Plate (Model Code: RP) ································································· 1-46

1.4 Accessories ············································································ 1-47

Motor Cable ······································································································· 1-47
Encoder Cable ···································································································· 1-48

Chapter 2 Installation

2.1 Precautions for transportation ····················································· 2-1

2.2 Installation and storage/preservation environment ··························· 2-3

Installation Environment ······················································································· 2-3
Storage/preservation environment ·········································································· 2-4

2.3 How to Install ·········································································· 2-5

Installation Orientation ························································································· 2-5
Installation surface ······························································································ 2-6
Installation of the Main Unit ··················································································· 2-7
Mounting transported objects ················································································· 2-20

Chapter 3 Connecting with the Controller

3.1 Connecting with the Controller ···················································· 3-1

Chapter 4 Maintenance and Inspection

4.1 Precautions for maintenance and inspection work ··························· 4-1

4.2 Inspection Items and Schedule ··················································· 4-3

Table type ·········································································································· 4-4
Grease supply timing (Guideline) ············································································ 4-5

4.3 Visual inspection items ······························································ 4-4

External visual inspection ······················································································ 4-4
Internal visual inspection ······················································································· 4-5

4.4 Cleaning ················································································ 4-7

External cleaning ································································································ 4-7
Internal Cleaning ································································································· 4-7

4.5 Greasing method ····································································· 4-8

Grease used ······································································································ 4-8
Greasing method ································································································ 4-9

4.6 How to replace components ······················································· 4-11

Belt replacement/adjustment ·················································································· 4-11
Motor Replacement ····························································································· 4-16

Chapter 5 External Dimensions

5.1 External Dimensions ································································· 5-1

RCS4-TA4C ······································································································· 5-1
RCS4-TA6C ······································································································· 5-3
RCS4-TA7C ······································································································· 5-5
RCS4-TA4R ······································································································· 5-7
RCS4-TA6R ······································································································· 5-9
RCS4-TA7R ······································································································· 5-11

Chapter 6 Life

6.1 Concept of life ········································································· 6-1

Chapter 7 Warranty

7.1 Warranty period ······································································· 7-1

7.2 Scope of the warranty ······························································· 7-1

7.3 Honoring the warranty ······························································· 7-1

7.4 Limited liability ········································································· 7-2

7.5 Conformance with applicable standards/regulations,etc.,
and application conditions ·························································· 7-2

7.6 Other Items excluded from warranty ············································· 7-2

Chapter 8 Appendix

8.1 Index ····················································································· 8-1

8.2 Revision history ······································································· 8-3

Safety Guide

Intro-1

Safety Guide

The Safety Guide is intended to permit safe use of the product and thus to prevent risks and property

damage. Be sure to read it before handling the product.

Safety Guide

Intro-2

Safety Precautions for Our Products

Common safety precautions for the use of robots in various operations are indicated here.

No. Operation Precautions

1 Model

Selection

● This product is not intended or designed for applications where high levels of
safety are required, and so cannot guarantee that human lives will be
protected. 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 or machinery designed for the purpose of moving or

transporting people (vehicles, railway facilities, aviation facilities etc.)

(3) Machinery components essential for safety (safety devices etc.)

● Do not use the product outside the range of the specifications. Otherwise,
the product life may be drastically shortened, and product damage or facilities
stoppage may occur.

● Do not use it in any of the following environments.
(1) Locations with flammable gases, ignitable objects or explosives
(2) Locations with potential exposure to radiation
(3) Locations with ambient temperature or relative humidity exceeding the

specifications range

(4) Locations where radiant heat is applied by direct sunlight or other large

heat source
(5) Locations where condensation occurs due to abrupt temperature changes
(6) Locations with corrosive gases (sulfuric acid, hydrochloric acid, etc.)
(7) Locations exposed to significant amounts of dust, salt or iron powder
(8) Locations subject to direct vibration or impact

● For an actuator used in vertical orientation, select a model which is equipped
with a brake. If a model without brake is selected, the moving parts may fall
when the power is turned OFF, causing accidents such as injury or workpiece
damage.

Safety Guide

Intro-3

No. Operation Precautions

2 Transportation ● When transporting heavy objects, do the work with two or more persons or

utilize equipment such as a crane.

● When working with two or more persons, make it clear who is to be in charge
and communicate well with each other to ensure safety.

● During transportation, carefully consider the carrying positions, weight, and
weight balance, and be careful to avoid collisions or dropping.

● Use appropriate transportation measures for transport.
The actuators available for transportation with a crane have eyebolts attached
or tapped holes to attach bolts. Follow the instructions in the instruction manual
for each model.

● Do not climb onto the package.

● Do not put anything heavy that could deform the package on it.

● When using a crane with capacity of 1t or more, have an operator qualified for
crane operation and sling work.

● When using a crane or equivalent equipment, make sure not to suspend loads
exceeding the equipment's rated load.

● Use a hook that is suitable for the load. Consider the safety factor of the hook in
such factors as shear strength. Also, check to make sure that the hook is free of
damage.

● Do not climb on loads suspended from cranes.

● Do not leave loads suspended from cranes for long periods.

● Do not stand under loads suspended from cranes.

3 Storage

and
Preservation

● For the storage and preservation environment, see the installation
environment. However, give especial consideration to the prevention of
condensation.

● Store the products so as to prevent them from falling over or down in the case
of natural disasters such as earthquakes.

Safety Guide

Intro-4

No. Operation Precautions

4 Installation

and
Startup

(1) Installation of robot body and controller, etc.

● Be sure to securely hold and fix the product (including the workpiece).

If the product falls over, is dropped, or operates abnormally, it may lead to
damage and injury.
Also, be equipped for falls over or down due to natural disasters such as
earthquakes.

● Do not climb on or put anything on the product. Otherwise, this may lead to

accidental falling, injury or damage to the product due to falling objects, product
loss of function or performance degradation, or shortening of product life.

● When using the product in any of the places specified below, provide sufficient

shielding.
(1) Locations where electrical noise is generated
(2) Locations with strong electrical or magnetic fields
(3) Locations with mains or power lines passing nearby
(4) Locations where the product may come in contact with water, oil or

chemical spray

(2) Cable wiring

● Use IAI genuine cables for connecting the actuator and controller, and for the

teaching tools.

● Do not scratch cables, bend them forcibly, pull them, coil them, snag them,

or place heavy objects on them. Otherwise, this may lead to fire, electric shock,
or abnormal operation due to leakage or conduction malfunction.

● Perform the wiring for the product after turning OFF the power to the unit, and

avoid miswiring.

● When wiring DC power (+24V), be careful with the positive/negative polarity.

Incorrect connections may lead to fire, product breakdown or abnormal
operation.

● Connect the cable connector securely so that there is no disconnection or

looseness. Otherwise, this may lead to fire, electric shock, or abnormal
operation of the product.

● Never cut or reconnect the cables supplied with the product for the purpose of

extending or shortening the cable length. Otherwise, this may lead to fire or
abnormal operation of the product.

(3) Grounding

● Grounding must be performed, in order to prevent electric shocks or

electrostatic charge, enhance noise-resistant performance and control
unnecessary electromagnetic radiation.

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

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

2

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

● Perform Class D grounding (former Class 3 grounding, with ground resistance

100Ω or below).

Safety Guide

Intro-5

No. Operation Precautions

4 Installation

and
Startup

(4) Safety measures

● When working with two or more persons, make it clear who is to be in charge

and communicate well with each other to ensure safety.

● When the product is operating or in the ready mode, take safety measures

(such as the installation of safety/protection fences) so that nobody can enter
the area within the robot's movable range. Contact with an operating robot may
lead to death or serious injury.

● Be sure to install an emergency stop circuit so that the unit can be stopped

immediately in an emergency during operation.

● Take safety measures such that turning the power ON alone will not start up the

unit. Otherwise, this may cause the product to start unexpectedly, leading to
injury or product damage.

● Take safety measures such that emergency stop cancel or recovery after

power failure alone will not start up the unit. Otherwise, this may lead to injury
or equipment damage.

● When installation or adjustment operation is to be performed, display signs

such as "Operating: No Power ON!" etc. Sudden power input may cause
electric shock or injury.

● Take measures to prevent workpieces, etc. from falling during power failures or

emergency stop.

● Wear protection gloves, goggles and safety shoes, as necessary, to secure

safety.

● Do not insert fingers or objects into the openings in the product. Otherwise,

this may lead to injury, electric shock, product damage, or fire.

● When releasing the brake on a vertically oriented actuator, be careful that it

does not fall under its own weight, catching the operator's hand or damaging
workpieces.

5 Teaching ● When working with two or more persons, make it clear who is to be in charge

and communicate well with each other to ensure safety.

● Perform teaching operation from outside the safety/protection fence,
if possible. If operation must be performed within the safety/protection fence,
prepare "Work Regulations" and make sure that all the workers acknowledge
and understand them well.

● When operation is to be performed inside the safety/protection fence,
operators should have emergency stop switches available at hand so that the
unit can be stopped at any time if abnormalities occur.

● When operation is to be performed inside the safety/protection fence,
have a monitor standing by in addition to the operator(s) so that the unit can be
stopped at any time if abnormalities occur. Also, keep watch on the operation
so that a third party cannot operate the switches carelessly.

● Place a sign indicating "Operating" where it can be seen easily.

● When releasing the brake on a vertically oriented actuator, be careful that it
does not fall under its own weight, catching the operator's hand or damaging
workpieces.

* Safety/protection fence: If there is no safety/protection fence, the movable

range should be indicated.

Safety Guide

Intro-6

No. Operation Precautions

6 Trial

Operation

● When working with two or more persons, make it clear who is to be in charge
and communicate well with each other to ensure safety.

● After teaching or programming, carry out trial operation step by step before
switching to automatic operation.

● When trial operation is to be performed inside the safety/protection fence,
use the same work procedure, determined in advance, as teaching operation.

● Be sure to confirm program operation at safe speeds. Otherwise, this may lead
to accidents due to unexpected motion caused by program error, etc.

● Do not touch the terminal block or any of the various setting switches while the
equipment is live. Otherwise, this may lead to electric shock or abnormal
operation.

7 Automatic

Operation

● Check before starting automatic operation or restarting after operation stop that

there is nobody within the safety/protection fence.

● Before starting automatic operation, make sure that all peripheral equipment is

ready for automatic operation and that there is no alarm indication.

● Be sure to start automatic operation from outside the safety/protection fence.

● If the product produces abnormal heat, smoke, odor, or noise, immediately stop

it and turn OFF the power switch. Otherwise, this may lead to fire or damage to
the product.

● When a power failure occurs, turn OFF the power switch. Otherwise, this may

lead to injury or product damage due to unexpected product motion during
recovery from the power failure.

8 Maintenance

and
Inspection

● When working with two or more persons, make it clear who is to be in charge
and communicate well with each other to ensure safety.

● Perform the work outside the safety/protection fence, if possible.
If operation must be performed within the safety/protection fence, prepare
"Work Regulations" and make sure that all the workers acknowledge and
understand them well.

● When work is to be performed inside the safety/protection fence, turn OFF the
power switch as a rule.

● When operation is to be performed inside the safety/protection fence,
operators should have emergency stop switches available at hand so that the
unit can be stopped at any time if abnormalities occur.

● When operation is to be performed inside the safety/protection fence,
have a monitor standing by in addition to the operator(s) so that the unit can be
stopped at any time if abnormalities occur. Also, keep watch on the operation
so that a third party cannot operate the switches carelessly.

● Place a sign indicating "Operating" where it can be seen easily.

● For the grease for the guide or ball screw, use appropriate grease according to
the Instruction Manual for each model.

● Do not perform dielectric strength testing. Otherwise, this may lead to damage
to the product.

Safety Guide

Intro-7

No. Operation Precautions

8 Maintenance

and
Inspection

● When releasing the brake on a vertically oriented actuator, be careful that it
does not fall under its own weight, catching the operator's hand or damaging
workpieces.

● The slider or rod may be misaligned from the stop position if the servo is turned
OFF. Avoid injury or damage due to unnecessary operation.

● Be careful not to lose the cover or any removed screws, and be sure to return
the product to the original condition after maintenance and inspection work.
Otherwise, this may lead to product damage or injury due to incomplete
mounting.

* Safety/protection fence: If there is no safety/protection fence, the movable

range should be indicated.

9 Modification

and
Disassembly

● Do not modify, disassemble/assemble, or use maintenance parts not specified

on your own discretion.

10 Disposal ● When the product exceeds its useful life or is no longer needed, dispose of it

properly as industrial waste.

● When removing the actuator for disposal, avoid dropping components when

detaching screws.

● Do not put the product in a fire when disposing of it. The product may rupture or

generate toxic gases.

11 Other ● If you are equipped with a medical device such as a pacemaker, do not

approach the product or its wiring, as the device may be affected.

● See the Overseas Specifications Compliance Manual to check compliance with

overseas standards if necessary.

● For the handling of actuators and controllers, follow the dedicated instruction

manual of each unit to ensure safety.

Safety Guide

Intro-8

Precaution Indications

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 risk to persons and property 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 a situation in which, while injury is not a likely result,
the precautions should be observed in order to use the product
appropriately.

Notice

Precautions for Handling

Intro-9

Precautions for Handling

1. The Safety Guide attached with the product is intended to permit safe use of

the product and thus to prevent risks and property damage. Be sure to read it

before handling the product.

2. Do not attempt any handling or operation that is not indicated in this instruction

manual.

3. Make sure to secure the actuator properly in accordance with this instruction

manual.

If the actuator is not securely fixed, this may lead to abnormal noise, vibration, breakdown or

shortened product life.

4. Make sure to observe the usage conditions and environment of the product.

Operation outside the warranty could cause decreased performance or product breakdown.

Use within the allowable range for each item.

Item

Cautions

for use

Problems or breakdowns which may

occur if the allowable

range is exceeded

Speed and

acceleration/deceleration

Use within the

allowable

range

May lead to abnormal noise, vibration,
breakdown, or shortened product life.

Allowable load moment

Use within the

allowable

range

May lead to abnormal noise, vibration,
breakdown, or shortened product life.
In extreme cases, flaking may occur on the
guide or ball screw.

Overhang load length

Mounting a load with an overhang length
greater than the allowable values may lead
to vibration or abnormal noise.

Precautions for Handling
International Standard Compliance

Intro-10

5. If return operations are continued over a short distance, they may rapidly

degrade the film of grease.

Continuous return operation within a distance less than 30mm may cause the grease film to

degrade rapidly.

As a guideline, in every 5,000 to 10,000 cycles, have approximately 5 cycles of return operation

over a 50mm distance or more to regenerate the oil film. Continued use of the actuator in that

state may lead to breakdown.

In extreme cases, flaking may occur on the guide or ball screw.

6. Do not attempt to have tables collide with an obstacle at high speed.

This may damage the coupling or other mechanical parts.

7. In some conditions of environment of use, postures of installation and
conditions of operation, the base oil separated from the grease may come out
of ROBO Cylinder.
It is recommended to have a protection in case the peripheral devices could
get influence of the base oil.

International Standard Compliance

The ROBO Cylinder complies with the following overseas standards.

Refer to the Overseas Standard Compliance Manual (ME0287) for more detailed information.

CE Marking RoHS Directive

{ {

Names of the Parts

Intro-11

Names of the Parts

In this manual, the actuator left/right sides and motor/opposite sides are shown as in the figure

below.

Motor Straight Type

Motor Reversing Type

Rear Bracket

Right Side

Reverse Bracket

Opposite Side
of the Motor

Left Side

Motor Side

Hole Cap

(

Oil Supply Inlet

)

MotorCove

r

Actuato

r

Cable Ass

y

Tapped hole fo

r

Ground Line Attachment

End Cove

r

Front Cove

r

Table

Coupling Cove

r

Motor Bracket

Pulley Cove

r

Front Plate

Oil Pad

Base Frame

MotorUnit

Names of the Parts

Intro-12

Specifications

1.1 Checking the product ··············································· 1-1

Parts ······················································································ 1-1
How to Read the Model Nameplate ·············································· 1-2
How to Read the Model Number ·················································· 1-2
Product list ·············································································· 1-3

1.2 Specifications ························································· 1-4

Specifications ·········································································· 1-4
Moment Load Displacement Amount ············································ 1-40
Duty ratio ················································································ 1-43

1.3 Options ································································· 1-45

With brake (Model Code: B) ························································ 1-45
Cable Exit Direction Changed
(Model Code: CJT, CJR, CJL, CJB and CJO) ······························· 1-45
Motor Reversed Direction (Model Code: ML, MR) ··························· 1-45
Reversed-home Specification (Model Code: NM) ···························· 1-45
High Rigidity Specification (Double Guide Block) (Model Code: DB) ···· 1-46
Rear Attachment Plate (Model Code: RP) ······································ 1-46

1.4 Accessories ··························································· 1-47

Motor Cable ············································································· 1-47
Encoder Cable ········································································· 1-48

ROBO Cylinder

Chapter

1.1 Checking the Product

1-1

1. Specifications

1.1 Checking the Product

Parts

The following table shows the product configuration for the standard specification.

See the component list for the details of the enclosed components. If you find any fault or missing

parts, contact your local IAI distributor.

Body Accessories

Actuator Quantity 1 Motor Cable Quantity 1

Encoder Cable Quantity 1

Accessories

In-house Made Seals

Quantity 1

Cross Recessed Pan Head Screw

with Captive Washer M3×6

Quantity 2

For affixing ground cable

Cable Band Quantity 2

For clamping connector cover

* Refer to International

Application Manual (ME0287)

for how to use it.

Accessories (Documents/DVD)

First Step Guide

Quantity 1

Safety Guide Quantity 1

Instruction Manual (DVD)

Quantity 1

1.1 Checking the Product

1-2

1. Specifications

How to Read the Model Nameplate

How to Read the Model Number

Model→

Serial number→

[Nameplate Position]

N

P

S

M

X□□

R□□

2.5

3

4

5

6

8

10

12

16

20

24

25 25mm

390mm

WARCS4

B

CJT

CJR

CJL

CJO

CJB

DB

ML

MR

NM

RP

TA4C

TA6C

TA7C

TA4R

TA6R

TA7R

WA

60

100

200

400

60W

100W

200W

400W

T2

SCON
MSCON
SSEL
XSEL-P/Q
XSEL-RA/SA

Applicable

Controller

Ball Screw

Lead

Encoder

Type

Motor

Wattage

Type Series

Stroke

Options

Cable Length

Body Width 40mm
Coupling Type

Body Width 60mm
Coupling Type

Body Width 70mm
Coupling Type

Body Width 40mm
Motor-Reversed Type

Body Width 60mm
Motor-Reversed Type

Body Width 70mm
Motor-Reversed Type

Battery-less Absolute

Lead 2.5mm

Lead 3mm

Lead 4mm

Lead 5mm

Lead 6mm

Lead 8mm

Lead 10mm

Lead 12mm

Lead 16mm

Lead 20mm

Lead 24mm

390

to to

None

1m

3m

5m

Length Specification

Robot Cable

With brake

Cable Exit Direction Changed (Top)

Cable Exit Direction Changed (Right)

Cable Exit Direction Changed (Left)

Cable Exit Direction Changed (Outward)

Cable Exit Direction Changed (Bottom)

High Rigidity Specification (Double Guide Block)

Motor Left Reversed Direction

Motor Right Reversed Direction

Reversed-home Specification

Rear Attachment Plate

* Please note that the available range of ball screw lead, stroke and options will differ depending on the actuator type.

1.1 Checking the Product

1-3

1. Specifications

Product list

1.5[−]

3

6

9

4[−]

6

10

12

5[−]

10[8]

18

20[24]

1.5[−]

3

6

9

4[−]

6

10

10[12]

5[−]

10[8]

18

20[24]

4[−]

5[8]

5[10]

5[10]

8[−]

8[14]

8[20]

10[20]

12[−]

15[25]

15[30]

15[30]

4[−]

5[8]

5[10]

5[10]

8[−]

8[14]

8[20]

10[20]

12[−]

15[25]

15[30]

15[30]

53[−]

85

170

340

85[−]

142

283

566

142[−]

214

427

855

53[−]

85

170

340

85[−]

142

283

566

142[−]

214

427

855

900[−]

600

300

150

1100[−]

720

360

180

1300[−]

960

480

240

800[−]

600

300

150

1000[−]

720

360

180

1200[−]

960

480

240

±0.01

±0.01

±0.01

±0.01

±0.01

±0.01

* The specifications should be applicable only to single block (SB) type. Values in brackets [ ] show specifications for double block type

40mm

60mm

70mm

40mm

60mm

70mm

TA4 C

TA6 C

TA7 C

TA4 R

TA6 R

TA7 R

16*

10

5

2.5

20*

12

6

3

24*

16

8

4

16*

10

5

2.5

20*

12

6

3

24*

16

8

4

60

100

200

60

100

200

Max. Speed

(mm/s)

Category Type Appearance

Body Width

(mm)

Lead
(mm)

Motor Wattage

(W) (mm)

Stroke

(mm)

Horizontal

Max. Payload (kg)

Vertical

Rated Thrust

(N)

Positioning Repeatability

Motor
Straight
Type

Motor
Reversing
Type

SB type: 25 to 150 (Every 25 st)

DB type: 40 to 90 (Every 25 st)

140, 190, 240

SB type: 25 to 200 (Every 25 st)

DB type: 45 to 120 (Every 25 st)

170 to 320 (Every 50 st)

SB type:

25 to 200 (Every 25 mm)

DB type: 40 to 90 (Every 25 mm)

140 to 390 (Every 50 mm)

SB type: 25 to 150 (Every 25 st)

DB type: 40 to 90 (Every 25 st)

140, 190, 240

SB type: 25 to 200 (Every 25 st)

DB type: 45 to 120 (Every 25 st)

170 to 320 (Every 50 st)

SB type:

25 to 200 (Every 25 mm)

DB type: 40 to 90 (Every 25 mm)

140 to 390 (Every 50 mm)

250, 300

250, 300

1.2 Specifications

1-4

1. Specifications

1.2 Specifications

Specifications

[1] RCS4-TA4C

~ Single Guide Block

[Lead and Payload]

Lead

(mm)

Max. Payload

Rated Thrust

(N)

Horizontal(kg) Vertical(kg)

16 4 1.5 53

10 5 3 85

5 5 6 170

2.5 5 9 340

[Stroke and Max Speed]

Unit: mm/s

Lead
(mm)

25 to 150

(Every 25mm)

16 900
10 600

5 300

2.5 150

Caution

The maximum speed may not be achieved when the stroke or movement distance is
short or when acceleration/deceleration is set low.
Setting at or below the minimum speed may lead to abnormal noise or unstable speeds.
Do not attempt to set below the minimum speed.
The minimum speed can be calculated with the equation below.
Minimum speed [mm/s] = ball screw lead [mm/r] ÷ 16384 [p/r] x 1000 [1/s]
(mm/r: movement per 1 motor revolution, p/r: pulse per 1 motor revolution)

1.2 Specifications

1-5

1. Specifications

~ Single Guide Block

[Payload by Acceleration]

At low load capacity, the acceleration/deceleration can be increased.

Lead 16 Lead 10

Horizontal Vertical Horizontal Vertical

0.3 0.5 0.7 1.0 1.2 0.3 0.5 0.7 1.0 1.2 0.3 0.5 0.7 1.0 1.2 0.3 0.5 0.7 1.0 1.2

4 4 4 4 3 1.5 1.5 1.5 1.5 1.5 5 5 5 5 5 3 3 3 3 3

Lead 5 Lead 2.5

Horizontal Vertical Horizontal Vertical

0.3 0.5 0.7 1.0 1.2 0.3 0.5 0.7 1.0 1.2 0.3 0.5 0.7 1.0 1.2 0.3 0.5 0.7 1.0 1.2

5 5 5 5 ‒ 6 6 6 6 ‒ 5 5 5 ‒ ‒ 9 9 9 ‒ ‒

Caution

Do not attempt to configure settings for acceleration/deceleration above the specifications.
This may lead to vibration, breakdown, or shortened product life.

1.2 Specifications

1-6

1. Specifications

~ Double Guide Block (Option Model: DB)

[Lead and Payload]

Lead
(mm)

Max. Payload

Rated Thrust

(N)

Horizontal(kg) Vertical(kg)

10 8 3 85

5 10 6 170

2.5 10 9 340

[Stroke and Max Speed]

Unit: mm/s

Lead
(mm)

40, 65, 90, 140, 190 and 240

10 600

5 300

2.5 150

Caution

The maximum speed may not be achieved when the stroke or movement distance is
short or when acceleration/deceleration is set low.
Setting at or below the minimum speed may lead to abnormal noise or unstable speeds.
Do not attempt to set below the minimum speed.
The minimum speed can be calculated with the equation below.
Minimum speed [mm/s] = ball screw lead [mm/r] ÷ 16384 [p/r] x 1000 [1/s]
(mm/r: movement per 1 motor revolution, p/r: pulse per 1 motor revolution)

1.2 Specifications

1-7

1. Specifications

~ Double Guide Block (Option Model: DB)

[Payload by Acceleration]

At low load capacity, the acceleration/deceleration can be increased.

Lead 10 Lead 5

Horizontal Vertical Horizontal Vertical

0.3 0.5 0.7 1.0 1.2 0.3 0.5 0.7 1.0 1.2 0.3 0.5 0.7 1.0 1.2 0.3 0.5 0.7 1.0 1.2

8 8 8 6 4 3 3 3 3 3 10 10 10 8 ‒ 6 6 6 6 ‒

Lead 2.5

Horizontal Vertical

0.3 0.5 0.7 1.0 1.2 0.3 0.5 0.7 1.0 1.2

10 10 10 ‒ ‒ 9 9 9 ‒ ‒

Caution

Do not attempt to configure settings for acceleration/deceleration above the specifications.
This may lead to vibration, breakdown, or shortened product life.

If the stroke is long, lighten the transportable mass according to the following graph.

Horizontal

installation

Vertical installation

Sideway

installation

Stroke [mm]

Mass [kg]

Stroke [mm]

Mass [kg]

Stroke [mm]

Mass [kg]

Single Block Double Block Single Block Double Block Single Bloc k Double Block

1.2 Specifications

1-8

1. Specifications

[Actuator Specifications]

Item Content

Drive System Ball Screw φ8mm, Rolled C10

Positioning Repeatability (*1) ±0.01mm

Lost Motion 0.1 mm or less

Base Material: Aluminum, White Anodized

Single Guide Block

Allowable static moment Ma direction: 13.0 N•m, Mb direction: 18.6 N•m, Mc direction: 25.3 N•m

Allowable dynamic moment (*1) Ma direction: 5.0 N•m, Mb direction: 7.11 N•m, Mc direction: 9.68 N•m

Double Guide Block

Allowable static moment Ma direction: 76.8 N•m, Mb direction: 110 N•m, Mc direction: 50.5 N•m

Allowable dynamic moment (*1) Ma direction: 23.9 N•m, Mb direction: 34.1 N•m, Mc direction: 15.7 N•m

No. of Encoder Pulses 16384

Ambient operating temperature/humidity 0 to 40°C, 85%RH or less (Non-condensing)

• Overhang load length guideline: Within the range of dynamic load moment

(*1) For reference rated life of 5000km. The running life differs according to operation conditions and mounting

status.

1.2 Specifications

1-9

1. Specifications

Table type moment direction

Table type overhang load length (L = Within the range of dynamic load moment)

Ma direction Mb•Mc direction

* For calculation of Ma and Mc moments, take the position pointed with an arrow as the datum.

Caution

If the actuator is used with excessive allowable moment and overhang load, it may not
only lead to abnormal noise and vibration but also significantly reduce the life of the
actuator.

Ma

(Pitching)

Mb

(Yawing)

Mc

(Rolling)

L

L

Guide Block Center Position

44 (Single Block)
74 (Double Block)

1.2 Specifications

1-10

1. Specifications

[2] RCS4-TA6C

~ Single Guide Block

[Lead and Payload]

Lead
(mm)

Max. Payload

Rated Thrust

(N)

Horizontal(kg) Vertical(kg)

20 8 4 85
12 8 6 142

6 8 10 283
3 10 12 566

[Stroke and Max Speed]

Unit: mm/s

Lead
(mm)

25 to 200

（Every 25mm）

20 1100
12 720

6 360
3 180

Caution

The maximum speed may not be achieved when the stroke or movement
distance is short or when acceleration/deceleration is set low.
Setting at or below the minimum speed may lead to abnormal noise or unstable
speeds.
Do not attempt to set below the minimum speed.
The minimum speed can be calculated with the equation below.
Minimum speed [mm/s] = ball screw lead [mm/r] ÷ 16384 [p/r] x 1000 [1/s]
(mm/r: movement per 1 motor revolution, p/r: pulse per 1 motor revolution)

1.2 Specifications

1-11

1. Specifications

~ Single Guide Block

[Payload by Acceleration]

At low load capacity, the acceleration/deceleration can be increased.

Lead 20 Lead 12

Horizontal Vertical Horizontal Vertical

0.3 0.5 0.7 1.0 1.2 0.3 0.5 0.7 1.0 1.2 0.3 0.5 0.7 1.0 1.2 0.3 0.5 0.7 1.0 1.2

8 8 8 6 4 4 4 3 3 2 8 8 8 8 8 6 6 6 6 6

Lead 6 Lead 3

Horizontal Vertical Horizontal Vertical

0.3 0.5 0.7 1.0 1.2 0.3 0.5 0.7 1.0 1.2 0.3 0.5 0.7 1.0 1.2 0.3 0.5 0.7 1.0 1.2

8 8 8 8 ‒ 10 10 10 10 ‒ 10 10 10 ‒ ‒ 12 12 12 ‒ ‒

Caution

Do not attempt to configure settings for acceleration/deceleration above the specifications.
This may lead to vibration, breakdown, or shortened product life.