(!)Due to Microsoft's end of support for Internet Explorer 11 on 15/06/2022, this site does not support the recommended environment.

  • Please note that some of the items may take longer lead time to ship due to Japan New Year holidays (29-Dec-2024 to 5-Jan-2025). Early order placement is recommended. We apologize for the inconvenience caused and appreciate your kind understanding. [Details]
  • Please note that E-Invoice will be sent to our customers by email. For more information, please read News. 

Disc Couplings High Flexible, Single Disc

Economy High Flexible Single Disc Coupling

Single disc High strength Precision machinery

- Compact structure with no backlash

- Excellent shock absorption, ensuring no noise and no wear

- High transmission efficiency up to specified percentage

- Suitable for harsh environments and high temperatures

- Simple and lightweight design allows for easy installation and disassembly

Economy High Flexible Single Disc Coupling
MISUMI Economy Logo

MISUMI Standard
MISUMI Standard

Cheaper Price
Cheaper Price

Product Variety
Product Variety

3D CAD
3D CAD Support


Coupling Product Overview

The disc Coupling is composed of several groups of discs (stainless steel thin plates) that are interlaced with two halves of the Coupling with bolts, and each group of discs is formed by stacking several pieces.
The disc Coupling relies on the elastic deformation of the disc to compensate for the relative displacement of the connected two shafts, which is a high-performance flexible Coupling with strong metal components.
It is characterized by compact structure, no backlash, high strength, long service life, no rotation clearance, no influence of temperature and oil pollution, acid resistance, alkali resistance and corrosion resistance.
Applicable motor types: recommended for servo motors, stepping motors and general motors.
 

Coupling Product Feature

■ Main characteristics of disc Coupling
1. Strong ability to compensate for misalignment between two axes. Compared with tooth Coupling, angular displacement can be doubled. In case of radial displacement, reaction force is small, flexibility is large, and certain axial, radial and angular displacements are allowed.
2. It has obvious shock absorption, no noise and no wear.
3. Suitable for working in high temperature (-80+300) and harsh environment, and operate safely under shock and vibration conditions.
4. High transmission efficiency, up to 99.86%. Especially suitable for medium, high speed and high power transmission.
5. Simple structure, light weight, small in size and convenient assembly and disassembly. It can be assembled and disassembled without moving the machine (models with intermediate shaft), and requiring no lubrication.
6. It can accurately transmit the rotational speed without slip, and can be used for transmission of precision machinery.
 

Dimensional Coupling Drawing

Universal type with excellent flexibility. The price is the lowest among MISUMI disc Couplings suitable for servo motors.

Dimensional Coupling Drawing The bolt direction of single disc Coupling is staggered on opposite sides (to improve product balance). The drawings are for reference only. The actual products may differ.

 
【Economic type】Disc type Coupling High flexibility type (Single disc type) Servo motor applicable type: Related image
【Economic type】Disc type Coupling High flexibility type (Single disc type) Servo motor applicable type: Related image
TypeMaterialMaterialSurface TreatmentSurface TreatmentAccessoriesAccessories
BodyDiscSet Screw, Fastening BoltBodySet Screw, Fastening Bolt
AluminumStainless SteelSCM435Alumite TreatmentFerroferric Oxide Protective FilmFastening Bolt
Set Screw

Coupling Specification Table

Dd1, d2 selection (But d1≤d2)LF1F2AFastening BoltSet Screw
MTightening TorqueMTightening Torque
(N·m)(N·m)
204566.358       23.05113.55.56.4M2.51.0M30.7
26 566.3581011     25.4511.93.55.59
29 566.35810111214   25.711.93.55.510.5M2.51.0M41.7
33  6 8101112141516 28.51346.512M31.5
39    81011121415161835164.75814M43.5M54.0
d1 d2 *marked products without keyway hole.d1, d2*marked products without keyway hole.

■Characteristic Value
DAllowable torque
(N·m)
Allowable angle
(°)
Static torsional rigidity
(N·m/rad)
Maximum speed
(r/min)
Moment of inertia
(kg·m2)
Allowable axial amplitude
(mm)
ompensation coefficientWeight (g)

GCPS

GCPSS

2012700100008.8×107±0.1021617
26210002.5×106±0.102426
29313504.1×106±0.153135
33520007.7×106±0.204449
39842501.9×105±0.258288
Lateral misalignment is not allowed for single disc type.Lateral misalignment is not allowed for single disc type.
Static torsional stiffnessStatic torsional stiffness, moment of inertia and weight are the values at the maximum shaft dia..

■Shaft slip torque (N·m) Shaft slip torque (N·m)When the shaft slip torque is less than the allowable torque, please use it below the shaft slip torque.
Dd1, d2
4566.35810111214151618
201.01.01.01.01.0
261.01.52.02.02.02.0
291.01.52.02.52.53.03.03.0
332.52.53.53.54.05.05.05.0
395.58.08.08.08.08.08.08.0

Coupling Precautions

■ Calibration and adjustment
1. The Coupling allows axis deviation, and transmits rotation angle and torque, but when the axis deviation exceeds the allowable value, vibration will occur or the service life will be drastically reduced.
Be sure to make calibration and adjustment.
2. Axis deviation includes lateral misalignment (parallel error of two axes), angular misalignment (angular error of two axes) and axial amplitude (axial movement of shaft).
Please calibrate and adjust the shaft to ensure that the axis deviation is below the allowable value recorded in the dimension and performance table of each product.
3. The allowable value of axis deviation recorded in the dimension and performance table refers to the situation when either lateral misalignment, angular misalignment or axial amplitude occurs alone. When more than two axis deviations occur at the same time, the corresponding allowable values are halved respectively.
4. Axis deviation not only occurs when assembling to the device, but also is caused by vibration, thermal expansion and bearing wear in operation. Therefore, it is recommended to set the axis deviation below 1/3 of the allowable value.
 

Example of Use Coupling

Use example of Coupling 1) motor × gear boxUse example of Coupling 2) motor × ball screw
Use example of Coupling 1: motor×gear boxUse example of Coupling 2: motor×ball screw
  
Use example of Coupling 3) motor × encoderUse example of Coupling 4) motor × measuring tester
Use example of Coupling 3: motor×encoderUse example of Coupling 4: motor×measuring tester

Coupling Usage Method

■Mounting method
STEP1 Insert the Coupling
Confirm that the clamping bolt has been unscrewed, and then remove the dust, foreign matter and oil from the shaft and Coupling bore.
Then, when inserting the Coupling into the shaft, please be careful not to put the disc under excessive stress such as compression or tension.
STEP2 Use fixture to adjust
Please use fixture to adjust and fix the concentricity of the left and right hubs of the Coupling with high accuracy.
STEP3 Simple lateral misalignment and angular misalignment confirmation
Under the condition of unscrewed bolts, make the Coupling slide axially and confirm its smooth movement.
Then, rotate the Coupling to make sure it moves smoothly.
Lateral misalignment is not allowed for single disc type Coupling, so carry out positioning securely.
Simple lateral misalignment confirmation   Simple angular misalignment confirmation
STEP4 Installation
Please adjust the shaft insertion amount according to the dimension ℓ in the product catalog, and use a torque wrench to tighten with the specified torque.
* If the specified torque cannot be reached once, please cross fasten the left and right clamps twice or three times.

Part Number 

CAD Data download and 3D preview are not available because the part number has not yet been determined.

  • *In order to open the CAD Data download and 3D preview screen, the part number must be fixed.
  • Please confirm the part number from "Specification / Dimension"on the left side, and then perform the CAD Data Download / 3D Preview operation.
Loading...
Part Number
GCPS26-6-8
GCPS26-8-8
GCPS26-10-10
GCPS29-5-11
GCPS29-6-11
GCPS29-6-14
GCPS29-8-8
GCPS29-8-10
GCPS29-8-11
GCPS29-8-12
GCPS29-8-14
GCPS29-10-14
GCPS29-12-14
GCPSRK29-6-14
Part NumberStandard Unit PriceMinimum order quantityVolume DiscountDays to ShipShaft Bore Dia. 1 d1 (or d)
(Ø)
Shaft Bore Dia. 2 d2 (or d)
(Ø)
O.D.
(Ø)
Overall Length
(mm)
Application Allowable Torque Range
(N•m)
Features Allowable Torque
(N•m)
Allowable Axial Misalignment
(mm)
Moment of Inertia
(kg・m2)
Shaft Bore Shape Shaft Tightening Method

MYR 112.76

1 Piece(s)Available 1 Day(s) 682625.45For Servo Motors1.01~3.00High Torque Type / Zero Backlash20.12.5×10-6Standard BoreFastening Bolt

MYR 112.76

1 Piece(s)Available 1 Day(s) 882625.45For Servo Motors1.01~3.00High Torque Type / Zero Backlash20.12.5×10-6Standard BoreFastening Bolt

MYR 112.76

1 Piece(s)Available 1 Day(s) 10102625.45For Servo Motors1.01~3.00High Torque Type / Zero Backlash20.12.5×10-6Standard BoreFastening Bolt

MYR 71.44

1 Piece(s)Available 1 Day(s) 5112925.7For Servo Motors / Stepping Motor1.01~3.00High Torsional Rigidity / High Torque Type / Zero Backlash30.154.1×10-6Standard BoreFastening Bolt

MYR 71.44

1 Piece(s)Available 1 Day(s) 6112925.7For Servo Motors / Stepping Motor1.01~3.00High Torsional Rigidity / High Torque Type / Zero Backlash30.154.1×10-6Standard BoreFastening Bolt

MYR 71.44

1 Piece(s)Available 1 Day(s) 6142925.7For Servo Motors / Stepping Motor1.01~3.00High Torsional Rigidity / High Torque Type / Zero Backlash30.154.1×10-6Standard BoreFastening Bolt

MYR 71.44

1 Piece(s)Available 1 Day(s) 882925.7For Servo Motors / Stepping Motor1.01~3.00High Torsional Rigidity / High Torque Type / Zero Backlash30.154.1×10-6Standard BoreFastening Bolt

MYR 71.44

1 Piece(s)Available 1 Day(s) 8102925.7For Servo Motors / Stepping Motor1.01~3.00High Torsional Rigidity / High Torque Type / Zero Backlash30.154.1×10-6Standard BoreFastening Bolt

MYR 71.44

1 Piece(s)Available 1 Day(s) 8112925.7For Servo Motors / Stepping Motor1.01~3.00High Torsional Rigidity / High Torque Type / Zero Backlash30.154.1×10-6Standard BoreFastening Bolt

MYR 71.44

1 Piece(s)Available 1 Day(s) 8122925.7For Servo Motors / Stepping Motor1.01~3.00High Torsional Rigidity / High Torque Type / Zero Backlash30.154.1×10-6Standard BoreFastening Bolt

MYR 71.44

1 Piece(s)Available 1 Day(s) 8142925.7For Servo Motors / Stepping Motor1.01~3.00High Torsional Rigidity / High Torque Type / Zero Backlash30.154.1×10-6Standard BoreFastening Bolt

MYR 71.44

1 Piece(s)Available 1 Day(s) 10142925.7For Servo Motors / Stepping Motor1.01~3.00High Torsional Rigidity / High Torque Type / Zero Backlash30.154.1×10-6Standard BoreFastening Bolt

MYR 71.44

1 Piece(s)Available 1 Day(s) 12142925.7For Servo Motors / Stepping Motor1.01~3.00High Torsional Rigidity / High Torque Type / Zero Backlash30.154.1×10-6Standard BoreFastening Bolt

MYR 129.82

1 Piece(s)Available 1 Day(s) 6142925.7For Servo Motors1.01~3.00High Torque Type / Zero Backlash30.154.1×10-6Keywayed Bore (d2 Side)Fastening Bolt

Loading...

  1. 1

Basic Information

Series Name Disc Allowable Misalignment Angular Misalignment / Axial Misalignment Max. Rotational Speed Range(r/min) 4001~10000
Body Material Aluminum Alloy Allowable Angular Misalignment(deg) 2 Product Category Coupling Main Body
Max. Rotational Speed(r/min) 10000 Disc Material Stainless Steel Single/Double Single

Frequently asked question (FAQ)

Question: What is a coupling?
Answer: A coupling is a part that connects two different rotating bodies (motor shaft, ball screw, etc.) and aims at transmitting torque. The load of assembly adjustment is reduced by absorbing the axis deviation (lateral misalignment, angular misalignment and axial amplitude) between rotating bodies. And in case of accidental overload, the coupling is destroyed and the rotating bodies are disconnected to protect the expensive power part and the whole device.
Question: What are the types of MISUMI couplings?
Answer: There are disc type, grooved type, cross type, claw type, bellows type, rigid type and universal joint type.
Question: How to select coupling according to motor?
Answer: Disc type is recommended for servo motors, grooved type is recommended for stepping motors, and cross type is recommended for universal motors.
Question: How to select according to the purpose, environment, working conditions?
Answer: Please refer to the MISUMI website.
Question: What kind of coupling should be used when the angular misalignment is very large?
Answer: Please select the universal joint with allowable angular misalignment of 30 degrees. In addition, when grease cannot be applied regularly, use a rubber sleeve to fill grease and use it.
Question: Which disc type coupling is better, single disc type or double disc type?
Answer: Double disc type can absorb angular misalignment and lateral misalignment, but the total length will increase.
Although the total length of the single disc type is short, it is only suitable for applications with narrow space because lateral misalignment is not allowed in the structure. Special attention should be paid to centering during use.
Question: How much is appropriate to insert the shaft into the coupling during installation?
Answer: Please select the length of the main body (coupling part) described in the product catalog. If the insertion amount is too short, the shaft may slip and the clamping part may be damaged; If the insertion amount is too long, it will be damaged due to shaft interference inside the coupling.
Question: Why is it necessary to install a protection cover around the coupling?
Answer: Due to high-speed rotation, accidental contact may result in injury or entanglement of gloves, towels, etc. In addition, for some reasons, parts may be damaged or debris may be scattered. Therefore, be sure to install the safety protection cover.
Question: What should I do if there is no matching shaft bore diameter?
Answer: Please select a product with changeable keyway width or available with keyway processing. MISUMI products are divided into MCSLCWK series (disc type), CPOC series (cross type) and MMJN series (claw type), etc.
Question: Is it a defective product that has difference in groove gap width?
Answer: Since the difference is within the dimensional tolerance range, there is no problem.

Check other FAQ (7 items) Hide

Additional Products in this Category

Tech Support