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Disc Couplings High Regidity Double Disc, Clamping Type
MISUMI
· C-SCPW series Disc Couplings High Rigidity Double Disc, Clamping Type
· Type of Coupling: C-SCPW.
· Applicable motor types: recommended for servo motors, stepping motors.
· Maximum Rotational Speed Range: 4001 ~ 10000 (r/min).
· Maximum Rotational Speed: 10000 (r/min).
· Allowable Angular Misalignment: 1.0, 1.2 and 1.5°
· Disc Type: Double Discs.
· Body material: Aluminum Alloy.
· Disc material: Stainless Steel.
· Lock bolt: Steel SCM435 surface treatment Ferro ferric Oxide Protective Film.
· Operating for working in high temperature -80 to 300 °C
· Accessories: Hex socket bolt (Clamping bolt).
Days to Ship: | Same day or more |
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MISUMI
"By changing the types of spacer, allowable torque and misalignment allowable value can be selected."
Days to Ship: | 18 Day(s) or more |
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MJT Flexible Coupling Disk Type
NABEYA BI-TECH
High torque, vibration absorption.
[Features]
· Joyped flexible coupling.
· The tight fit allows transmission of zero backlash at low torque.
· Easy fit has easy assembly / disassembly of hub.
· Excellent flexibility.
· In addition to eccentricity and angle deviation, also absorbs torsional vibration.
· Electrically insulated.
· 4 types of sleeve hardness.
· Select according to usage conditions, such as torque misalignment.
Days to Ship: | 11 Day(s) or more |
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MISUMI
"By changing the types of spacer, allowable torque and misalignment allowable value can be selected."
Days to Ship: | 18 Day(s) or more |
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Oldham Couplings Clamping Type
MISUMI
· GCOC/ GCOCRK/ GCOCWK Model Oldham Couplings Clamping Type.
· Couplings consisting of 2 hubs and 1 spacer disc.
· 2 hubs materials are aluminum alloy and surface treatment with alumite treatment.
· Spacer disc material is Polyacetal.
· Shaft Fastening Method: Lock bolt clamp screw type.
· Lock bolt clamp screw material: steel SCM435 surface treatment with Ferro ferric Oxide Protective Film.
· Oldham Coupling size: 16 to 32.
· Allowable Angular misalignment 3 degree.
· Operating Temperature Range: -20 to 80 °C
· Maximum Rotational Speed Range: 4001 ~ 10000 (r/min).
Days to Ship: | Same day or more |
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Disc Couplings High Flexible, Double Disc
MISUMI
· GCPSW Model Disc Couplings High Flexible, Double Disc.
· Body material: Aluminum alloy with Alumite Treatment surface.
· Spacer disc material is Stainless steel with
· Fastening Bolt, Set Screw: Steel SCM435.
· Fastening surface treatment with Ferro ferric Oxide Protective Film.
· Shaft Fastening Method: Lock bolt clamp and screw type.
· GCPSW Model Body size: 20 to 39.
· Allowable Angular misalignment 2 degree.
· Maximum Rotational Speed: 10,000 (r/min).
· Maximum Rotational Speed Range: 4001 ~ 10000 (r/min).
· Application : For Servo Motors / Stepping Motor.
Days to Ship: | Same day or more |
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Days to Ship: | Same day or more |
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MISUMI
This is an economy item, The price is cheaper than the MISUMI standard product.
Days to Ship: | 10 Day(s) |
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MISUMI
· GCJS/ GCJSLK/ GCJSRK/ GCJSWK Jaw Couplings Set Screw Type.
· Jaw Couplings Application: Stepping Motor / Encoder.
· Maximum Rotational Speed Range: 10001~78000 (r/min).
· Maximum Rotational Speed: 10000 (r/min).
· Allowable Angular Misalignment: 1
· Jaw Couplings Body material: Aluminum Alloy.
· The spacer is made of Polyurethane and thus, can absorb vibration efficiently.
· Shaft Tightening Method: Set Screw
· Spacer Selectable Color: Blue, White and Red.
· Operating Temperature: -20°C to 60°C.
· Excellent torque transmission performance has been achieved by press-fitting the spacer into the hub.
Days to Ship: | Same day |
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Days to Ship: | 18 Day(s) or more |
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Oldham Couplings - Large Shaft Diameter, Set Screw / Clamping / Spacers
MISUMI
Large tolerance for lateral and angular misalignments covers up to Ø38 max. shafts.
Days to Ship: | 18 Day(s) or more |
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MIKI PULLEY
· SFC Model for Servo Coupling
· Application: Servo Motor / Stepping Motor / Encoder.
· Body material: Using aluminum clad in a clear anodized finish.
· Disc members are made of 304 stainless steels.
· Single and double element configurations are available.
· Bores can be configured with clamp, taper-lock, or keyed styles.
· Maximum Rotational Speed Range: 4001 ~ 10000 (r/min).
· Maximum allowable torque: 250 Nm.
· Bore size range: 3 mm to 45mm.
· Backlash: Zero.
· Operating Temperature Range: -30 to 100 °C
· Couplings are precisely assembled using high strength, corrosion resistant fasteners.
Days to Ship: | 11 Day(s) or more |
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Days to Ship: | Same day or more |
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Days to Ship: | 18 Day(s) or more |
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MJB Flexible Coupling - Jaw Type (Bushing)
NABEYA BI-TECH
· Various jaw type maximum speed range (r/min): 10,001 to 78,000
· Main body material: S45C
· Class coupling body
· Eccentricity range tolerance (mm): 0.02 to 0.2
· Deviation angle tolerance (deg): 1
· Buffer part material: polyurethane
· Structure: Bushing type
Days to Ship: | 11 Day(s) or more |
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Days to Ship: | Same day or more |
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MISUMI
This is an economy item, The price is cheaper than the MISUMI standard product.
Days to Ship: | 10 Day(s) |
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Disc Couplings - High Rigidity (O.D. 65), Keywayed Bore / Clamping, for Servo Motors
MISUMI
· Disc Couplings - High-Rigidity Disc
· Type for Coupling: CPSHC65, CPSHCK, CPSHCK, CPSWC, CPSWCK and CPSWWK.
· Allowable Torque Range : 50.01~100.00 [N.m].
· Maximum Rotational Speed Range: 4001 ~ 10000 (r/min).
· Maximum Rotational Speed: 8000 (r/min).
· Allowable Angular Misalignment: 0.6 degree.
· Disc Type: Single Disc and Double Discs.
· Shaft Fastening Method: Lock bolt clamp and screw type.
· Body material: 1045 Carbon Steel or Equivalent.
· Disc material: 301 Stainless Steel.
· Disc Couplings Application: For Servo Motors.
· Single Disc Type cannot tolerate lateral misalignment.
Days to Ship: | 18 Day(s) or more |
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XSTS/XWSS Clean, Vacuum, Heat-Resistance Support Coupling - Slit Type (SUS316L)
NABEYA BI-TECH
Low particle. Chemical resistant SUS316L made. Backlash "0"
Days to Ship: | 18 Day(s) or more |
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MOM Flexible Coupling - Oldham Type
NABEYA BI-TECH
[Features]
· Oldham type flexible coupling.
· FCD400 used in spacer.
· Ideal for low speed / high torque specifications.
· Grease applied between hub and spacer to prevent burn-in.
· Due to hub and spacer slip, large eccentricity / deflection angles are allowed.
· The protrusion (resin pin) provided on the spacer allows the angle of deviation without difficulty.
· Long-term maintenance-free.
· Grease accumulated in the grease hole gradually leaks during operation, to maintain long-term lubrication performance.
Days to Ship: | 11 Day(s) or more |
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Oldham Couplings Clamping Type
MISUMI
This is an economy item, The price is cheaper than the MISUMI standard product.
Days to Ship: | 10 Day(s) |
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MWS/MWSS Flexible Coupling - Slit Type
NABEYA BI-TECH
[Features]
· Backlash "0"
· Short type.
· The all stainless type is also standardized.
· A fully integrated metal spring coupling with slits in the cylindrical material.
· The leaf spring formed by the slit allows declination and end play.
· There are two types: aluminum alloy and all stainless steel.
· Standard type MST/MSTS and short type MWS/MWSS are available.
[Applications]
· For transportation equipment/XY stage/parts feeder, etc.
Days to Ship: | 11 Day(s) or more |
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MSX Flexible Coupling - Slit Type
NABEYA BI-TECH
High torsional rigidity / highly responsive. Backlash "0"
Days to Ship: | 11 Day(s) or more |
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Slit Type Coupling (SRB Series)
SUNGIL
[Features]
・Zero backlash
・Eccentricity, declination, complete end-play absorption (spring of Radical Beam Sit)
・High rigidity aluminum alloy (AL 7075-T6)
・High torsional stiffness and allowable torque
・Low moment of inertia, stability at high rotational speed
・ Static reversal is the same
・Oil resistance, chemical resistance
•Related keywords: Sungil Machinery, Standard Coupling, Coupling / Shaft Joint
Days to Ship: | 10 Day(s) or more |
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Double Disc Couplings Clamping Type
MISUMI
This is an economy item, The price is cheaper than the MISUMI standard product.
Days to Ship: | 10 Day(s) |
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MIKI PULLEY
Using carbon steel for the main body material, with very precise adjustment and high rigidity.
[Features]
· Torsional rigidity is extremely high, accurate shaft rotation, super precision control is possible.
· Since all power transmission is transmitted by friction coupling, there is no backlash.
· SFS-SS/ DS type is shipped from the factory as an assembled finished product.
Days to Ship: | 11 Day(s) or more |
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Disc Couplings Servo - Fine, for Servo Motors (High Rigidity)
MISUMI
[Features]·This coupling is suitable for devices that use servo motors.
Days to Ship: | 18 Day(s) or more |
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XBW/XBWS Flexible Coupling - Disk Type
NABEYA BI-TECH
High torque, high torsional rigidity, and high responsiveness. Backlash "0"
Days to Ship: | 11 Day(s) or more |
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MST/MSTS Flexible Coupling Slit Type
NABEYA BI-TECH
Backlash "0." Design of aluminum alloy slit pattern changed to improve performance.
[Features]
· Metal spring coupling with perfectly integrated structure, with slit in cylindrical material.
Leaf spring formed with a slit allows eccentricity, angle deviation, and end play.
· 2 kinds available: aluminum alloy / all stainless steel type.
· Wide range of outer diameters, ø8 to ø63
Special Price | |
Days to Ship: | Same day or more |
Oldham Couplings Set Screw Type
MISUMI
This is an economy item, The price is cheaper than the MISUMI standard product.
Days to Ship: | 10 Day(s) |
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Disc Couplings Servo - Fine, for Servo Motors (High Positioning Accuracy)
MISUMI
[Features]It is especially suitable for equipment that requires high precision and for use in clean environments.
Days to Ship: | 18 Day(s) or more |
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Days to Ship: | Same day or more |
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XUT Flexible Coupling - Cross Joint Type
NABEYA BI-TECH
Small eccentricity reaction force, high torque, high torsional rigidity, highly responsive, with vibration absorption.
Days to Ship: | 11 Day(s) or more |
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Jaw Couplings - Set Screw / Clamping
MISUMI
· Zero backlash
· Vibration & sound absorption
· Cushion has a pipe shape with great flexibility and long life
· Cushion material has large and small torsional rigidity
· A small selection is possible
· Hub material is aluminum die-cast, small moment of inertia
Days to Ship: | 20 Day(s) or more |
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MIKI PULLEY
Element hardness 97JIS A used, designed to use preliminary compression with no backlash. Supports a wide range of applications, from simple servo to general purpose motor with high torque.
Days to Ship: | 11 Day(s) or more |
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Disc Coupling Set Screw Type (Double Disc) SHDW
SUNGIL
A disc coupling, clamping type (double disc).
[Features]
·A newly developed high-performance disc. This product is shaped with high torsional rigidity.
·Semi-permanent lifespan with zero backlashes.
·Absorbs misalignments of angles of deflection, eccentricity, and endplay.
·A low moment of inertia for stability even at high RPM.
[Applications]
·Servo motors, stepper motors, precision motors, etc.
·High-precision encoders, dynamometer drivers, high-speed, high-precision position control systems.
·Centrifuges, copiers.
Days to Ship: | 13 Day(s) or more |
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Disc Couplings - High Rigidity (O.D. 40) / Keyless Clamping, Keywayed Bore, for Servo Motors
MISUMI
[Features]·It has a compact size, and the high stiffness surface pressure and keyway can be selected.
Days to Ship: | 18 Day(s) or more |
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Disc Couplings - High Rigidity (O.D. 87), Keywayed Bore / Clamping
MISUMI
· CPSWC/ CPSWWK/ CPSHWK Coupling High Rigid Diaphragm Type- High Rigidity.
· CPSWC is a double diaphragm type and uses Clamp locking type.
· CPSWWK is a double diaphragm type with keyway holes on both sides.
· CPSHWK is a single diaphragm type with keyway holes on both sides.
· CPSWC/ CPSWWK/ CPSHWK main body material: Steel S45C.
· CPSWC/ CPSWWK/ CPSHWK diaphragm material: stainless steel SUS301CSP.
· Application : Servo Motor/ Stepper Motor.
· Maximum speed range: 4001 ~ 10000 (r/min)
· Allowable Angular misalignment 0.6 degree.
· Shaft Fastening Method: Fastening bolts, set screws.
Days to Ship: | 18 Day(s) or more |
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Disc Couplings - High Rigidity (O.D. 87), Keyless Clamping
MISUMI
A highly rigid flexible coupling by devising the disc fastening part.
[Features]
· Standardized 4 model 45 sizes from shaft diameter φ12 (diameter 12 mm) to φ60 (diameter 60 mm).
· High twist rigidity due to the disc fastening part.
· Allows declination and end play.
· The moment of inertia is smaller than that of other companies.
[Use]
· Machine tools, precision stages, etc.
Days to Ship: | 18 Day(s) or more |
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MIKI PULLEY
Element hardness 97JIS A used, designed to use preliminary compression with no backlash. Supports a wide range of applications, from simple servo to general purpose motor with high torque.
[Features]
· Polyurethane elastomer used for element. So, the transmission torque is more than twice that of conventional jaw coupling.
· Design to distribute pre-compression, and so can be used with no backlash. (ALS-Y/R type)
· Power transmission through polyurethane elastomer with rubber elastic force. It has excellent vibration and impact absorption.
Days to Ship: | 11 Day(s) or more |
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L/SS Flexible Coupling Joe - Max Standard Type
NABEYA BI-TECH
High torque. Spider is compressed and torque is transmitted.
[Features]
· Joyped flexible coupling.
· Spider is compressed and torque is transmitted.
· A smooth, blind fit between hub and spider.
· It is easy to install and remove.
· 2 types of hubs and 3 kinds of spiders.
· Choose to suit application.
· Smooth fitting of hub and spacer.
· Even if the motor is not visible, and the coupling is difficult to see, can be assembled by feeling.
· Maintenance also easy.
Days to Ship: | 11 Day(s) or more |
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XHW/XHW-L Flexible Coupling - Disk Type
NABEYA BI-TECH
Type: Disc type
· Main body material: A2017
· Class coupling: body
· Disk part material: SUS304
· Structure: Clamping type
Days to Ship: | 11 Day(s) or more |
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MOR Flexible Coupling - Oldham Type
NABEYA BI-TECH
[Features]
· Oldham type flexible coupling.
· Due to hub and spacer slip, large eccentricity / deflection angles are allowed.
· Eccentric reaction force generated by misalignment is small, reducing the burden on the shaft.
· Easy to assemble with a simple structure
Days to Ship: | 11 Day(s) or more |
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High Torque Disc Type Coupling (SHD Series)
SUNGIL
[Features]
・Application of newly developed high-performance disk file format
・High torsional stiffness
・Compact design
・1/10 taper bushing
・High permissible torque
・Suitable for low moment of inertia and high rotation speed
•Related Keywords: Sungil Machinery, Standard Coupling, Coupling / Shaft Joint
Days to Ship: | 13 Day(s) or more |
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Super zero Oldham coupling series CCZ type aluminum alloy products
NIHON MINIATURE
Clamp type, aluminum made Oldham coupling. Prevent slippage by tightening the entire shaft.
[Features]
· Super zero Oldham coupling achieves zero backlash, with improved machining accuracy
· Stronger and more compact design, that can now be used with high precision equipment impossible until now.
· Stainless steel series added, becoming 4 series, with further improvements.
· Materials used are, engineering plastic for spacer, and stainless steel SUS303 for hubs, aluminum series uses aluminum alloy (alumite surface treatment).
· Easy to handle coupling, with low moment of inertia, large swing rigidity, good electrical insulation, and maintenance-free, easy assembly.
· Two types of super zero Oldham coupling, with set screw or collet shaft fixing methods both available, that can be freely combined.
· Stainless steel has no. 4 model number, and the aluminum series has no. 10 model number.
· Stocking stainless steel series from ø4 to ø28, aluminum series from ø3 to ø40 in millimeter and inch system of inner diameter finish.
Days to Ship: | 11 Day(s) or more |
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Brand |
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Product Series |
CAD |
Days to Ship |
Type |
Shaft Bore Dia. (machined) D1(Ø) |
Shaft Bore Dia. (machined) D2(Ø) |
Outer Dia. A(Ø) |
Overall Length W(mm) |
Application |
Allowable Torque Range(N•m) |
Features |
Allowable Misalignment |
Max. Rotational Speed Range(r/min) |
Body Material |
Allowable Torque(N•m) |
Allowable Angular Misalignment(deg) |
Allowable Lateral Misalignment(mm) |
Product Category |
Allowable Lateral Misalignment Range(mm) |
Max. Rotational Speed(r/min) |
Buffer Material |
Disc Material |
Bellows Material |
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Brand | MISUMI | MISUMI | NABEYA BI-TECH | MISUMI | MISUMI | MISUMI | MISUMI | MISUMI | MISUMI | MISUMI | MISUMI | MIKI PULLEY | MISUMI | MISUMI | NABEYA BI-TECH | MISUMI | MISUMI | MISUMI | NABEYA BI-TECH | NABEYA BI-TECH | MISUMI | NABEYA BI-TECH | NABEYA BI-TECH | SUNGIL | MISUMI | MIKI PULLEY | MISUMI | NABEYA BI-TECH | NABEYA BI-TECH | MISUMI | MISUMI | MISUMI | NABEYA BI-TECH | MISUMI | MIKI PULLEY | SUNGIL | MISUMI | MISUMI | MISUMI | MIKI PULLEY | NABEYA BI-TECH | NABEYA BI-TECH | NABEYA BI-TECH | SUNGIL | NIHON MINIATURE |
Product Series | Oldham Couplings - Large Shaft Diameter, Set Screw / Clamping / Spacers | Disc Couplings - High Rigidity (O.D. 65), Keywayed Bore / Clamping, for Servo Motors | XSTS/XWSS Clean, Vacuum, Heat-Resistance Support Coupling - Slit Type (SUS316L) | Disc Couplings Servo - Fine, for Servo Motors (High Rigidity) | Disc Couplings Servo - Fine, for Servo Motors (High Positioning Accuracy) | Disc Couplings - High Rigidity (O.D. 40) / Keyless Clamping, Keywayed Bore, for Servo Motors | Disc Couplings - High Rigidity (O.D. 87), Keywayed Bore / Clamping | Super zero Oldham coupling series CCZ type aluminum alloy products | |||||||||||||||||||||||||||||||||||||
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Days to Ship | Same day or more | 18 Day(s) or more | 11 Day(s) or more | 18 Day(s) or more | Same day or more | Same day or more | Same day or more | 10 Day(s) | Same day | 18 Day(s) or more | 18 Day(s) or more | 11 Day(s) or more | Same day or more | 18 Day(s) or more | 11 Day(s) or more | Same day or more | 10 Day(s) | 18 Day(s) or more | 18 Day(s) or more | 11 Day(s) or more | 10 Day(s) | 11 Day(s) or more | 11 Day(s) or more | 10 Day(s) or more | 10 Day(s) | 11 Day(s) or more | 18 Day(s) or more | 11 Day(s) or more | Same day or more | 10 Day(s) | 18 Day(s) or more | Same day or more | 11 Day(s) or more | 20 Day(s) or more | 11 Day(s) or more | 13 Day(s) or more | 18 Day(s) or more | 18 Day(s) or more | 18 Day(s) or more | 11 Day(s) or more | 11 Day(s) or more | 11 Day(s) or more | 11 Day(s) or more | 13 Day(s) or more | 11 Day(s) or more |
Type | Disc | Jaw | Jaw | Jaw | Oldham | Disc | Jaw | Jaw | Jaw | Oldham | Oldham | Disc | Oldham | Oldham | Jaw | Disc | Jaw | Disc | Slit | Oldham | Oldham | Slit | Slit | Slit | Disc | Disc | Disc | Disc | Slit | Oldham | Disc | Disc | Slit | Jaw | Jaw | Disc | Disc | Disc | Disc | Jaw | Jaw | Disc | Oldham | Disc | Oldham |
Shaft Bore Dia. (machined) D1(Ø) | 4 ~ 25 | 3 ~ 16 | 3 ~ 45 | 3 ~ 16 | 5 ~ 14 | 4 ~ 16 | 8 ~ 15 | - | 8 ~ 10 | 4 ~ 20 | 14 ~ 38 | 3 ~ 45 | 5 ~ 10 | 1 ~ 20 | 8 ~ 50 | 4 ~ 16 | - | 15 ~ 30 | 5 ~ 14 | 3 ~ 42 | - | 2 ~ 16 | 5 ~ 22 | 3 ~ 12 | - | 10 ~ 40 | 3 ~ 25 | 3 ~ 50 | 2 ~ 35 | - | 4 ~ 25 | 4 ~ 25 | 3 ~ 20 | 15 ~ 40 | 6 ~ 60 | 10 ~ 45 | 10 ~ 16 | 20 ~ 35 | 25 ~ 45 | 3 ~ 60 | 10 ~ 28 | 3 ~ 42 | 1 ~ 38 | 10 ~ 45 | 1 ~ 40 |
Shaft Bore Dia. (machined) D2(Ø) | 4 ~ 25 | 3 ~ 16 | 3 ~ 45 | 3 ~ 16 | 5 ~ 14 | 5 ~ 18 | 8 ~ 15 | - | 8 ~ 12 | 4 ~ 20 | 14 ~ 38 | 3 ~ 45 | 6 ~ 14 | 1 ~ 20 | 8 ~ 50 | 5 ~ 16 | - | 15 ~ 30 | 6 ~ 18 | 3 ~ 42 | - | 2 ~ 16 | 5 ~ 22 | 3 ~ 12 | - | 12 ~ 55 | 3 ~ 25 | 3 ~ 50 | 2 ~ 35 | - | 4 ~ 25 | 4 ~ 25 | 3 ~ 20 | 15 ~ 40 | 6 ~ 60 | 10 ~ 45 | 10 ~ 16 | 20 ~ 35 | 20 ~ 45 | 3 ~ 60 | 10 ~ 28 | 3 ~ 42 | 1 ~ 38 | 10 ~ 45 | 3 ~ 40 |
Outer Dia. A(Ø) | 16.6 ~ 54.5 | 14 ~ 40 | 14 ~ 95 | 14 ~ 40 | 16 ~ 32 | 20 ~ 39 | 20 ~ 40 | 20 ~ 120 | 20 ~ 30 | 14.5 ~ 38 | 44 ~ 70 | 12 ~ 104 | 16 ~ 32 | 6 ~ 38 | 40 ~ 95 | 20 ~ 39 | 14 ~ 105 | 65 | 25 ~ 40 | 12 ~ 70 | 16 ~ 70 | 8 ~ 32 | 16 ~ 44 | 12.7 ~ 26.2 | 12 ~ 82 | 56 ~ 144 | 16.6 ~ 54.5 | 15 ~ 104 | 8 ~ 63 | 16 ~ 63 | 21 ~ 54.5 | 16.6 ~ 54.5 | 15 ~ 40 | 55 ~ 95 | 30 ~ 105 | 56 ~ 88 | 40 | 87 | 87 | 14 ~ 105 | 27.3 ~ 53.6 | 15 ~ 79 | 6 ~ 68 | 56 ~ 88 | 16 ~ 80 |
Overall Length W(mm) | 23 ~ 55 | 22 ~ 66 | 22 ~ 126 | 22 ~ 66 | 29 ~ 45 | 28.8 ~ 49.4 | 30 ~ 66 | 25 ~ 160 | 30 ~ 35 | 18.4 ~ 40 | 46 ~ 77 | 12.35 ~ 101.6 | 18 ~ 33 | 8.4 ~ 40 | 66 ~ 126 | 23.05 ~ 35 | 22 ~ 140 | 55.5 ~ 77 | 25 ~ 56 | 15 ~ 68.6 | 29 ~ 77 | 10 ~ 32 | 17.4 ~ 45 | 19 ~ 31.5 | 15.9 ~ 98 | 45 ~ 170.6 | 16.6 ~ 55 | 22 ~ 104.4 | 14 ~ 90 | 18 ~ 57 | 24.5 ~ 55 | 16.6 ~ 37.2 | 18 ~ 40 | 60 ~ 100 | 35 ~ 140 | 60.5 ~ 99.2 | 39.4 ~ 53 | 67 ~ 94 | 67 ~ 94 | 22 ~ 140 | 43.4 ~ 63.8 | 21.6 ~ 97.2 | 8.4 ~ 77 | 44.2 ~ 71 | 20 ~ 61 |
Application | Servo Motor / Stepping Motor | Standard | Standard / Servo Motor / Stepping Motor | Standard | Standard | Servo Motor / Stepping Motor | Servo Motor / Stepping Motor | Standard / Servo Motor / Stepping Motor | Stepping Motor / Encoder | Standard | Standard | Servo Motor / Stepping Motor / Encoder | Standard | Standard | Standard / Servo Motor / Stepping Motor | Servo Motor / Stepping Motor | Standard / Servo Motor / Stepping Motor | Servo Motor | Stepping Motor | Standard | Standard / Servo Motor / Stepping Motor | Standard / Stepping Motor | Standard / Servo Motor / Stepping Motor | Stepping Motor | Servo Motor / Stepping Motor | Servo Motor | Servo Motor | Standard / Servo Motor / Stepping Motor | Standard / Stepping Motor | Standard / Servo Motor / Stepping Motor | Servo Motor | Servo Motor | Servo Motor / Stepping Motor | Standard | Standard | Servo Motor / Stepping Motor | Servo Motor | Servo Motor | Servo Motor | Standard / Servo Motor / Stepping Motor / Encoder | Standard | Standard / Servo Motor / Stepping Motor | Standard / Stepping Motor | Servo Motor / Stepping Motor | Standard |
Allowable Torque Range(N•m) | 0.05~1.00 ~ 20.01~50.00 | 0.05~1.00 ~ 10.01~20.00 | 0.05~1.00 ~ 100 < 500 | 0.05~1.00 ~ 10.01~20.00 | 0.05~1.00 ~ 3.01~5.00 | 0.05~1.00 ~ 5.01~10.00 | 1.01~3.00 ~ 10.01~20.00 | - | 1.01~3.00 ~ 10.01~20.00 | 1.01~3.00 ~ 20.01~50.00 | 20.01~50.00 ~ 50.01~100.00 | 0.05~1.00 ~ 100 < 500 | 0.05~1.00 ~ 3.01~5.00 | 0.05~1.00 ~ 20.01~50.00 | 5.01~10.00 ~ 1000 < 5000 | 0.05~1.00 ~ 5.01~10.00 | - | 50.01~100.00 | 1.01~3.00 ~ 5.01~10.00 | 5.01~10.00 ~ 100 < 500 | - | 0.05~1.00 ~ 3.01~5.00 | 0.05~1.00 ~ 5.01~10.00 | 0.05~1.00 ~ 1.01~3.00 | - | 10.01~20.00 ~ 500 < 1000 | 0.05~1.00 ~ 20.01~50.00 | 0.05~1.00 ~ 100 < 500 | 0.05~1.00 ~ 20.01~50.00 | - | 1.01~3.00 ~ 20.01~50.00 | 0.05~1.00 ~ 20.01~50.00 | 0.05~1.00 ~ 1.01~3.00 | 10.01~20.00 ~ 50.01~100.00 | 1.01~3.00 ~ 500 < 1000 | 20.01~50.00 ~ 100 < 500 | 5.01~10.00 | 50.01~100.00 | - | 0.05~1.00 ~ 500 < 1000 | 1.01~3.00 ~ 20.01~50.00 | 0.05~1.00 ~ 50.01~100.00 | 0.05~1.00 ~ 100 < 500 | 20.01~50.00 ~ 100 < 500 | 1.01~3.00 ~ 100 < 500 |
Features | High Torque ~ No Backlash | High Torque ~ Low Moment of Inertia | High Torque ~ Vibration Insulation | High Torque ~ Low Moment of Inertia | High Torque | High Torque ~ No Backlash | High Torque ~ Vibration Insulation | High Torque ~ Vibration Insulation | High Torque ~ Vibration Insulation | High Torque ~ Low Moment of Inertia | High Torque ~ Low Moment of Inertia | High Accuracy ~ Small | High Torque | High Torque ~ Low Moment of Inertia | High Torque ~ Vibration Insulation | High Torque ~ No Backlash | High Torque ~ Vibration Insulation | High Torque ~ No Backlash | Clean Environment ~ Vacuum Environment | High Torque ~ High Torsional Rigidity | High Torque ~ High Torsional Rigidity | High Torque ~ No Backlash | High Torque ~ No Backlash | Heat Resistant ~ Small | High Torque ~ High Torsional Rigidity | High Accuracy ~ Unfinished Shaft Bore | High Torque ~ No Backlash | High Torque ~ No Backlash | High Torque ~ No Backlash | High Torque ~ High Torsional Rigidity | Clean Environment ~ No Backlash | High Torque ~ No Backlash | High Torque ~ Vibration Insulation | High Torque ~ Low Moment of Inertia | High Durability ~ Vibration Insulation | Heat Resistant ~ No Backlash | High Torque ~ Small | High Torque ~ No Backlash | High Torque ~ No Backlash | High Accuracy ~ Vibration Insulation | High Torque ~ Vibration Insulation | High Torque ~ No Backlash | High Torque | Heat Resistant ~ No Backlash | High Torque ~ Small |
Allowable Misalignment | Angular Misalignment / Eccentricity / Axial Misalignment | Angular Misalignment / Eccentricity / Axial Misalignment | Angular Misalignment / Eccentricity / Axial Misalignment | Angular Misalignment / Eccentricity / Axial Misalignment | Angular Misalignment / Eccentricity | Angular Misalignment / Eccentricity / Axial Misalignment | Angular Misalignment / Eccentricity / Axial Misalignment | Angular Misalignment / Eccentricity / Axial Misalignment | Angular Misalignment / Eccentricity / Axial Misalignment | Angular Misalignment / Eccentricity / Axial Misalignment | Angular Misalignment / Eccentricity / Axial Misalignment | Angular Misalignment / Eccentricity / Axial Misalignment | Angular Misalignment / Eccentricity | Angular Misalignment / Eccentricity / Axial Misalignment | - | Angular Misalignment / Axial Misalignment | Angular Misalignment / Eccentricity / Axial Misalignment | Angular Misalignment / Eccentricity / Axial Misalignment | Angular Misalignment / Eccentricity / Axial Misalignment | Angular Misalignment / Eccentricity | - | Angular Misalignment / Axial Misalignment | Angular Misalignment / Eccentricity / Axial Misalignment | - | Angular Misalignment / Eccentricity / Axial Misalignment | Angular Misalignment / Eccentricity / Axial Misalignment | Angular Misalignment / Eccentricity / Axial Misalignment | Angular Misalignment / Eccentricity / Axial Misalignment | Angular Misalignment / Eccentricity / Axial Misalignment | - | Angular Misalignment / Eccentricity / Axial Misalignment | Angular Misalignment / Axial Misalignment | Angular Misalignment / Eccentricity | Angular Misalignment / Eccentricity / Axial Misalignment | Not Provided / Angular Misalignment / Eccentricity / Axial Misalignment | Angular Misalignment / Eccentricity / Axial Misalignment | Angular Misalignment / Eccentricity / Axial Misalignment | Angular Misalignment / Eccentricity / Axial Misalignment | Angular Misalignment / Eccentricity / Axial Misalignment | Not Provided / Angular Misalignment / Eccentricity / Axial Misalignment | Angular Misalignment / Eccentricity / Axial Misalignment | - | Angular Misalignment / Eccentricity | Angular Misalignment / Eccentricity / Axial Misalignment | Angular Misalignment / Eccentricity |
Max. Rotational Speed Range(r/min) | 4001~10000 | 10001~78000 | 4001~10000 ~ 10001~78000 | 10001~78000 | 4001~10000 | 4001~10000 | 4001~10000 | - | 10001~78000 | 4001~10000 | 4001~10000 ~ 10001~78000 | 4001~10000 | 4001~10000 | 4001~10000 ~ 10001~78000 | 4001~10000 ~ 10001~78000 | 4001~10000 | - | 4001~10000 | 10001~78000 | 1001~2000 | - | 10001~78000 | 10001~78000 | 4001~10000 ~ 10001~78000 | - | 2001~4000 ~ 10001~78000 | 4001~10000 | 4001~10000 ~ 10001~78000 | 4001~10000 ~ 10001~78000 | - | 4001~10000 | 4001~10000 | 10001~78000 | 2001~4000 ~ 10001~78000 | 4001~10000 ~ 10001~78000 | 4001~10000 | 4001~10000 | 4001~10000 | 4001~10000 | 4001~10000 ~ 10001~78000 | 100~ 300 ~ 10001~78000 | 4001~10000 ~ 10001~78000 | 4001~10000 ~ 78001~ | 4001~10000 | 10001~78000 |
Body Material | Aluminum Alloy | Aluminum | Aluminum | Aluminum | Aluminum | Aluminum Alloy | Aluminum | Aluminum Alloy | Aluminum Alloy | Stainless Steel | Aluminum | Aluminum | Aluminum Alloy | Stainless Steel | Steel | Aluminum Alloy | Aluminum Alloy | Steel | - | Steel | Aluminum Alloy | Stainless Steel / Aluminum | Aluminum | Aluminum Alloy | Aluminum Alloy | Steel | Aluminum | Stainless Steel / Aluminum | Stainless Steel / Aluminum | Aluminum Alloy | Aluminum | Aluminum Alloy | Aluminum | Aluminum | Aluminum | Aluminum | Steel / Aluminum | Steel | Steel | Aluminum | Stainless Steel / Steel | Aluminum | Aluminum | Aluminum / Aluminum Alloy | Aluminum |
Allowable Torque(N•m) | 0.5 ~ 25 | 0.7 ~ 17 | 0.7 ~ 450 | 0.7 ~ 17 | 0.7 ~ 4.5 | 1 ~ 8 | 1.8 ~ 17 | - | 1.8 ~ 12.5 | 1.6 ~ 28 | 26 ~ 80 | 0.25 ~ 250 | 0.7 ~ 4.5 | 0.3 ~ 28 | 9.8 ~ 1120 | 1 ~ 8 | - | 60 | 2 ~ 8 | 5.4 ~ 352 | 0.7 ~ 56 | 0.1 ~ 4 | 0.5 ~ 9 | 0.2 ~ 2 | 0.25 ~ 100 | 20 ~ 800 | 1 ~ 25 | 0.6 ~ 200 | 0.1 ~ 35 | 0.7 ~ 33 | 1.2 ~ 25 | 0.5 ~ 25 | 0.3 ~ 6 | 20 ~ 180 | 1.5 ~ 525 | 30 ~ 120 | 6 ~ 8 | 100 ~ 180 | 180 | 0.31 ~ 525 | 2.1 ~ 37.3 | 0.6 ~ 100 | 0.4 ~ 160 | 30 ~ 200 | 1.961 ~ 215.746 |
Allowable Angular Misalignment(deg) | 1 ~ 1.5 | 1 | 1 | 1 | 3 | 2 | 1 | - | 1 | 3 | 2 | 0.5 ~ 2 | 3 | 3 | 1 | 2 | - | 0.6 | 1 ~ 2 | 2 | 3 | 1 | 0.5 | 2.5 | - | 1 ~ 2 | 1 ~ 1.5 | 1 ~ 2 | 2 | 3 | 1 ~ 1.5 | 1 ~ 1.5 | 1 | 1 ~ 2 | 1 | 1 | 1 | 0.6 | 0.6 | 1 | 0.5 ~ 1 | 1.4 ~ 2 | 3 | 0.7 ~ 1 | 1 |
Allowable Lateral Misalignment(mm) | 0.1 ~ 0.25 | 0.1 ~ 0.2 | - | 0.1 ~ 0.2 | 1 ~ 2.5 | 0.1 ~ 0.25 | 0.1 ~ 0.2 | - | 0.1 ~ 0.2 | 0.8 ~ 2.5 | 1 ~ 2 | 0.01 ~ 0.63 | 1 ~ 2.5 | 0.3 ~ 2.5 | 0.08 ~ 0.2 | - | - | 0.2 | 0.15 ~ 0.2 | 0.3 ~ 1.4 | 0.8 ~ 3.5 | - | 0.05 | 0.1 ~ 0.2 | 0.03 ~ 0.55 | 0.2 ~ 0.9 | 0.1 ~ 0.25 | 0.05 ~ 0.5 | 0.1 ~ 0.2 | 0.8 ~ 3.3 | 0.1 ~ 0.25 | - | 0.2 | 0.1 ~ 0.4 | 0.17 ~ 0.36 | 0.3 | 0.2 | 0.2 | 0.2 | 0.1 ~ 0.15 | 0.25 ~ 0.38 | 0.1 ~ 0.5 | 0.5 ~ 4.5 | 0 ~ 0.3 | 1.5 ~ 2.5 |
Product Category | Coupling Main Body | Coupling Main Body | Coupling Main Body | Coupling Main Body | Coupling Main Body | Coupling Main Body | Coupling Main Body | Coupling Main Body | Coupling Main Body | Coupling Main Body | Coupling Main Body | Coupling Main Body | Coupling Main Body | Coupling Main Body | Coupling Main Body | Coupling Main Body | Coupling Main Body | Coupling Main Body | Coupling Main Body | Coupling Main Body | Coupling Main Body | Coupling Main Body | Coupling Main Body | - | Coupling Main Body | Coupling Main Body | Coupling Main Body | Coupling Main Body | Coupling Main Body | Coupling Main Body | Coupling Main Body | Coupling Main Body | Coupling Main Body | Coupling Main Body | Coupling Main Body | Coupling Main Body | Coupling Main Body | Coupling Main Body | Coupling Main Body | Coupling Main Body | Coupling Main Body | Coupling Main Body | Coupling Main Body | Coupling Main Body | Coupling Main Body |
Allowable Lateral Misalignment Range(mm) | 0.02~0.2 ~ 0.21~0.40 | 0.02~0.2 | 0.02~0.2 | 0.02~0.2 | 0.41~1.0 ~ 1.1~3.0 | 0.02~0.2 ~ 0.21~0.40 | 0.02~0.2 | - | 0.02~0.2 | 0.41~1.0 ~ 1.1~3.0 | 0.41~1.0 ~ 1.1~3.0 | 0.02~0.2 ~ 0.41~1.0 | 0.41~1.0 ~ 1.1~3.0 | 0.21~0.40 ~ 1.1~3.0 | 0.02~0.2 | - | - | 0.02~0.2 | 0.02~0.2 | 0.21~0.40 ~ 1.1~3.0 | - | - | 0.02~0.2 | 0.02~0.2 | - | 0.02~0.2 ~ 0.41~1.0 | 0.02~0.2 ~ 0.21~0.40 | 0.02~0.2 ~ 0.41~1.0 | 0.02~0.2 | - | 0.02~0.2 ~ 0.21~0.40 | - | 0.02~0.2 | 0.02~0.2 ~ 0.21~0.40 | 0.02~0.2 ~ 0.21~0.40 | 0.21~0.40 | 0.02~0.2 | 0.02~0.2 | 0.02~0.2 | 0.02~0.2 | 0.21~0.40 | 0.02~0.2 ~ 0.41~1.0 | 0.41~1.0 ~ 3.1~5.0 | 0.21~0.40 | 1.1~3.0 |
Max. Rotational Speed(r/min) | 10000 | 15000 ~ 45000 | 6000 ~ 45000 | 15000 ~ 45000 | 10000 | 10000 | 15000 ~ 31000 | - | 10000 ~ 31000 | 5800 ~ 10000 | 8000 ~ 12000 | 10000 | 10000 | 5800 ~ 12000 | 10000 ~ 23000 | 10000 | - | 8000 | 15000 ~ 25000 | 2000 | 2500 ~ 9000 | 19000 ~ 78000 | 14000 ~ 39000 | 17000 ~ 35000 | 8000 ~ 10000 | 3800 ~ 25000 | 10000 | 6000 ~ 42000 | 10000 ~ 78000 | 2500 ~ 9000 | 10000 | 10000 | 15000 ~ 42000 | 4000 ~ 20000 | 4500 ~ 15900 | 6000 ~ 7700 | 10000 | 6000 | 6000 | 4500 ~ 34100 | 250 ~ 18000 | 7900 ~ 42000 | 9000 ~ 100000 | 5500 ~ 8200 | 15000 ~ 25000 |
Buffer Material | - | Polyurethane | Polyurethane | Polyurethane | Polyacetal | - | Polyurethane | Polyurethane | Polyurethane | Carbon Reinforced Resin | Polyacetal | - | Polyacetal | Carbon Reinforced Resin | Polyurethane | - | Polyurethane | - | - | - | Nylon | - | - | Polyacetal | - | - | - | - | - | Nylon | - | - | - | Polyurethane / Nylon | Polyurethane | Aluminum Bronze | - | - | - | Polyurethane | Polyurethane / Aluminum Bronze / Others | - | Polyacetal | Aluminum Bronze | Others |
Disc Material | Stainless Steel | - | - | - | - | Stainless Steel | - | - | - | - | - | Stainless Steel | - | - | - | Stainless Steel | - | Stainless Steel | - | - | - | - | - | - | Stainless Steel | Stainless Steel | Stainless Steel | Stainless Steel | - | - | Stainless Steel | Stainless Steel | - | - | - | Stainless Steel | Stainless Steel | Stainless Steel | Stainless Steel | - | - | Stainless Steel | - | Stainless Steel | - |
Bellows Material | - | - | - | - | - | - | - | - | - | - | - | - | - | - | - | - | - | - | - | - | - | - | - | - | - | - | - | - | - | - | - | - | - | - | - | - | - | - | - | - | - | - | - | - | - |
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