Lika Electronic Datasheets for Flexible Couplings
Flexible couplings connect rotating members while allowing some degree of angular or parallel misalignment.
Flexible Couplings: Learn more
| Product Name | Notes |
|---|---|
| All cleaning and packaging performed in a clean room environment. | |
| All cleaning and packaging performed in a clean room environment. This coupling can be used for production of goods requiring high standard cleanliness. | |
| Bellows type flexible coupling. Stainless steel structure. Corrosion resistance. Coupling for encoders, measurement equipment and control device. Bore diameter from Ø4 to Ø14 mm. Stainless steel version, corrosion resistance, allowable... | |
| Disk type flexible coupling. The stainless steel disk allows the eccentricity, angular misalignment and end-play. Couplings for stepping motors and general purpose. Bore diameter from Ø6 to Ø25 mm. Zero... | |
| Disk-type flexible coupling. The stainless steel disk allows the eccentricity and angular misalignment. Coupling for application on servomotors and stepping motors. Bore diameter from Ø3 to Ø28 mm XHW-C: standard... | |
| Disk-type flexible coupling. XHS-C: short type Coupling for servomotors and stepping motors. Bore diameter from Ø3 to Ø50 mm. Zero backlash, high torque, high torsional stiffness. | |
| Flexible coupling for universal usage Machined from a single-piece Vibration absorbing | |
| Flexible coupling. High-gain rubber type, long type. Coupling for servomotors and stepping motors. Bore diameter from Ø3 to Ø19 mm. Zero backlash, high torque, excellent vibration absorption. | |
| For encoders. Constant response even under misalignment. Identical cw and ccw rotational characteristics. Spring action bellows configuration absorbs parallel, angular misalignments and shaft end play. MFBS: stainless steel version. Clean... | |
| For servomotors Double stainless steel disks absorb parallel, angular misalignments and shaft end-play Indentical cw and ccw rotational characteristics | |
| For servomotors Flexible coupling for high torque applications Absorb angular misalignment and excellent response | |
| For servomotors High torque capacity, torsional stiffness and excellent response, Stainless steel | |
| For servomotors High torsional stiffness All stainless steel version | |
| For Servomotors Metallic spring coupling Extremely high torsional stiffness, low inertia & excellent response time Made of Duralumin Identical cw and ccw rotational characteristics | |
| For Stepping motors Metallic spring coupling High torsional stiffness and response Made of Aluminium Alloy Identical cw and ccw rotational characteristics | |
| For Stepping motors Metallic spring coupling High torsional stiffness and response Made of Aluminum Alloy Identical cw and ccw rotational characteristics Compact design | |
| High torque capacity, torsional stiffness and excellent response Stainless steel | |
| High vibration absorption. High torque and excellent response time | |
| High-gain flexible coupling. Single-piece construction with the two aluminum hubs molded with vibration-absorbing rubber. Standard type (XGT2), long type (XGL2) and short type (XGS2). Coupling for servomotors and stepping motors. | |
| High-gain flexible coupling. Singlepiece construction with the two aluminum hubs molded with vibration-absorbing rubber. Long type. Coupling for servomotors and stepping motors. Bore diameter from Ø3 to Ø19 mm. Excellent... | |
| High-gain flexible coupling. Singlepiece construction with the two aluminum hubs molded with vibration-absorbing rubber. Short type. Coupling for servomotors and stepping motors. Bore diameter from Ø3 to Ø20 mm. Excellent... | |
| Jaw type flexible coupling. Compact and short model. MJS-CS, MJS-CSK: tight fit for a transmission with zero backlash at low torque. MJS-CS-E, MJS-CSK-E: easy fit for assembling and separation of... | |
| Jaw type flexible coupling. MJC, MJC-CS, MJC-K, MJC-CSK: tight fit for transmission with zero backlash at low torque. MJC-E, MJC-CS-E, MJC-K-E, MJC-CSK-E: easy fit to assemble and partition the hub... | |
| Metal hubs & polymer element High misalignments allowed Electrical shaft insulation | |
| Metal spring coupling with single-piece construction. Coupling for servomotors and stepping motors. Bore diameter from Ø5 to Ø16 mm. Extremely high torsional stiffness and low moment of inertia. | |
| Modular coupling. High parallel and angular misalignment allowed. Minimized load on derived from misalignment on shafts. Electrical insulation. Operational temp. -20°C +80°C. Compact design | |
| Modular coupling High parallel and angular misalignment allowed Minimized load on derived from misalignment on shafts Electrical insulation Operational temp. -20°C +80°C | |
| Oldham type flexible coupling. High torque and high torsional stiffness. Coupling for general-purpose motors. Bore diameter from Ø3 to Ø42 mm. Key type. Long-term maintenance free. The grease accumulated in... | |
| Oldham-type flexible coupling. The simple structure allows the unit to be easily assembled. Coupling for general-purpose motors. Bore diameter from Ø1 to Ø38 mm. Key type. Electrical insulation, high allowable... | |
| Resin spring coupling with single-piece construction. Stainless steel, slit type. Coupling for FPD manufacturing device, semiconductor manufacturing device. Bore diameter from Ø6 to Ø15 mm. Coupling for cleanroom, vacuum and... | |
| Simply structured modular coupling Easy attachment on shafts by setscrews Resistance to oil and electrical insulation Excellent flexibility | |
| Stainless steel spring coupling with single-piece construction. XSTS: high flexibility type XWSS: short type Couplings for FPD manufacturing device, semiconductor manufacturing device, offshore instruments. Bore diameter from Ø5 to Ø30... |