Flexible couplings are machined from a single piece of material transmit torque while compensating for shaft misalignment, reducing bearing loads and ensuring smooth, backlash-free motion.
Flexible couplings compensate for shaft misalignment to protect bearings, reduce vibration, and maintain smooth torque transmission.
Compensates for angular deviation between connected shafts
Compensates for offset between parallel shaft centerlines
Combines angular, parallel, and axial misalignment
Coupling performance can be tailored by adjusting geometry, bore size, helix configuration, and material selection..
These design factors enable reliable torque transmission, misalignment compensation, and smooth motion in precision systems.
Designed to transmit torque reliably under dynamic load conditions.
Helps minimize unwanted radial forces on bearings and driven components.
Suitable for both low-speed and high-speed motion systems.
Torsional stiffness can be tailored to meet application-specific requirements.
Low inertia and balanced geometry support stable high-speed operation.
Maintains smooth and synchronized motion between drive and output shafts.
Absorbs axial displacement caused by assembly tolerances or thermal changes.
Reduces torsional vibration and supports smooth running performance.
We offer both standard and customer-specific flexible couplings to meet different torque, stiffness, speed, and misalignment requirements. Standard products are available for common motion control applications, while customized designs can be tailored for space constraints, shaft configurations, and demanding operating conditions.
Contact us for a standard coupling product catalog.
We develop customer-specific flexible couplings for applications requiring unique torque characteristics, compact dimensions, special shaft interfaces, or demanding operating environments. Available customizations include shaft interfaces, torsional stiffness, materials, compact geometries, and misalignment characteristics.
