Chain & Drives logo

Mönninghoff Type 318 – ServoFlex Disc Coupling

With its precise torque transmission, exceptional torsional stiffness, and compact design, this coupling offers a host of benefits that optimize system performance. Its ability to compensate for misalignments ensures reliable operation and minimizes wear on connected components. Whether in robotics, automation, or other high-precision applications, this coupling delivers unparalleled reliability, efficiency, and longevity.

Mönninghoff Type 318 - ServoFlex Disc Coupling

General Description

The Type 318 – ServoFlex coupling is highly-regarded for its exceptional features and benefits, making it stand out in the realm of servo-driven systems.

Precision and Torque Transmission: Enabling accurate motion control in servo-driven applications, its design incorporates high torsional stiffness, minimizing torsional backlash and ensuring precise positioning and synchronization.

Compact and Lightweight Design: This coupling boasts a compact and lightweight design, allowing easy integration into space-constrained systems. 

Misalignment Compensation: Able to handle angular, axial, and parallel misalignments, maintaining smooth operation and reducing stress on connected components. 

Damping Properties: Reducing wear and tear, enhances accuracy, and contributes to a smoother and quieter operation.

Versatile Applications: Its ability to handle high torque requirements and provide reliable performance makes it suitable for diverse applications, providing flexibility and reliability to various industries.

Overall, the Type 318 – ServoFlex couplings exceptional features contribute to enhanced system performance, longevity, and overall operational excellence.

Features & Benefits

  • backlash and torsionally stiff free metal disc coupling
  • 35 – 500 Nm
  • special solutions on request
  • wear-free and maintenance-free
  • high misalignment values
  • high strength and bending elasticity stainless steel disc pack
  • membrane shape is optimized with finite element design methods
  • single and double-joint designs
  • spacer also possible in use case-related lengths

Resources

Contact us

Please contact us using the form below or send us an email.

Optional
Optional