N-Eupex Pin Coupling

  • Torsionally rigid and damping pin coupling to be used universally for compensating shaft misalignments
  • Maximum operational reliability, since fail-safe
  • Suitable for plug-in assembly and simplified replacement of elements in the type consisting of three parts
  • Dynamic adaptation by selection of elastomer hardness
  • Torque range from 19 Nm up to 62,000 Nm for 23 sizes and 10 different types
  • Can be used in potentially explosive atmospheres; certified acc. to 94/9/EC (ATEX 95)

RUPEX Pin and Bush Coupling

  • Flexible fail-safe pin and bush coupling for medium up to high torques
  • Compact design; low weights and mass moments of inertia
  • Independent of direction of rotation (suitable for reversing operation)
  • Suitable for plug-in assembly (blind assembly, bell housing installation)
  • Torque range of the standard series between 200 Nm and 1,300,000 Nm
  • Can be used in potentially explosive atmospheres; certified acc. to 94/9/EC (ATEX 95)

N-BIPEX Claw Coupling

  • High torque reserves (maximum torque = 3 x nominal torque) to effortlessly absorb torque peaks, e.g. when an asynchronous motor is running up to speed
  • Savings due to unrestricted use at temperatures ranging from –50 °C to +100 °C
  • An excellent price-performance ratio across all coupling sizes
  • Reduced complexity and lower storage costs due to the use of a single hub to meet all requirements
  • High-quality elastomers that ensure a uniform load distribution and thus an optimum service life under all conditions
  • Different cam ring Shore hardness
  • ATEX certification
  • Low weight
  • Simple assembly

FLUDEX Fluid Coupling

  • Soft and shockless starting of machines and conveyors
  • Acceleration of very large masses without the necessity to use over dimensioned motors
  • Protection of drive against peak loads in case of frequent starting and reversing operations
  • Excellent vibration separation and shock damping; greatest possible extent of torsional vibration uncoupling in drives subject to vibration