Standard products

Vibration damping motor bases

Motor bases are vibration-damping motor mounts made of high-quality natural rubber and steel. They are designed to absorb vibrations, protect the base and ensure stable operation. By using our engine mounts, you reduce wear and tear on both the engine and the surrounding structure, while significantly reducing noise levels.

Benefits & features

  • Corrosion protection:
    All engine feet are coated to withstand moisture, chemicals and other harsh environments.
  • Maintenance-free construction:
    Compact, durable design that requires minimal maintenance and can be easily integrated into existing systems.
  • Modular system:
    Available in several sizes and models - AR, AS, AC and AD - to meet different load and vibration profiles.
  • Interchangeable with traditional components:
    Our motor feet can replace springs, counterweights, bearings, bushings and other resilient supports in machines.
  • Customisation opportunities:
    Supplied with standard brackets, but can also be ordered with special mounting for unique installations.

General information about VIB - Motorised bases

  • Very good anti-vibration properties help to reduce noise and wear on engines and peripherals.
  • The rubber feet are adapted for both static and dynamic loads.
  • Temperature resistant from -20°C to +80°C for use in varying operating environments.
  • High chemical resistance to common industrial substances such as oils, fuels and detergents.
  • All components are surface treated by painting or galvanising for improved corrosion protection.
  • Compact and maintenance-free design allows for easy installation and long service life.
  • Can be installed on electric and diesel engines, ventilation units, compressors, electrical cabinets and similar machines.
  • Available in several standard models, but can also be supplied with customised fasteners.
  • Easily integrated into both new build and existing systems without the need for modification.
  • The rubber compound is designed to return to its original shape after loading without residual deformation.
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