SELECTION
CRITERIA

GRID

Shaft size range (mm)

14
to
414

Torque range (Nm)

48
to
306,000

Maximum angular misalignment capability (°)

0.25°

Temperature range (standard element)

-40°
to
121°C

Reactionary loads due to misalignment

medium

Torque to O.D. capability

good

Speed capability

good

Torsional stiffness

medium

Ease of installation & maintenance

fair

Chemical resistance

fair

Adaptable to several designs

good

Damping capacity

good

excellent, good, fair and poor are relative ratings

 

 

 

 

 

 
Grid Couplings
  » Torsionally flexible and resilient - vibration reduction up to 30%,
   plus cushion shock loads safeguard driving and driven equipment.
» Quick installation and easy maintenance reduces labor and
   downtime costs.
» Fully interchangeable with industry standards.
» Versatile stock; metric and imperial size cover fasteners available.
» High tensile, shot-peened alloy steel grids and precision machined
   hubs ensure superior performance and long life.

Grid couplings from jbj Techniques reduce vibration by as much as 30%, and cushion shock loads to safeguard your driving and driven equipment.

The flexible nature of the spring-like grid absorbs impact energy by spreading it out over time, thus reducing the magnitude of the peak loads. This is possible because of the progressive contact that occurs between the curved profile of the hub teeth and the flexible grid. Therefore, as the load increases, more of the tooth comes into contact with the grid, thus supplying superior protection and supreme performance.

Our grid couplings are designed for versatility. Common hubs and grids are used within a given size range for both horizontal and vertical split cover models. Grid installation and replacement is a “snap” at only a fraction of the complete coupling cost.

Made from high tensile alloy steel, the grid spring is carefully formed to shape, then hardened and tempered under controlled conditions. Next, the grids are shot-peened, compressing the surface molecules and leaving a residually stressed surface. This process creates a stronger surface in compression.

Any load applied on the coupling in operation must first surmount the compressive forces created by peening before the tensile stress reaches the grid. This provides a dramatic increase in rating over other coupling types, increases reserve strength for longer life and may permit selection of a smaller coupling, thus reducing cost.

VIEW preselection criteria table for »The right coupling for power transmission

VIEW related products » Torsional Couplings, Gear Couplings, Bellhousings


jbj Techniques Limited is ISO certificated,
committed to international coordination
& unification of industrial standards

  
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28 Trowers Way, Holmethorpe Industrial Estate, Redhill, Surrey RH1 2LW. United Kingdom of Great Britain. telephone: +44(0)1737 767493 email:info@jbj.co.uk
E. & O. E., Disclaimer: Information throughout this web-site relevant to design, materials and/or specifications are subject to change without notice and liability therefore.