CHARACTERISTICS

Type
torsionally flexible, grid
Product applications
for mechanical power transmission, for shafts, transmission, for pumps, industrial, for marine applications, for railway applications, for rolling mills, gearbox, for paper machines, for hoisting machinery, engine, for gears, machines, for the aerospace industry, turbine, for wind turbine, for agitators, for compressors, for servo motors, for the cement industry, for presses, for the textile industry, for mixers, for the packaging industry, for printing machines, generator, for conveyors, for the food industry, for lifting equipment, for excavators, for chemical applications
Other characteristics
compact, shaft-hub, maintenance-free, compensating, anti-vibration, high-performance
Installation system
flange

DESCRIPTION

Quick installation and easy maintenance reduces labour 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. » High tensile, shot-peened alloy steel grid springs and precision machined hubs ensure superior coupling performance and long life. » Tapered grids are designed to be interchangeable with other industry standard grid couplings with both horizontal and vertical grid covers. » Designed for ease of installation and maintenance reducing labour and downtime costs. » The torsional flexibility and resilience of these grid couplings helps reduce vibration and cushions shock and impact loads. » Cover fasteners can be provided in either Inch or Metric sizes. » Excellent for use in applications where the equipment is close coupled or spaced apart requiring a spacer style coupling arrangement. » Stock spacer or custom spacer lengths are available from jbj Techniques Limited. Grid couplings from jbj Techniques reduce vibration by as much as 30%, and cushion shock loads to safeguard your and 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.