fluid coupling
features
11 measurements
Styles offered using couplings (Para-Flex and DGF Equipment) or V-Belt drives
Accommodates up to four.seventy five inch shafts and 1400 horsepower apps
Smooth, controlled acceleration with customizable startup torques
Motor starts off beneath no load, allowing the use of standard NEMA design B motors and probably reducing motor horsepower necessity
No actual physical relationship is existing, enabling for safety beneath overload situations
Typical Industries
Air Dealing with
Mining
Paper & Forest
common applications
Conveyors (Bulk Materials Managing)
Any application requiring overload safety
Any application with a large-inertia startup
Overview
#randurls[1|1|, |fluid coupling||Fluid coupling]# on Transfluid’s industrial transmission design KPTO.
A fluid coupling consists of three parts, furthermore the hydraulic fluid:
The housing, also identified as the shell[5] (which must have an oil-restricted seal close to the generate shafts), includes the fluid and turbines.
Two turbines (fanlike factors):
One particular related to the input shaft identified as the pump or impeller,[five] main wheel[five] input turbine
The other connected to the output shaft, recognized as the turbine, output turbine, secondary wheel[five] or runner
The driving turbine, known as the ‘pump’, (or driving torus[a]) is rotated by the prime mover, which is usually an inner combustion motor or electrical motor. The impeller’s movement imparts both outwards linear and rotational motion to the fluid.