FMM Type Mill Couplings
The FMM Form coupling consists of a single typical flex hub, one universal straight bored hub as conventional, two sleeves and one accessory kit. This coupling is provided with exposed bolts as standard. Shrouded bolts can be found upon request via size 5.5.
Options
For lengthy existence
Common 20° stress angle
Heat taken care of bolts for greater strength
Corrosion resistant bolts and nuts for ease of servicing
Supplies parallel, angular misalignment and finish float
Flex Half coupling interchangeable with business standards
Extended Universal Hub provided to consumer specs with straight or tapered bores
Ordering Facts
Application: Driver and Driven.
Style and dimension of coupling, horizontal, vertical and so on.
Energy: Motor horspower or torque necessity.
Pace: Motor RPM or Driven RPM.
Distance amongst shaft ends (BSE).
Shaft sizes.
Taper per foot and length of taper if tapered bore is required.
Specify counterbore dimensions if desired.
Submit a drawing if accessible.
FHDFS Style Floating Shaft Couplings
The FHDFS Type coupling consists of two flex-rigid couplings and 1 floating shaft. The coupling is provided with all the rigid hubs outboard unless of course otherwise specified. The coupling includes exposed bolts only.
Attributes
Flex Hubs for long existence
Normal 20° stress angle
Heat taken care of bolts for higher strength
Corrosion resistant bolts and 
nuts for ease of servicing
Accommodates parallel and angular misalignment
Elimination of center assembly enables forease of upkeep without repositioning machinery
Rigid hubs outboard allows for greater shaft diameters
Intended for high-torque low-speed applications that occur in mill operations
Ordering Data
Application: Driver and Driven.
Style and dimension of coupling, horizontal, vertical and so forth.
Energy: Motor horspower or torque necessity.
Pace: Motor RPM or Driven RPM.
Distance amongst shaft ends (BSE).
Connecting gear shaft sizes.
Specify which hubs are to get employed over the tools (Rigid or Flex).
Rigid hubs might be made use of over the equipment unless of course otherwise specified.
Length of floating shaft may well have an impact on max angular misalignment.