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Designed to grip evenly around your shaft, these couplings provide more holding power than set screw couplings without marring the shaft.
Tighten the set screws to fasten these couplings to your shaft. Set screws bite into the shaft to hold the couplings in place.
Also called double-loop couplings, these have a flexible center that reduces vibration and compensates for high parallel and angular shaft misalignment.
Able to handle high twisting forces as well as misalignment, these couplings are good for high-performance servomotor applications.
With a bellows between two hubs, these couplings handle all types of misalignment and are good for precision stepper and encoder motion-control applications.
Specially designed ridges allow these bellows couplings to compensate for more misalignment than other precision couplings—useful for low-torque, high-precision applications such as instrumentation and motion control.
Each hub includes a set screw (unless noted), which bites into your shaft to hold the coupling in place.
Each hub includes a set screw, which bites into your shaft to hold the coupling in place.
Also known as Schmidt couplings, these handle higher angular misalignment than other three-piece couplings. Good for applications with varying shaft misalignment, they're commonly used with conveyor rollers and roller feeds in printing and packaging machines.
Magnetic force transfers torque from one half of these couplings to the other; there’s no contact between the parts, so they won’t wear. Couplings compensate for angular and parallel misalignment.
Designed to grip evenly around your shaft, clamping couplings provide more holding power than set screw couplings without marring the shaft.
Set screws bite into your shaft to hold these couplings in place.
A good choice when you need accurate and repeatable motion, these U-joints have zero backlash (no play), so there’s no motion lost when your shafts change direction.
Using magnetic force instead of friction to transmit torque, these torque limiters won't wear when they slip.
These metal collars are stronger than plastic shaft collars.
Wider than standard shaft collars with twice the number of clamping screws, these ensure a better grip for greater holding power.
With larger clamping screws than those found on standard clamping collars, these provide a stronger grip on your shaft without using additional screws.
Formed to offset the weight of the clamping screw, these collars won't wobble or vibrate when shafts are spinning—even at high speeds.
Keep these shaft collars in place by tightening their set screw into the shaft.
With larger screws than those found on standard clamping collars, these provide a stronger grip on your shaft without using additional screws.
Instead of replacing your shaft or keeping components, such as couplings, with various bore diameters on hand, these reducers adapt the bore of a component to a smaller size.