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Twist these bumpers into a threaded hole. Often used as feet, spacers, and vibration dampers, they absorb shock to prevent damage to equipment and surfaces.
All of these bumpers are reinforced with a steel core for strength. Often used as feet, spacers, and vibration dampers, they absorb shock to prevent damage to equipment and surfaces. They're also good for starting and stopping motion on automated machines. Twist them into a threaded hole.
Select these bumpers for applications that require specific load capacities. All are reinforced with a base plate for strength. Often used as feet, spacers, and vibration dampers, they absorb shock to prevent damage to equipment and surfaces. They're also good for starting and stopping motion on automated machines and conveyors. Twist these bumpers into a threaded hole.
These bumpers withstand temperatures up to 300° F, which is twice as high as our other load rated bumpers. Use them in applications that require specific load capacities. All are reinforced with a base plate for strength. Often used as feet, spacers, and vibration dampers, these bumpers absorb shock to prevent damage to equipment and surfaces. They're also good for starting and stopping motion on automated machines and conveyors. Twist them into a threaded hole.
Keep bumpers of various shapes, materials, and mounting styles on hand to solve whatever problems arise.
Keep sliding doors and panels from damaging walls and door frames.
All-stainless steel construction stands up to water and chemicals and won't rust or corrode.
Higher deflection ratings translate to greater vibration and shock isolation.
Bolt these mounts down to keep your equipment stationary.
Thread these mounts into machinery to level them on uneven floors in sanitary environments such as food-processing areas.
A two-piece design requires less clearance than one-piece mounts and simplifies installation—raise your machine just enough to slide the base underneath, then insert the stud from above.
Higher deflection ratings translate to greater vibration and shock isolation than our other vibration-damping leveling mounts.
A two-piece design simplifies installation and requires less clearance than one-piece mounts.
Choose from mounts that support 3,000 to 30,000 lbs. for heavy machinery.
An interlocking steel frame in these mounts prevents collapse, even if the rubber fails.
Connect these mounts to your air supply for vibration and shock isolation in compression load applications.
Spring action provides significant isolation of vibration and noise.
Limit damage during moderate earthquakes.
Made of nitrile rubber, these mounts are oil resistant for use in compression load applications with punch presses, milling machines, grinders, and air compressors.
Well-suited to moist environments, these mounts have a stainless steel plate for excellent corrosion resistance.
The polyurethane base on these mounts resists solvents, gasoline, and oil, while the metal plate sustains heavy loads.
Specifically designed for light vertical loads, these mounts buckle to protect lightweight equipment such as small fans and pumps from vibration.
Designed for tight spaces such as inside machinery, these mounts fit into a cutout, so they so they have a low top profile.
A two-piece design makes these mounts easier to install than one-piece mounts.
Made of neoprene rubber, these mounts are oil resistant, so they're good for use under generators, HVAC equipment, electric motors, pumps, and blowers.
These mounts withstand exposure to weather and resist oil, antifreeze, and other petroleum-based fluids.
Adjust the swivels on these mounts to level equipment on uneven surfaces for protection during earthquakes.
Turn the knob on these shock absorbers to change deceleration to suit varying loads and speeds.
Also known as snubbers, use these shock absorbers in low-load, high-cycle applications.
An airtight seal prevents leaks and protects moving parts from dust to minimize wear for a long service life.
Accommodate changing loads and energy without manual adjustment.
Made from stainless steel for excellent corrosion resistance in damp environments.
Like the shocks in a car, these mount between two surfaces to minimize vibration and motion transfer caused by sudden impact.
For the heaviest loads, these springs have more than double the load capacity of High-Load Fastener-Mount Compression Springs. Secure by inserting a fastener through the hole at the base.
These springs handle higher loads than standard fastener-mount compression springs. Secure by inserting a fastener through the hole at the base.
Differently sized mounting holes on either side allow for mounting flexibility.
A quieter, more vibration-resistant alternative to traditional steel die springs, these polyurethane springs resist oxidation, oil, and abrasion in high-load, high-pressure applications.
Isolate vibration and absorb shock from moving equipment, even with changing loads. Also for leveling and lifting, use compressed air to adjust air springs to the height and force required for your application.
Thread these one-piece collars onto an Acme lead screw.
Mount these two-piece collars anywhere on an Acme lead screw without removing components.
Install these threaded collars on a metric lead screw to separate and position components, or use them as an end stop to limit travel.
Ensure parts don't push back into the collet while machining.
Use these components in coordinate measuring machine (CMM) applications to raise a workpiece and reliably position it on a fixture plate with ¼"-20 holes.
For use with most metals in addition to plastic and wood.
Use with plastic and wood.
Use on plastic and most metals.
For use on wood and plastic.
Use these guides to help control your door's motion and keep the bottom of the door from swinging.