We will reply to your message within an hour.
More
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.
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.
Thread these mounts into machinery to level them on uneven floors in sanitary environments such as food-processing areas.
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.
Spring action provides significant isolation of vibration and noise.
Connect these mounts to your air supply for vibration and shock isolation in compression load applications.
Limit damage during moderate earthquakes.
The polyurethane base on these mounts resists solvents, gasoline, and oil, while the metal plate sustains heavy loads.
Well-suited to moist environments, these mounts have a stainless steel plate for excellent corrosion resistance.
Made of nitrile rubber, these mounts are oil resistant for use in compression load applications with punch presses, milling machines, grinders, and air compressors.
Made of neoprene rubber, these mounts are oil resistant, so they're good for use under generators, HVAC equipment, electric motors, pumps, and blowers.
A two-piece design makes these mounts easier to install than one-piece mounts.
Install these mounts with a socket head cap screw—the counterbored hole ensures the screw sits flush with or below the top of the mount.
Made of tightly layered stainless steel mesh, these mounts withstand temperatures up to 500° F.
These mounts withstand exposure to weather and resist oil, antifreeze, and other petroleum-based fluids.
Specifically designed for light vertical loads, these mounts buckle to protect lightweight equipment such as small fans and pumps from vibration.
Isolate vibration and noise from oscillating equipment like fans and tumblers that create horizontal (shear) force.
Designed for tight spaces such as inside machinery, these mounts fit into a cutout, so they so they have a low top profile.
Black-oxide steel has a dull shine for areas where appearance is a concern.
Well-suited to damp environments, these metric mounts have a stainless steel stud and nut for corrosion resistance.
Punch-out holes in the base let you bolt down these metric mounts to keep your equipment stationary.
Designed for use in sanitary and food processing areas, these mounts level tanks and machinery on uneven floors and create space to clean underneath.
Adjust the swivels on these mounts to level equipment on uneven surfaces for protection during earthquakes.
Able to shoulder up to 1,500 psi per mounting point, nitrile pads can support heavy machinery.
Place pads under equipment, such as drill presses, milling machines, saws, and air-conditioning units to minimize vibration and noise transmitted to and from machinery.
These soft pads work well for isolating vibration with light loads such as lab and testing equipment.
Made of nitrile rubber, these pads have excellent resistance to oil and solvents.
Made of PVC, these pads endure exposure to corrosive chemicals, such as cleaning solvents, chlorine, and hydrochloric acid.
Shield surfaces from impact, reduce vibration and noise, and stabilize connection points with these packs of pads—they’re reinforced with fabric to endure extreme compression without deforming. They’re also known as bearing pads.
Great for use outdoors, these durable pads are neoprene rubber, which withstands exposure to direct sunlight.
Reinforced with fabric so extreme compression won’t deform them, these pads protect surfaces from impact, dampen vibration and noise, and act as stable connection points. They’re commonly known as bearing pads.
Made of tightly layered stainless steel mesh, these pads withstand a wide temperature range from -120° to 500° F.
In addition to having a wider temperature range than our other vibration-damping grommets, these have excellent weather resistance.
Press these grommets into a hole to add cushion on both sides.
In addition to having a wider temperature range than our other ribbed vibration-damping grommets, these have excellent weather resistance.
Ribbed grommets are more flexible than our smooth vibration-damping grommets, so they're easier to install.
In addition to having a wider temperature range than our other vibration-damping bushings, these have excellent weather resistance.
Easier to install than grommets, push these bushings through your mounting hole to dampen vibration. Use them with a vibration-damping washer to isolate vibration.
Ribbed bushings are more flexible than our smooth vibration-damping bushings, so they're easier to install.
In addition to having a wider temperature range than our other ribbed vibration-damping bushings, these have excellent weather resistance.
Use these in place of normal washers to damp vibration and cushion your joint.
In addition to having a wider temperature range than our other vibration-damping washers, these have excellent weather resistance.
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.
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.
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.
Install these bumpers with screws. 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 an embedded washer or 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. Install them with screws.
Select these bumpers for applications that require specific load capacities. 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. Install them with a screw.
These bumpers are at a 90° angle to protect corners on equipment, walls, and docks from damage caused by carts, vehicles, and other moving objects. Install them with screws.
These nonslip bumpers protect equipment while minimizing the movement of objects that come in contact, making them good for positioning and robotic-gripping applications. Install them with adhesives or screws.
Press these bumpers into place with the adhesive backing. Use them as feet and spacers on instruments and small appliances to limit sliding, vibration, and noise. They're comparable to Bumpon bumpers.
Select these bumpers for applications that require specific load capacities. Use them as feet and spacers on instruments and small appliances to limit sliding, vibration, and noise. Press them into place with the adhesive backing. They're comparable to Bumpon bumpers.
Make bumpers the size and shape you need. Use them as feet and spacers on instruments and small appliances to limit sliding, vibration, and noise. Press them into place with the adhesive backing.
Mount these bumpers on a threaded stud. All are reinforced with a steel core or 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.
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. Mount these bumpers on a threaded stud.
These bumpers withstand temperatures up to 300° F, which is at least 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. Mount them on a threaded stud.
Push the stem into a hole for quick installation. These bumpers are commonly used as feet on instruments and bench-top equipment to keep them from sliding. They're also good as spacers between sheets of material. Also known as stem and grommet bumpers.
A ridge on the stem provides a tighter grip than other push-in bumpers. Push the stem into a hole for quick installation. These bumpers are commonly used as feet on instruments and bench-top equipment to keep them from sliding. They're also good as spacers between sheets of material. Also known as stem and grommet bumpers.
The stem on these bumpers compresses to fit into tight holes. Push the stem into a hole for quick installation. These bumpers are commonly used as feet on instruments and bench-top equipment to keep them from sliding. They're also good as spacers between sheets of material. Also known as stem and grommet bumpers.
Keep bumpers of various shapes, materials, and mounting styles on hand to solve whatever problems arise.
Install with a few taps of a hammer. In addition to protecting soft materials such as wood, fiberboard, and plastic, these bumpers are commonly used on table and chair legs to safeguard floors.
A magnetic base makes it easy to attach, move, and replace these bumpers on metal surfaces. Use them for guarding, aligning, and positioning parts.
For quick and easy installation, wrap these bumpers around tubing, rods, machinery legs, control shafts, and levers to protect them from impact, dents, and scratches. They're also good for providing protection during shipment and storage.
With a split design, you can easily place these bumpers on tubing, rods, machinery legs, control shafts, and levers to protect them from impact, dents, and scratches. Use the concealed screw to secure them in place.