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Create linear motion with the most popular of our air cylinders.
More basic and cost effective than double-acting cylinders, these single-acting cylinders exert force in one direction and have a spring to return the rod to its original position.
Also known as pancake cylinders, these deliver as much force as other cylinders, but with a shorter stroke to function in small spaces.
These cylinders thread directly into your equipment, taking minimal space.
Built to withstand hard knocks, these cylinders have a thick barrel wall for more durability than standard air cylinders.
At less than two inches in length, these cylinders actuate small devices in spots where other cylinders don’t fit.
Also known as air clamps, these cylinders are used to apply force in holding applications.
Unlike other air cylinders that push and pull one object, these double-ended cylinders push one object while pulling another.
Able to resist corrosive solutions and chemical environments, these cylinders withstand washdown conditions.
Rods along the barrel of these cylinders secure the end caps and shield the barrel from impact.
Get the power and stroke of other tie rod cylinders in less than half the space.
Made to fit the most common mounting footprint, these cylinders have an NFPA (National Fluid Power Association) industry-standard footprint, ensuring easy interchangeability.
Made with an NFPA industry standard footprint and a stainless steel body, these cylinders are easily interchanged with the most common mounting footprint and withstand chemicals, corrosive solutions, and washdowns.
An extruded-aluminum body means these cylinders have no open spaces for debris to collect.
Cylinders have two parallel piston rods that prevent twisting as they extend and retract.
These cylinders have self-adjusting cushions that automatically compensate for changes in load and speed.
Threaded through-holes in each corner allow you to mount these cylinders directly to equipment or mount with attachments.
Convenient for use with devices such as grippers and printing heads, these air slides have a nonrotating head that provides steady motion and a large mounting area.
With no external moving parts, these air slides provide a long stroke, but have a static footprint—only the carriage on top moves.
Modify the stroke length on these air slides to meet changing application requirements—slides have adjustable shaft collars on the guide rods that you can move to fine-tune the stroke length.
Control the movement of loads on your conveyor—the rod on these air cylinders extends to stop loads and retracts to let them pass.
Use rotary motion to drive devices in tight spaces.
Turn the adjustment bolt on these actuators to set the rotation between 0° and 190° to meet your application requirements.
Designed to turn heavy loads, these rotary air actuators have rack-and-pinion gears that provide high torque output.
Small, but mighty, these gearmotors pair an air-powered motor with a speed reducer to lower speed while increasing torque.
With a motor and speed reducer in one, you can use these gearmotors in air-powered applications to slow speed and increase torque.
A safe alternative to electric motors for use in harsh environments, air-powered motors are spark-free and remain cool, even under continuous load.
These general purpose gas springs assist in opening lids, covers, windows, conveyors, and seats—similar to a hatchback opening on a car.
Stainless steel construction provides corrosion resistance for use in damp environments.
Mechanical operation means these springs have no seals to fail or gas to leak.
With no gas to leak out and a corrosion-resistant 316 stainless steel construction, these mechanical springs are built for long-term, maintenance-free use in wet environments.
A temperature-resistant seal allows these gas springs to withstand heat up to 392°F.
These gas springs have threaded ends so you can use them with any combination of end fittings, studs, and mounting brackets.
Made from stainless steel for excellent corrosion resistance in damp environments.
Often used to open lids, covers, windows, conveyors, and seats, these gas springs function similar to a hatchback opening on a car. They have an eyelet end fitting on each end.
Protect material and equipment underneath heavy loads—these gas springs lock automatically when fully extended, ensuring they can't be closed until it's safe to do so.
Ensure you have the correct force for your application. These gas springs have a bleed valve so you can release gas to permanently reduce the force to meet your requirements.
Automatically locking when fully extended and made of 316 stainless steel to resist corrosion, these gas springs protect material and equipment underneath heavy loads in damp environments.
Release gas from these springs until they supply the exact force you need—made of corrosion-resistant 316 stainless steel, they’re commonly used in wet environments.
Made from stainless steel for excellent corrosion resistance in damp environments. These gas springs have a bleed valve so you can release gas to permanently reduce the force to meet your requirements.
Often used to replace coil springs in metal stamping and die-spring applications, these gas springs match the diameter and stroke length of coil die springs but offer much more force.
Color coded by force to help you choose the correct replacement, these gas springs generate high force.
Pair one of these gas springs with a release control to stop and release the gas spring anywhere along the stroke with the push of a button or lever.
Attach eyelet end fittings to these brackets to mount gas springs.
These brackets secure eyelet end fittings from both sides to provide a strong hold on gas springs that get bumped or jostled. Mount on any panel, lid, or door.
Made from stainless steel, these brackets resist corrosion in damp environments.
Pair these 90° angle offset-arm brackets with ball socket end fittings to mount your gas spring in almost any position.
Pair these 30° angle brackets with ball socket end fittings to mount your gas spring in almost any position.
Drill mounting holes where you need them—these brackets are made from aluminum, so they’re easy to machine.
Made with thicker stainless steel than standard ball stud mounting brackets, these brackets work well in high-force applications exposed to damp conditions.
Since they’re at least twice as thick as standard ball stud mounting brackets, these brackets are best for high-force applications.
Pair with ball socket end fittings to mount your gas spring in almost any position.
Pair these 90° angle brackets with ball socket end fittings to mount your gas spring in almost any position.
Stainless steel that’s twice as thick as standard 90° angle ball stud mounting brackets makes these brackets good for high-force applications exposed to damp conditions.
About twice as thick as standard 90° angle ball stud mounting brackets, these brackets are suitable for high-force applications.
Made of easy-to-machine aluminum, these brackets come without mounting holes, so you can drill holes where you need them.
Attach ball socket end fittings to these studs to mount gas springs.
Install these ball studs into thin material—they’re riveted, so you only need access to one side.
Also known as tension and traction gas springs, these work in the opposite direction of other gas springs. Similar to a screen door closing, they're used to assist in closing covers, hoods, and doors.
These clamps have mounting holes on the bottom.
Suitable for production applications, these clamps have double the service life of other air-powered toggle clamps.
Mount using the holes in the base.
Screw these clamps directly into a tapped hole in a fixture.
Use for repetitive clamping and in production environments or hard-to-reach locations.
Replace all the seals on the rod end of a hydraulic cylinder.
Replace all the seals on the piston of a hydraulic cylinder.
Attach these actuators to manual ball valves, butterfly valves, and plug valves with an ISO 5211 hole pattern to automatically start and stop flow with compressed air.
Automatically start, stop, and adjust flow through valves.
Use electricity to start and stop flow to valves automatically.