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Choose ball bearings for debris-free environments and when speed is a necessity. They operate with less friction than sleeve bearings, so you can run them at higher speeds.
Designed to handle heavy loads, these bearings have the highest load capacities of any mounted linear ball bearings we offer.
Outdoor as well as mild chemical environments are no problem for these bearings. They have stainless steel balls for corrosion resistance.
Virtually maintenance free, these bearings have slippery, chemical-resistant liners that don't require added lubrication.
A ceramic coating makes high speeds as well as rapid acceleration and deceleration possible.
With two bearings mounted in one housing, these sleeve bearings can handle heavier loads than standard mounted linear sleeve bearings.
With two bearings mounted in a single housing, these bearings have load capacities more than 10 times as high as standard mounted linear sleeve bearings. A ceramic liner helps them achieve high speeds as well as rapid acceleration and deceleration.
Float bearings on air for precise, frictionless movement. Unlike traditional bearings that can wear your shaft down, these bearings are suspended using pressurized air for linear and rotary motion.
The Frelon liner on these bearings allows them to stand up to a wider range of chemicals than other flange-mounted linear sleeve bearings.
Mount these bearings on a support rail shaft for applications requiring maximum rigidity.
Designed to handle heavy loads, these bearings have higher load capacities than comparable standard mounted linear ball bearings for support rail shafts.
With two bearings mounted in one housing, these sleeve bearings withstand heavy loads. Use them on round support rail shafts for applications that require maximum rigidity.
With two bearings mounted in a single housing, these bearings have higher load capacities than standard ones. A ceramic liner helps them achieve high speeds as well as rapid acceleration and deceleration.
Because they usually do not require lubrication, linear sleeve bearings outperform linear ball bearings in dirty environments.
Ridges on the inside of these bearings wipe away dust and debris as the bearing travels on a shaft.
Thinner than standard linear sleeve bearings, these bearings fit where clearance is a concern.
A ceramic liner makes high speeds as well as rapid acceleration and deceleration possible.
Use these ultra-thin sleeve bearings in high-speed applications where clearance is a concern.
Sleeve bearings outperform ball bearings in dirty environments. Use them for low speed applications.
These bearings have a ceramic liner to help them achieve high speeds as well as rapid acceleration and deceleration.
Slide up to two linear ball or sleeve bearings into these housings and secure them with the included internal retaining rings.
Adapt most 15 mm guide rails to fit on T-slotted assemblies.
With fewer moving parts and no need for lubrication, sleeve bearing carriages perform better in dusty and wet environments than ball and roller bearing carriages. They're also better at handling impact and vibration.
A floating bearing in these self-aligning carriages adjusts to compensate for misalignment between rails, so your carriages still move in tandem.
A handle on the side of the carriage locks the carriage in place.
Create a self-aligning system that can be locked in place with these carriages and guide rails.
Use these carriages and guide rails in temperatures up to 300° F.
With a wide base, these sleeve bearing carriages stabilize moment (twisting) and off-center loads better than standard carriages. Use in areas where multiple carriages or rails won't fit.
Mate with a T-slotted rail to add linear motion to your assembly.
Threaded inserts secure the bearing to the carriage and prevent it from loosening due to frequent starts and stops.
The square profile prevents loads from twisting and rotating.
Fasten loads on the side of these carriages and add linear motion to a T-slot assembly.
Build loops, circuits, and curved paths in assembly stations and other repetitive processes.
A handle locks these carriages in place on curved paths, loops, and circuits in assembly stations and other repetitive processes.
Mount along a wall or other vertical surface.
Create a self-aligning carriage and guide rail system to compensate for mounting surfaces that aren't parallel.
Needle-roller bearings give these track roller carriages higher load capacities than other track roller carriages.
V-shaped rollers and rails allow these carriages to operate well in dirty environments because the debris won't get trapped on the rail.
Nylon rollers provide low-friction movement for light loads and corrosive environments.
High-temperature PTFE-thickened grease enables these carriages to operate in temperatures up to 500° F, higher than any other carriage that we offer.
Combine with a T-slotted rail to add linear motion to your assembly.
Slides have a row of ball bearings on each side of the rail.
With a row of crossed-roller bearings on each side of the rail, these slides have over twice the load capacity of standard low-friction slides and are better for handling shock loads.
Use these slides in a variety of manual-positioning applications for laboratory and production equipment as well as for positioning parts for drilling, fastening, assembly, and measuring.
A linear scale and micrometer-like hand wheel measure travel distance in increments of 0.001".
Made with Frelon bearings, these slides have over four times the load capacity of standard positioning slides.
A thumb screw locks the slide to prevent movement in systems where vibration is present.
A micrometer handle ensures accurate, repeatable positioning along a single axis—good for positioning parts, such as measuring and inspecting equipment, that are part of a larger automated system.
Two micrometer handles ensure accurate, repeatable positioning along two axes—good for positioning parts, such as measuring and inspecting equipment, that are part of a larger automated system.
Three micrometer handles ensure accurate, repeatable positioning along three axes—good for positioning parts, such as measuring and inspecting equipment, that are part of a larger automated system.
Mount components to these load-rated bearings and track rollers to add linear motion along T-slotted rails.
Slide drawers, panels, and doors with these tracks and rollers.
Extend the horizontal reach of your Universal Robots’ arm to operate your robot at multiple positions along an assembly line, or transport workpieces from a conveyor to your CNC.
A crisscross thread pattern allows you to drive the nut back and forth without changing the lead screw's direction of rotation. When the nut reaches one end of the lead screw, it changes direction and travels back to the other end.
Install these nuts on a rotary shaft to create a linear positioning system without a lead screw. Instead of threads, a set of angled ball bearings drives the nut along a shaft as it spins.
Move loads with consistent, repeatable push-pull motion.
With PTFE sleeve bearings and a low-friction ball screw, these slides don’t require the mess and maintenance of lubrication but still give you precise positioning anywhere along the length of their stroke.
A lead screw that converts rotational motion to linear motion sits inside the motor body for a compact footprint. Add a driver and controller to these actuators to repeatedly position loads with speed and precision.
Without any hardwiring, these actuators give you control over your push-pull motion using either a hand or foot switch.
With an included controller and an integrated stepper motor, these slides are a complete precision motion control system.
With no external moving parts, these air slides provide a long stroke, but have a static footprint—only the carriage on top moves.
Convenient for use with devices such as grippers and printing heads, these air slides have a nonrotating head that provides steady motion and a larger mounting area than air cylinders.
Move grippers, printing heads, and other devices in areas constantly exposed to dust and powders as fine as flour.
Prevent sudden drops while raising and lowering grippers and other pick-and-place equipment.
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.
Move optical equipment and other electronics sensitive to dust and fine particles from a range of mounting positions.