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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.
These track roller carriages and guide rails are stainless steel for use in wet, corrosive environments.
Use these carriages and guide rails for light loads where precise movement is not required.
Needle-roller bearings give these track roller carriages higher load capacities than other track roller carriages.
A handle on the side of the carriage locks the carriage in place.
V-shaped rollers and rails allow these carriages to operate well in dirty environments because the debris won't get trapped on the rail.
High-temperature PTFE-thickened grease enables these carriages to operate in temperatures up to 500° F, higher than any other carriage that we offer.
Nylon rollers provide low-friction movement for light loads and corrosive environments.
Combine with a T-slotted rail to add linear motion to your assembly.
Create a low-maintenance system with loops and curved paths in assembly stations and other repetitive processes.
These carriages and guide rails are steel.
Made of stainless steel, these carriages and guide rails are more corrosion resistant than steel carriages and guide rails.
A black chrome plating diffuses light, preventing reflecting light from causing equipment to malfunction.
Designed specifically for use on horizontal surfaces, the contact angle of the ball bearings on the rail allows these carriages to last longer than other carriages.
Suitable for clean room use, these carriages and guide rails are made entirely of stainless steel.
A plastic cage surrounds the ball bearings and keeps them from colliding, so these carriages run for many cycles without needing maintenance.
Designed for use on horizontal surfaces, the contact angle of the ball bearings on the rail allows these carriages to last longer than other carriages.
These tiny carriages and guide rails are sized for electronic and other precision applications.
Small enough to fit in a camera zoom lens and other precision motion applications, these carriages and guide rails have a black chrome-plated finish that diffuses light to prevent reflecting light from causing equipment to malfunction.
Mount to vertical surfaces for applications where tight tolerances aren't required.
With a wide base and low-profile design, these carriages and guide rails stabilize moment (twisting) and off-center loads better than other carriages and rails. They're good for use in areas where multiple carriages or rails won't fit.
With a plastic cage that surrounds the ball bearings to prevent them from colliding, these extra-wide carriages run quietly for many cycles without needing maintenance. All of these carriages have a wide base and low-profile design to stabilize moment (twisting) and off-center loads better than other carriages.
For smooth, accurate movement around curves and loops, these carriages have ball bearings that work well in high-speed, high-load applications.
Adapt most 15 mm guide rails to fit on T-slotted assemblies.
Run many cycles in tight spaces before replacing or re-greasing carriages.
For applications with low clearance, these carriages protrude less than 5 mm above their rails.
Compensate for rail misalignment in low-clearance applications with these carriages and guide rails.
Fasten loads on the side of these carriages and add linear motion to a T-slot assembly.
Threaded inserts secure the bearing to the carriage and prevent it from loosening due to frequent starts and stops.
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 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.
C-shaped guide rails grip the carriage around the outside to support linear motion along walls and other vertical surfaces.
Mate with a T-slotted rail to add linear motion to your assembly.
The square profile prevents loads from twisting and rotating.
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.
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.
Support loads while guiding and positioning work with these steel rollers and guide rails.
Nylon rollers and aluminum rails make these good for light duty applications.
Made of stainless steel, these track rollers and guide rails are more corrosion resistant than steel rollers and rails.
Roller bearing carriages handle heavier loads than ball bearing and track roller carriages.
Create your own positioning table or telescoping slide. Sets include four rails, two roller bearing cages, and eight end stops.
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.
Slides have a row of ball bearings on each side of the rail.
Good for use in pick-and-place applications, machine tool doors, and telescopic press arms, these rugged slides are designed to carry heavy loads.
A linear scale and micrometer-like hand wheel measure travel distance in increments of 0.001".
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.
Made with Frelon bearings, these slides have over four times the load capacity of standard positioning slides.
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.
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.
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.
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.
Outdoor as well as mild chemical environments are no problem for these bearings. They have stainless steel balls for corrosion resistance.
Designed to handle heavy loads, these bearings have the highest load capacities of any mounted linear ball bearings we offer.
Use the adjustment screw in the housing to tighten or loosen the snugness (also known as preload) of the bearing to your shaft.
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.
Virtually maintenance free, these bearings have slippery, chemical-resistant liners that don't require added lubrication.
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.
Made from a single piece of slippery UHMW plastic, these bearings have no cracks or crevices so they’re easy to clean.
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 shell, housing, and balls of these bearings are stainless steel for excellent corrosion resistance.
The Frelon liner on these bearings allows them to stand up to a wider range of chemicals than other flange-mounted linear sleeve bearings.
The flanged housing makes these bearings a good solution for vertical linear motion applications.
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.
A flange with mounting holes makes it easy to attach a load to these bearings. Create a compact linear and rotary motion system for robots and other applications requiring complex, fast movements, by combining them with ball splines.
Use ball bearings in 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 higher load capacities than comparable standard linear ball bearings.
The choice for low-friction motion in high-temperature environments.
Engineered for simultaneous linear and rotary motion, these bearings are used with round end-supported shafts.
Thinner than standard linear sleeve bearings, these bearings fit where clearance is a concern.
Because they usually do not require lubrication, linear sleeve bearings outperform linear ball bearings in dirty environments.
These fiberglass bearings are lightweight, nonmagnetic, and won’t conduct electricity.
Use these ultra-thin sleeve bearings in high-speed applications where clearance is a concern.
Ridges on the inside of these bearings wipe away dust and debris as the bearing travels on a shaft.
A ceramic liner makes high speeds as well as rapid acceleration and deceleration possible.
Made of FDA-listed materials for use in food applications, these bearings also have excellent chemical and corrosion resistance.
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.
Ball bearings create less friction than sleeve bearings, so they require less force to operate.
Designed to handle heavy loads, these bearings have higher load capacities than comparable standard linear ball bearings for support rail shafts.
Combine these bearings with a ball spline to create a compact linear and rotary motion system for applications with fast, complex movements, such as robotics.
Slide up to two linear ball or sleeve bearings into these housings and secure them with the included internal retaining rings.
For precise positioning in your linear motion system, add these brakes to manually lock a bearing in place on a shaft.
Also known as yoke-style cam followers, these rollers have more mounting flexibility than threaded track rollers. They're typically mounted onto a shaft or clevis rod end.
Also known as eccentric track rollers, the shoulder adjusts up or down to align to your track, enabling uniform alignment among rollers in a system.
Thread the stud directly into a component or secure with a nut for through-hole mounting.
Use these rails with any track rollers that have a 90° V-groove.
Support and guide loads on angle rails in food, pharmaceutical, and other sanitary environments. Also known as yoke-style cam followers, these track rollers offer more mounting flexibility than threaded alternatives and are typically mounted on shafts and clevis rod ends.
Guide loads along angle rail tracks in food and pharmaceutical plants or other sanitary environments.
These rollers are rated to handle radial and thrust (top and side) loads simultaneously.
With a double row of cylindrical roller bearings, these rollers provide the highest combination of speed and dynamic radial load ratings of any shaft-mount track roller we offer.
The outer ring is built to handle higher speeds than standard shaft-mount track rollers.
Made of 440C stainless steel, these shaft-mount track rollers resist corrosion in damp environments.
With a double row of cylindrical roller bearings, these rollers provide the highest combination of speed and dynamic radial load ratings of any threaded track roller we offer.
Built to handle high speeds for their size. These track rollers have an outer ring that supports higher speeds than standard-sized track rollers.
The soft rubber or plastic surface on these rollers creates less noise than the metal surfaces found on other track rollers.
Also known as cam followers, track rollers support loads while guiding and positioning work. Thread the stud directly into a component or secure with a nut for through-hole mounting.
Because they never need to be relubricated, these rollers are a good choice for hard-to-reach places.
Lubricated with graphite, these rollers can handle temperatures from -450° to 750° F—the widest temperature range of any track roller in our offering.
Despite their size, these rollers handle high radial load capacities without sacrificing speed.
These threaded track rollers are made of materials that prevent corrosion in wet environments.
With dry-running PTFE sleeve bearings, these rollers don’t require lubricant. They’re also fully submersible, nonsparking, and lightweight.
Install these rollers in worn-out mounting holes or where you don’t have access to the back of the mounting hole. The stud is tapered, so you can quickly secure them in place with a set screw instead of a nut on the back like traditional rollers.
Shaft-mount track rollers have more mounting flexibility than threaded track rollers.
A dual-flange design provides guidance on both sides and helps these rollers stay on track.
Slide drawers, panels, and doors with these tracks and rollers.
Mount components to these load-rated bearings and track rollers to add linear motion along T-slotted rails.
Precision ground to create more points of contact, these roller screws and nuts are highly accurate and handle much higher loads than ball screws and nuts of the same size.
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.
These metric lead screws and nuts have broad, square threads that are well suited for quick assembly, high clamping forces, and lifting and lowering heavy objects. They're commonly found in hand-powered clamps, vises, grates, doors, and work tables.
Found in hand-powered clamps, vises, grates, doors, and work tables, lead screws and nuts have broad, square threads that are well suited for quick assembly, high clamping forces, and lifting and lowering heavy objects.
A set of ball bearings reduces friction and secures the end of a metric ball or lead screw.
Install these threaded collars on a metric lead screw to separate and position components, or use them as an end stop to limit travel.
A set of ball bearings reduces friction and secures the end of a ball or lead screw.
Keep your ball screw spinning without the ball nut damaging your system. When the ball nut reaches the stop pin at either end of the ball screw, it disengages and begins to idle.
Also known as trapezoidal-thread lead screws and nuts.
Mount these two-piece collars anywhere on an Acme lead screw without removing components.
Thread these one-piece collars onto an Acme lead screw.
Also known as single-start ball screws and nuts, these have a single thread that runs the length of the screw. They operate with more torque than fast-travel ball screws and nuts.
Multiple thread channels (also known as thread starts) create faster linear travel than ball screws with a single thread start.
Also known as single-start and self-locking lead screws and nuts, these have a single thread that runs the length of the screw. The nut travels only when the screw turns, so your system won't unexpectedly move when the lead screw is at rest.
Multiple thread channels (also known as thread starts) create faster linear travel than lead screws with a single thread start.
Combine with an externally threaded acme nut to create a custom flange nut.
From one compact system, transmit linear or rotary motion or both at once (sometimes called spiral motion). Because of these different motions, these ball screw/splines and bearings create efficient, fluid movements in complex automated applications, such as pick-and-place robots.
Create a compact linear and rotary motion system for applications requiring complex, fast movements, such as robotics.
Often used in wet and dirty environments, these sleeve splines and bearings create a compact linear and rotary motion system.
Good for hydraulic systems, machine tools, and other high-torque applications, these shafts have teeth that transmit high rotational loads.
Add your own stepper motor and controller to precisely move the ball screw and carriage smoothly at high speeds, like a head on an inkjet printer.
Precisely drive both linear and rotary motion from one compact system.
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.
Prevent dust from circulating while precisely positioning parts for drilling, fastening, assembly, and measuring.
With an included controller and an integrated stepper motor, these slides are a complete precision motion control system.
Smaller than any other actuator in our offering, these actuators’ short stroke length makes them good for automating fine, precise adjustments.
A built-in stepper motor moves the load on these slides smoothly and precisely at high speeds, similar to an inkjet printer head.
With a stepper motor and driver built in, these actuators come ready to use for clamping, sorting, and ejecting tasks.
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.
Automate precise push and pull movements in clamping, sorting, and ejecting tasks.
Without any hardwiring, these actuators give you control over your push-pull motion using either a hand or foot switch.
Move loads with consistent, repeatable push-pull motion.
With no external moving parts, these air slides provide a long stroke, but have a static footprint—only the carriage on top moves.
Move heavy loads back and forth—these air slides have over twice the capacity as standard rodless ones. They are often used for high-volume diverting and sorting.
Push one object while pulling another—when one head on these air slides extends, the other retracts.
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.
Prevent dust and fine particles from contaminating your clean room or damaging sensitive electronics while moving grippers and other pick-and-place equipment.
For flexibility with your setup, mount equipment on top or in front of these air slides. Mount on top to reduce the space you need to move a full stroke length.
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.
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 optical equipment and other electronics sensitive to dust and fine particles from a range of mounting positions.