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Install these ball transfers in a threaded hole or use a nut to secure.
These ball transfers have capacities up to 2,200 lbs.
A double-sealed ball keeps out dirt and debris, and side vents expel contaminants.
Unlike most ball transfers, which have metal balls, these have a plastic outer ball that rolls on stainless steel inner balls, so there's no metal-on-metal contact that could create and release particles into your clean room. They've also been ultrasonically cleaned and then individually bagged to prevent dust contamination.
A large-diameter rubber ball handles delicate or polished surfaces. The stem spins and the ball rotates around the stem.
Build a mini conveyor in any shape you need. These conveyors have curved, straight, incline, and decline runs that you can quickly join together with the included brackets.
Transport hook-mount hoists along a beam.
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.
Despite their size, these rollers handle high radial load capacities without sacrificing speed.
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.
Built to handle high speeds for their size. These track rollers have an outer ring that supports higher speeds than standard-sized track rollers.
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.
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.
Thread the stud directly into a component or secure with a nut for through-hole mounting.
Guide loads along angle rail tracks in food and pharmaceutical plants or other sanitary environments.
The surface of these rollers is molded to a tolerance of either ±0.003 in. or ±0.08 mm to provide more consistent surface contact.
Combine track, mounting brackets, hangers, and end stops to create a system for hanging doors.
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.
Add rollers to T-slotted framing to create flow rails, ball transfer tables, and other manual conveyors.
Add mounting feet and casters to T-slotted framing structures to level equipment, anchor legs to the floor, or add mobility.
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.
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.
Use these carriages and guide rails for light loads where precise movement is not required.
V-shaped rollers and rails allow these carriages to operate well in dirty environments because the debris won't get trapped on the rail.
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.
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.
Run many cycles in tight spaces before replacing or re-greasing carriages.
For smooth, accurate movement around curves and loops, these carriages have ball bearings that work well in high-speed, high-load applications.
Roller bearing carriages handle heavier loads than ball bearing and track roller carriages.
Create a self-aligning system that can be locked in place with these carriages and guide rails.
A floating bearing in these self-aligning carriages adjusts to compensate for misalignment between rails, so your carriages still move in tandem.
Compensate for rail misalignment in low-clearance applications with these carriages and guide rails.
Create your own positioning table or telescoping slide. Sets include four rails, two roller bearing cages, and eight end stops.
Good for use in pick-and-place applications, machine tool doors, and telescopic press arms, these rugged slides are designed to carry heavy loads.
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.
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.
A thumb screw locks the slide to prevent movement in systems where vibration is present.
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.
Often used with V-groove wheels or track roller carriages, these off-center bushings create precise mounting clearance.
Control the movement of loads on your conveyor—the rod on these air cylinders extends to stop loads and retracts to let them pass.
Space out parts on your conveyor line or vibratory feeder. Also known as escapements, these air cylinders have at least one finger that extends to hold parts and then retracts to release them.
Stop heavy material in its tracks. With the same footprint as regular load-stopping air cylinders, these air cylinders have a lever end that absorbs 30% more force.
Automate stopping loads on a conveyor—the rod on these cylinders extends to stop loads and retracts to let them pass.