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These slides fully extend for convenient access to the back of drawers.
Half the length of other drawer slides we sell, these slides install in small-parts cabinets.
The stacked design provides stability for deep and wide drawers.
Access the very back of drawers, even if there’s an overhang from the drawer or countertop above. When fully extended, these slides position your drawer a full inch beyond your cabinet's edge.
Slides only extend 3/4 of the closed length to reduce the chance that a heavy load will tip your cabinet.
A lever locks the drawer in the open as well as closed position; push the lever to release the lock.
The size of a finger, these tiny slides open in both directions. All have ball bearings for smooth operation.
Open drawers from either side of a cart or cabinet—these slides let drawers pass through for two-way access to contents.
Easy to disassemble without any tools, these drawer slides are ideal in settings that require routine cleaning, such as labs and food plants.
No need to turn a knob or pull a handle—these slides open a drawer with a light push.
These slides automatically pull the drawer closed when it approaches the closed position.
A stop holds the drawer open; push firmly on the drawer to close.
Access items stored overhead or at the back of deep drawers. These slides tilt a drawer downward when it’s pulled out, bringing items closer to you.
With fewer moving parts than other lock-open drawer slides, these collect less debris for a longer service life.
Keep drawers open for as long as you need.
To prevent drawers from slamming shut and support them even if they’re tall and full of heavy equipment, these steel slides have soft-closing bumpers and mount to the top and bottom of drawers.
When you don't have enough clearance for side-mount or under-the-counter slides, mount these to the base of your drawer.
A stop holds the drawer closed; pull firmly on the drawer to open.
Mounting to the tops and bottoms of drawers, these steel slides support drawers even if they’re tall and hold heavy equipment.
These slides gradually slow the drawer's motion to prevent it from slamming open.
Mount these slides underneath countertops, desktops, shelves, and tables. They are often used to hold keyboard trays.
No need for drawer slides or roller track—add rollers to wood cabinet drawers and doors for smooth operation.
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.
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.
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.
Use these carriages and guide rails in temperatures up to 300° F.
A floating bearing in these self-aligning carriages adjusts to compensate for misalignment between rails, so your carriages still move in tandem.
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.
Compensate for rail misalignment in low-clearance applications with these carriages and guide rails.
Build loops, circuits, and curved paths in assembly stations and other repetitive processes.
Mate with a T-slotted rail to add linear motion to your assembly.
C-shaped guide rails grip the carriage around the outside to support linear motion along walls and other vertical surfaces.
A handle locks these carriages in place on curved paths, loops, and circuits in assembly stations and other repetitive processes.
For applications with low clearance, these carriages protrude less than 5 mm above their rails.
The square profile prevents loads from twisting and rotating.
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.
Mount along a wall or other vertical surface.
Combine with a T-slotted rail to add linear motion to your assembly.
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.
Create a low-maintenance system with loops and curved paths in assembly stations and other repetitive processes.
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.
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.
These carriages and guide rails are steel.
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.
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.
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.
For smooth, accurate movement around curves and loops, these carriages have ball bearings that work well in high-speed, high-load 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.
Run many cycles in tight spaces before replacing or re-greasing carriages.
Mount to vertical surfaces for applications where tight tolerances aren't required.
These tiny carriages and guide rails are sized for electronic and other precision applications.
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.
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.
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.
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.
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.
A thumb screw locks the slide to prevent movement in systems where vibration is present.
A linear scale and micrometer-like hand wheel measure travel distance in increments of 0.001".
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.
Made with Frelon bearings, these slides have over four times the load capacity of standard positioning slides.
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.
These racks, also known as bakery carts and bun racks, are often used for food service, electronics, and small-parts assembly applications.
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.
Precisely position parts in conditions as cold as -90° F.
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.
Automate precise push and pull movements in clamping, sorting, and ejecting tasks.
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.
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.
Move optical equipment and other electronics sensitive to dust and fine particles from a range of mounting positions.
Use these gibs as a sacrificial wear surface to hold components in place and create a bearing surface for components to slide along in molds and dies.