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These stepper motors are good for precise, repetitive movements, such as those made by the head of a 3D printer.
With a built-in controller and driver, these stepper motors come ready to program and operate.
Instead of a shaft, these stepper motors have a lead screw that converts rotational motion to linear motion.
To precisely position loads in automated systems that are frequently rinsed, these stepper motors are IP65 rated to seal out water.
Tell your stepper motor how far and fast to go by adding a controller and driver to your 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.
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.
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.
Designed to grip evenly around your shaft, these couplings provide more holding power than set screw couplings without marring the shaft.
Tighten the set screws to fasten these couplings to your shaft. Set screws bite into the shaft to hold the couplings in place.
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.
A linear scale and micrometer-like hand wheel measure travel distance in increments of 0.001".
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 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.