Latch in several different directions—these latches either have spring-loaded balls or a ball-shaped strike plate.

These latches are adjustable; push the ball in and rotate it to adjust force as well as compensate for misalignment.

Their spring-loaded design withstands vibration, rattling, and shaking better than other push-to-close grab latches for a more secure hold.

Turn the screw on the latch to adjust the gripping force on the strike plate.

There's no need for a mating strike plate for these latches—their spring-loaded arm snaps to engage when closing the door.

To prevent doors from slamming, these latches are hydraulic.

Close and open these roller latches with a push—there's no need for a handle.

Push in the knob to open these latches. They hold doors shut when pushed closed, making them more convenient than cam and draw latches.

Press the knob in so it's out of the way when not in use; it pops out when you press it again. Quickly push these latches closed to secure doors, whether the knob is in or out.

Press the knob in so it's flush and out of the way when not in use; it pops out when you press it again. Quickly push these locks closed to secure doors, whether the knob is in or out.

Press these catches into a hole.

A T-handle makes these spring plungers easy to grip.

A smooth ball handle is easy to grip and won't catch on other parts.

An L-handle takes up less space than a T-handle.

Lock the nose into the retracted position by pulling the handle and rotating it 90°.

Quickly align, join, or hold machine components in place in food, pharmaceutical, and other sanitary environments. Pulling the plunger knob and twisting it 90° will lock the nose into its retracted position.

Retract the nose by pulling the knob.

Lock the nose into the retracted position by pulling the ring and rotating it 90°.

Use the lanyard as a tether to secure the spring plunger to machinery and prevent accidental drops.

Lock the nose into the retracted position by pulling and rotating the knob.

Use an arbor press or similar pressure tool to install these spring plungers into a panel.

Designed with a flange to keep the plunger from being pushed through a hole when the ball is depressed.

An O-ring in the flange creates a tight seal.

A flange keeps the plunger from being pushed through a hole when the ball is depressed.

Install with a hex key for more torque than slotted long-nose spring plungers.

Fasten from the nose end with a wrench for more torque than slotted long-nose spring plungers.