We will reply to your message within an hour.
These latches reach around outside corners to draw two surfaces together—use them to secure cases, toolboxes, and other containers.
To prevent accidental opening, these latches have a safety catch.
A safety catch prevents accidental opening.
These latches use downward compression to pull surfaces together for sealing gasketed doors.
A plastic-coated handle and hook prevents the release of particles from metal-to-metal contact, which makes these latches good for clean room applications.
Easily snap these latches into cutouts without tools or other hardware.
Designed with compression springs to withstand vibration better than standard draw latches, these offer a more secure hold.
These latches are typically used to secure hoods and covers.
Mount these latches on a corner to draw perpendicular surfaces together.
An integrated slide bolt extends into the strike plate to resist pull and vibration from side-to-side, front-to-back, and up-and-down forces.
The latch arm is coated with vinyl so it won't scratch surfaces.
No need for a strike plate, these latches hook into a lip or notch.
These latches hook into a lip or notch and have an adjustable latching distance to compensate for gasketing and misalignment.
Adjust the latching distance for a tight fit over gasketing and to compensate for misalignment.
These latches have a safety catch to prevent accidental opening.
Each latch comes with a variety of strike plates for different mounting options.
Draw lightweight surfaces together with these latches.
Use these L-handle latches to draw lightweight surfaces together.
Lift and turn the handle 180° to open and close these latches.
With a spring-loaded handle, these hold tighter than other turn-to-open draw latches and compensate for slight misalignment.
To secure overlapping components, pull the slide over the stud until they snap together. These latches resist shock and vibration.
These latches snap in place to eliminate rattling and hold access doors, screens, windows, and panels.
Use a 5/16" hex key to open and close these locks.
Open these locks with a slotted screwdriver.
Open these locks with a Torx driver or the included Torx keys.
Mount these latches on a corner to draw perpendicular surfaces together. They have a safety catch to prevent accidental opening.
Secure surfaces together with these padlockable latches; built-in springs withstand vibration better than other latches.
Add a padlock to secure these latches, which reach around corners to pull two surfaces together.
For use on gasketed doors, these latches use downward compression to pull surfaces together. They have a safety catch to prevent accidental opening.
Adjust the latching distance to compensate for gasketing and misalignment.
Lift and turn the handle 180° to open and close these latches. Add a padlock to secure.
Lift and turn the handle 180° to open and close this lock.
Secure cases, toolboxes, and other containers—these locks reach around outside corners to draw two surfaces together.
Open several draw locks with the same key.
For use on gasketed doors, these latches use downward compression to pull surfaces together.
A catch grabs and holds the strike plate, so doors stay shut when you push them closed.
Their spring-loaded design withstands vibration, rattling, and shaking better than other push-to-close grab latches for a more secure hold.
An electrical switch allows these latches to power a light or other signal to indicate whether a door is open or closed.
Turn the screw on the latch to adjust the gripping force on the strike plate.
Each latch has top and bottom spring-loaded balls that can grab the strike plate from different directions.
Also known as bullet catches, these latches have a spring-loaded ball that grabs and holds the strike plate to keep doors shut.
These latches are adjustable; push the ball in and rotate it to adjust force as well as compensate for misalignment.
Close and open these grab latches with a push—there's no need for a handle.
Close and open these roller latches with a push—there's no need for a handle.
There's no need for a mating strike plate for these latches—their spring-loaded arm snaps to engage when closing the door.
These latches are spring-loaded to overcome resistance caused by gaskets and air pressure to close doors tightly.
To prevent doors from slamming, these latches are hydraulic.
Doors stay closed with the pressure of rollers against the strike plate.
These latches snap together to secure doors. They have a return spring to snap tight with a push and release with a pull.
Magnetic force holds doors closed.
To keep your environments free of contaminants, the magnet is encapsulated so it won't release particles when it meets the strike plate.
These latches withstand temperatures up to 480° or 570° F.
Made to NSF/ANSI standards, these latches have a completely sealed magnet to eliminate crevices that can trap food particles.
Close and open these magnetic latches with a push—there's no need for a handle.
Push in the knob to open these latches.
When not in use, push the knob in so it's flush and out of the way; it pops out with a touch.
Their spring-loaded design withstands vibration, rattling, and shaking better than other face-mount push-to-close latches for a more secure hold.
Keep doors on refrigerators and industrial enclosures closed.
For use on spray booths and drying ovens, these latches automatically open when the internal pressure of the enclosure reaches a set level.
Also known as paddle latches, these are often used on electrical panels, cabinets, and lockers.
When released, the spring-loaded ring handle returns to its recessed position to stay out of the way.
To open, push in the knob and pull the tab.
Also known as paddle locks, these are often used on electrical panels, cabinets, and lockers.
An emergency release gives you a way to escape if the door closes with you or someone else inside the enclosure. Mount these locks horizontally to the face of doors on refrigerators and industrial enclosures with the strike plate mounted on the frame.
Attach these locks vertically to the side edge of doors on refrigerators and industrial enclosures with the strike plate mounted behind them on the frame.
Mount these locks horizontally to the face of doors on refrigerators and industrial enclosures with the strike plate mounted on the frame.
Attach these padlockable latches vertically to the side edge of doors on refrigerators, ovens, and industrial enclosures with the strike plate mounted behind it on the frame.
An emergency release handle offers a means of escape if a door closes with someone inside an enclosure.
Mount these padlockable latches horizontally to the face of doors on refrigerators, ovens, and industrial enclosures with the strike plate mounted on the frame.
Operate these padlockable latches from either side of the door—there is a handle on both sides.
Snap these latches together to secure doors and use a hex key to open.
The low profile means less of the lock is exposed, reducing the potential for damage.
Push doors closed and a return spring automatically snaps these locks together to secure them tightly in place. Pull them open with the included two-way key, which is also known as a double-bit key.
Also known as rotary latches, these compensate for door misalignment when closing and then firmly grip the strike bolt for a secure hold.
Bolts are spring-loaded to stay latched until you activate the pull.
Pull the chain-grip to unlatch hard-to-reach doors and panels.
No hands needed—step on the top cap to latch the bolt; retract it by pressing the side release button.
Push the bolt into the strike plate to secure doors, gates, and cabinets.
Also known as cane bolts, these latches have the added height that's needed to bridge large vertical gaps. Install them at the top or bottom of swinging doors and gates to hold them in an open or closed position.
The mounting screws on these latches are concealed to prevent tampering.
A large handle makes gripping these latches easier than other lift-and-drop barrel slide-bolt latches.
Slide the bolt and drop the knob into the notch to secure.
The spring-loaded bolt stays latched until you pull it back—slide the bolt and drop the knob into the notch to secure.
Push the knob to slide the bolt that secures these latches and then press the button to release the bolt.
The strike has angled ends so these latches can accept their bolt even when doors become misaligned.
These padlockable latches are reversible for right- and left-hand mounting.
These padlockable latches have the added width that's needed to bridge large horizontal gaps. They are often used on double-door gates to hold them in an open or closed position.
The mounting screws on these padlockable latches are concealed to prevent tampering.
The spring-loaded bolt stays latched until you pull it back.
Slide the bolt and drop the knob into the notch to hold, then secure with a padlock.
To prevent tampering, the mounting screws on these latches are concealed.
A large handle makes gripping these latches easier than other lift-and-drop barrel padlockable slide-bolt latches.
Choose these locks if you need several locks that open with the same key.
Choose these locks if you need locks that each open with a different key.
A red indicator on the side of these locks is visible when they are open and hidden when they are locked.
A paddle handle activates the top and bottom spring-loaded latching points to secure large cabinet doors.
Use these latches alone for single-point latching, or add latch kits for more holding power.
Use these latches alone for single-point latching or add latch kits for multiple-point latching and extra holding power.
The ring handle is recessed to stay out of the way when not in use. Latches arrive ready for single-point latching. For more holding power, add a latch kit for two-point latching, or add two latch kits for three-point latching.
Choose these L-handle locks if you need several that open with the same key.
Choose these locks if you need several that open with the same key.
Choose these keyed alike locks when you need several that open with the same key.
Choose these keyed alike locks if you need several that open with the same key.
Side, top, and bottom latching points secure large, heavy doors that are subject to strenuous use, such as those on trucks and large access doors.
Turn the handle to keep doors, drawers, and hatches closed.
Hold doors, drawers, and hatches closed with the turn of a handle.
Twist these latches to hold small lightweight doors and panels closed.
Designed to stand up to heavy use, these latches are often seen on refrigerators and truck doors.
In addition to being padlockable, these heavy duty latches come with two handles for access from the inside as well as the outside. They are often used on refrigerators and truck doors.
Latches snap shut when you push the bar in the strike plate to prevent accidental unlatching. Press the button on the strike plate to release the bar.
Tighten the screw on the strike plate to secure the bar and prevent accidental unlatching.
These latches are reversible for right- and left-hand mounting.
To prevent accidental unlatching due to vibration, there's a bushing in the eye.
Lock sliding windows in a closed position, or slightly open for ventilation.
Often used on casement windows.
This lock has a latch bolt to secure doors in the closed position.
Maintain security by keeping your door latched as you open it up to 3".
Push to close and pull up on the latch arm to open these padlockable latches.
A hidden push-button release on the bottom of these latches retracts the latch bolt; this discourages unwanted entry but allows access to those who know it’s there.
In addition to sliding gates, these locks are for use on cantilever and fixed-roller gates.
With a key-locking mechanism, these locks provide more security than other gate locks.
Secure swinging doors in wire and chain link partitions.
Safeguard sliding doors in wire and chain link partitions.
These concealed latches snap together—no mounting fasteners required.
Slide these latches into the strike plate to secure bathroom doors.
Hold bathroom doors closed by swinging these latches into a notch in the strike plate.
For a more secure hold than standard quick-release pins, these pins lock in place until you push the button to release the spring-loaded retaining balls.
Use these pins for visibility or to color-code processes. For a more secure hold than standard quick-release pins, they lock in place until you push the button to release the spring-loaded retaining balls.
The extra height and smaller width of the grip make the button more accessible in tight spaces. For a more secure hold than standard quick-release pins, these pins lock in place until you push the button to release the spring-loaded retaining balls.
When there isn't enough room for a T-handle, an L-handle saves space but is still easy to grip. For a more secure hold than standard quick-release pins, these pins lock in place until you push the button to release the spring-loaded retaining balls.
For the tightest spaces, these narrow-grip pins have the smallest heads of any of our locking quick-release pins. They lock in place until you push the button to release the spring-loaded retaining balls.
The shaft on these pins retracts into the head to hold thin sheets of material together. Pins lock in place until you push the button to release the spring-loaded retaining balls.
Four spring-loaded retaining balls provide extra holding power. Made entirely of stainless steel, these pins stand up to corrosive enviroments. They lock in place until you push the button to release the spring-loaded retaining balls.
A recessed button prevents accidental pin removal. These all-stainless steel pins stand up to corrosive environments. They lock in place until you push the button to release the spring-loaded retaining balls.
The extra height and smaller width of the grip make the button more accessible in tight spaces. Made entirely of stainless steel, they stand up to corrosive enviroments. Pins lock in place until you push the button to release the spring-loaded retaining balls.
A T-handle makes these pins easy to grip. Made entirely of stainless steel, they stand up to corrosive enviroments. Pins lock in place until you push the button to release the spring-loaded retaining balls.
These pins adjust to take up play in a system or hold parts in holes of varying thicknesses. Spin the handle up or down, then tighten the locknut to change the length by up to ½”. Pins lock in place until you push the button to release the spring-loaded retaining balls.
Attach these pins to a machine cover or access panel, then clip them in to receptacles installed in the enclosure for quick access. Pins lock in place until you release them.
To insert and remove these pins, press the button, then flip the lever to release the spring-loaded retaining balls. Two-step locking prevents accidental removal.
Use the key to unlock these pins, then press the button to release the spring-loaded retaining balls. Two-step locking prevents accidental removal.
These pins lock in place until you push the button to release the spring-loaded retaining balls, and can also be secured with a cotter pin for longer-term holding. Two-step locking prevents accidental removal.
Also known as double-acting pins, these pins lock in place until you push the button or pull the ring to release the spring-loaded retaining balls. The smooth ring handle won't catch on parts.
Also known as double-acting pins, these pins lock in place until you push or pull the handle to release the spring-loaded retaining balls. The T-handle is easy to grip.
The smooth ring handle on these pins won't catch on parts. A spring-loaded, nonlocking retaining ball pops out when the pin is pushed through a hole, and retracts when the pin is pulled out.
These pins have a low-profile head, so they won't get knocked out of place. A spring-loaded, nonlocking retaining ball pops out when the pin is pushed through a hole, and retracts when the pin is pulled out.
A bright-orange plastic-coated handle makes these pins easy to see and easy to grip. Pins have a spring-loaded ball that pops out when the pin is pushed into a hole, and retracts when the pin is pulled out.
A T-handle makes these pins easy to grip. A spring-loaded, nonlocking retaining ball pops out when the pin is pushed through a hole, and retracts when the pin is pulled out.
A smooth ball handle is easy to grip and won't catch on other parts. A spring-loaded, nonlocking retaining ball pops out when the pin is pushed through a hole, and retracts when the pin is pulled out.
Add a knob or handle to the threaded shank. A spring-loaded, nonlocking retaining ball pops out when the pin is pushed through a hole, and retracts when the pin is pulled out.
A high-profile knob is easy to grip, but fits in small spaces. A spring-loaded, nonlocking retaining ball pops out when the pin is pushed through a hole, and retracts when the pin is pulled out.
Two spring-loaded balls give these pins more holding power than quick-release pins with only one retaining ball. The balls pop out when the pin is pushed into a hole, and retract when the pin is pulled out.
A T-handle makes these pins easy to grip. The shoulder keeps a portion of the pin outside the hole and makes them easy to grab.
The smooth ring handle on these pins won't catch on parts. The shoulder keeps a portion of the pin outside the hole and makes them easy to grab.
Flip the handle 180° to expand and contract the shaft for a tight, vibration-resistant fit.
Use a screwdriver to install these receptacles in a threaded hole.
When you can't drill a through hole, use one of these flanged receptacles to provide a permanent, blind hole for a quick-release pin.
Use these retaining caps to secure the ends of quick-release pins in holes that are oversized or out of round.
A strong magnet in the head holds these pins in place on steel and other ferrous metals. Use them for light duty applications and blind holes.
Secure doors and windows made of T-slotted framing to protect valuables or restrict access for safety.