We will reply to your message within an hour.
The handle locks in a horizontal position for more clearance above the clamp than standard hold-down toggle clamps.
Reduce the chance of getting pinched when unclamping. These clamps have more space between the handle and the arm than other low-profile toggle clamps.
Hold workpieces of different thicknesses without adjustment.
A highly durable construction with hardened steel pivot pins and bushings provides a long service life.
Push the lever to lock the handle and prevent accidental opening.
Mount these clamps to a bench top or other surface to keep workpieces in place.
A nonreflective black oxide finish prevents glare that can interfere with machine vision systems.
Hold workpieces of slightly different thicknesses with one clamp. These clamps automatically adjust to compensate for imperfections or small inconsistencies on the material’s surface.
Often used when assembling small parts, these small clamps have the holding strength of a full-size clamp.
Bolt to the side of an object. Often used to clamp lids and covers on containers.
Weld these clamps to the side of an object or drill your own holes in the mounting plate and bolt into place.
Two sets of mounting holes allow mounting on the bottom or side.
The mounting base secures these clamps to a rail or bar.
The handle locks in a horizontal position for more clearance above the clamp.
Mount these clamps below a surface.
These clamps have mounting holes on the bottom.
Suitable for production applications, these clamps have double the service life of other air-powered toggle clamps.
The base fits into round or square holes on most workholding tables for clamping anywhere on the work surface.
Mount the base to a work surface using screws.
Push or pull the plunger to hold your workpiece from the side.
Smaller than standard push/pull toggle clamps, these are often used for electronics and small fixturing applications.
Pull the handle backward to push the plunger forward. These clamps secure when the plunger is fully extended to hold your workpiece from the side.
Secure your workpiece from the side by fully extending the plunger, and push a lever to lock the handle in place.
Smaller than standard push toggle clamps, these are often used for electronics and small fixturing applications.
Moving parts are protected by a metal cover when the clamp is engaged to prevent dirt and dust from clogging the clamp.
The handle can be rotated 125° for easier access or extra clearance above the clamp.
Panel mount through a hole with the included nut, or drill and tap a hole to flush mount. A pushing or pulling motion holds workpieces from the side.
Secure these clamps to a rail or bar.
The plunger can be locked at any position along its travel.
Drill a hole to mount these clamps through a surface and secure the mounting flange with screws. The plunger can be locked at any position along its travel.
Use for repetitive clamping and in production environments or hard-to-reach locations.
Fit the draw arm over a latch plate and pull the handle to clamp.
Mount the clamp on a lid and the latch plate on the side of a container.
A removable, heavy duty steel base plate provides a flat, durable clamping surface. Carry it where needed or mount the base plate to your workbench.
Mount to the top of your workbench.
Press the lever down to lock these clamps, which fit in tight spaces and hold thin materials.
Angled jaws clamp sheets, bars, and U-channels at 90°.
Hold the workpiece down against a bench or table.
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.
Easily snap these latches into cutouts without tools or other hardware.
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.
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.
No need for a strike plate, these latches hook into a lip or notch.
The latch arm is coated with vinyl so it won't scratch surfaces.
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.
These latches hook into a lip or notch and have an adjustable latching distance to compensate for gasketing and misalignment.
Each latch comes with a variety of strike plates for different mounting options.
Use these L-handle latches to draw lightweight surfaces together.
Draw lightweight surfaces together with these latches.
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.
These latches snap in place to eliminate rattling and hold access doors, screens, windows, and panels.
To secure overlapping components, pull the slide over the stud until they snap together. These latches resist shock and vibration.
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.
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.
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.
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.
Secure cases, toolboxes, and other containers—these locks reach around outside corners to draw two surfaces together.
Lift and turn the handle 180° to open and close this lock.
Open several draw locks with the same key.
For use on gasketed doors, these latches use downward compression to pull surfaces together.
A rubber seal protects these switches from splashing water.
These switches meet MIL-S-3950.
Maximize the space in a panel—these switches are half the size of most toggle switches.
Able to withstand high currents, these switches are often used with motors and pumps.
Prevent accidental actuation—these toggle switches must be pulled up before they can switch a circuit.
Choose from a variety of messages and colored lenses to combine a rocker with a base and wiring socket for a complete switch.
Rated IP67 for protection from dust and temporary submersion.
Also known as high-inrush current switches, these switches can handle starting currents up to 10 times greater than their rating, such as when a motor starts.
Maximize space in a panel—these switches are smaller than most standard rocker switches.
Rated IP67, these switches are protected from temporary submersion.
These switches withstand temporary submersion.
Often used in large, open workspaces, these switches can be wired on opposite ends of the room to control lights on the same circuit. They're also known as three-way and four-way switches.
Control lights by transmitting a wireless signal from these switches to a control relay on your fixture.
Also known as three-way switches, these are often used in large, open workspaces and can be wired on opposite ends of the room to control lights on the same circuit.
Often used in large, open workspaces, these switches can be wired on opposite ends of the room to control the brightness of lights on the same circuit. They're also known as three-way switches.
Adjust the brightness of lights.
Assemble your own motor starter by combining a switch and a thermal overload element.
A spring-loaded toggle holds against the back of the material.
Bolts are beveled under the head for use in countersunk holes.
Use these stud-style anchors with nuts.
A shallow head makes these bolts good for low-clearance applications.
High-strength toggle anchors provide an extremely strong hold and stay in position when a bolt is removed.
These anchors fit a range of sheet metal and wood screw sizes since they form their own threads when installed.
These stud-style anchors include a nut and a washer.
A pivoting toggle bar creates a strong hold.
The spring holds the washer and toggle against opposite sides of the wall, so everything's in position before you begin tightening. Once tightened, the spring adds vibration resistance.
These hangers are a popular choice for overhead applications.
A wing-like toggle holds against the back of the material and spreads the force over a large area to hold 30 lbs. or more.
Match these circuit breakers to Square D breaker boxes or panel boards of the same manufacturer series.
Mount these breakers, also known as supplemental protectors, through panels downstream from a branch circuit breaker to protect a single piece of equipment.
Unlike breakers that trip thermally, these breakers have a hydraulic-magnetic trip mechanism, so they aren’t affected by changes in temperature.
Transfer liquids and gasses into high-vacuum chambers with these assembled fittings, also known as feedthroughs.