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Use these metal dowel pins as pivots, hinges, shafts, jigs, and fixtures to locate or hold parts.
Oversized to fit worn and enlarged holes, these pins work well as repair and replacement parts.
To remove these pins, thread a screw or tool into the tapped hole, then pull them out.
The flat side of these pins relieves trapped air, making them easier to insert in and remove from blind holes. To remove, thread a screw or tool into the tapped hole, then pull the pin out.
A spiral groove cut into these pins relieves trapped air but stays in 360° contact with the hole for a secure fit that's easy to insert in and remove from blind holes. To remove, thread a screw or tool into the tapped hole, then pull the pin out.
For use with Browning shear hubs, these pins are designed to fail at specific loads to protect heavy duty machinery from torque overload.
The low-profile head on these pins holds them in place on one side.
These pins combine the locking capabilities of a clevis pin with the precision diameter of a dowel pin for a tight fit.
Also known as universal clevis pins, these pins have holes on 1/4" centers so you can change the length by moving the cotter pin.
A large loop handle makes these pins easy to grip.
The bend makes these pins easy to insert and pull out.
These pins have multiple through holes; change the length by moving the cotter pin. The bend makes them easy to insert and pull out.
Install or remove these pins from either side.
Easier to install and remove than standard clevis pins, these pins have a ring-grip handle.
A plastic-coated T-handle welded to these pins makes them easy to grab.
Slide a retaining ring into the groove for a secure hold that takes up less space than a cotter pin.
Install or remove these pins from either side. Slide a retaining ring into the groove for a secure hold that takes up less space than a cotter pin.
The wire retainer snaps closed to secure the pin for a one-piece alternative to a clevis and cotter pin combination. Also known as PTO pins.
A swivel handle makes these pins easy to install and remove, while the toggle locks them in place. Flip the toggle to release the pin.
Often used to connect equipment to a drawbar in towing applications, these rugged pins have a welded solid steel retainer.
Use a padlock to secure these pins. The bend makes them easy to insert and pull out.
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.
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.
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.
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.
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.
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.
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 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.
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 have a flat head to fit into a counterbored hole.
Push parts out of molds with these hardened pins. Also known as knockout and forged pins.
Use these pins with a die to punch 1/8" and larger holes. Pins can be modified to fit your application.
Use these sleeves with mold pins to form holes, bosses, and other features in parts, and then push the parts out of the mold.
Interlocking teeth help these pins resist sliding when exposed to vibration. They have a slot that presses closed when the pins are inserted so they don't flex after installation.
For tough jobs, these spiral pins are 30% stronger than our standard coiled spring pins. They remain flexible after installation to absorb shock and vibration, and work well in holes that are out of round.
Choose a material, head type, end type, and size to create a custom pin.
Create a custom headed pin with your choice of material, dimensions, and end type.
Also known as caulk-in anchors, these stay secure when there's not much material to hold.
Also known as double expansion anchors, these expand from both sides for full contact and a secure hold.
Turn the bolt to expand the nut for a secure hold in concrete. These anchors are often used to anchor machinery.
These stud anchors strengthen the parts of buildings where steel framing connects to concrete. They’re also known as Nelson studs.
Support and position workpieces and fixtures from the bottom or side. These buttons press into a drilled hole for permanent installation.
Mount through the counterbored hole with a socket head cap screw to support and position workpieces and fixtures from the bottom or side.
Support rounded or irregularly shaped workpieces from the bottom or side with minimal contact.
Use these components in coordinate measuring machine (CMM) applications to raise a workpiece and reliably position it on a fixture plate with ¼"-20 holes.
Line up holes by driving these pins through existing rivet, pin, and bolt holes in multiple pieces of metal. Alternatively known as lineup taper punches.
These brass tools reduce marring on metal surfaces because they're softer than steel punches.