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Machine holes and slots or weld in place.
Also known as angle brackets.
A rubber seal protects against moisture around the installation hole.
Strengthen corners of cases and crates.
Connect wood 2×4s to posts and other flat surfaces.
Lock these brackets together with a pin or a bolt. They are often used on marine docks.
Clamp these brackets to panel edges to quickly assemble crates.
Often used in washrooms, these brackets mount panels and partitions.
The two-piece design accommodates a wide range of panel thicknesses.
A built-in level makes it easy to align panels.
Interlock brackets to secure panels flush to flat surfaces.
These brackets come in one piece that can be cut-to-size with a hacksaw.
Fit brackets together to assemble truck racks, gates, crates, and fences.
Position proximity, photoelectric, and light beam sensors and switches.
Add a mounting plate to your U-bolt for a more secure hold at the mounting surface.
A mounting plate provides a more secure hold at the mounting surface.
Also known as muffler clamps, these U-bolts have a rounded mounting plate that fully surrounds pipe, conduit, and tubing for a secure fit.
A durable rubber cushion and mounting plate prevent corrosion and wear caused by metal-to-metal contact. The mounting plate is removable, so the U-bolts can be installed onto an existing line without needing to disassemble it.
Fasten these brackets to ceilings, walls, beams, and joists to hang threaded rod.
The ring pivots 90° or 180° to secure loads in various directions.
Accommodate ties in any direction with these rings that swivel all the way around.
Dimples hold the base tight to prevent it from swiveling.
These rings mount flush and fold down when not in use to eliminate obstructions.
Adhesive on the back holds these rings in place.
Sew webbing onto these plates for a permanent anchor point or run webbing through to use them as guides.
Sockets mount to the inside corners of angle iron and channel to provide a threaded mounting hole for stem casters.
Install these sockets in tubing, angle iron, channel, and wood to hold friction-grip stem casters in place.
Thread one of these plates onto your ram and use the four mounting holes to secure it in place.
Attach sensors, tubes, and other components to T-slotted framing rails and structures.
Connect T‐slotted rails and reinforce joints for structural stability.
Add mounting feet and casters to T-slotted framing structures to level equipment, anchor legs to the floor, or add mobility.
Securely fasten strut channel to the floor.
Provide a stable, nonmarring base for strut channel legs.
Mount a length of strut channel between the ends of a beam to run cable and conduit along the beam without drilling.
Mount strut channel away from walls.
Designed to wrap around the sides of strut channel, these brackets provide a stronger hold than other strut channel brackets.
These brackets have narrow slots compatible with quick-connect clamps for securing pipe and conduit on the channel side of struts without screws or tools.
Mount electrical components along your strut channel to bring power to new locations.
Support and protect conduit by mounting it to strut channel.
Mount to your strut channel to support rail, tube, or pipe.
Rails are drilled with consistently spaced holes for multiple mounting options that do not require machining. Use this steel bolt-together framing to build guards, tables, and racks.
Half the weight of steel, this aluminum framing resists corrosion in wet environments.
Build test fixtures, prototypes, and other small structures with this miniature version of T-slotted framing and fittings.
Install components and make electrical connections on a panel, then mount the panel in your enclosure. Using a panel means you won’t need to make holes in the body of your enclosure, which could let in dust and water.
Unlike solid panels, these panels have a grid of holes sized to fit self-tapping screws, so there’s nothing to measure, mark, or cut. Mount components to the panel, then install it in your enclosure.
Protect development boards from dust, water, and debris by mounting them to DIN rails inside control cabinets.
Mount items not designed for DIN rail by attaching them to these adapters.
Use these accessories to mount carriers to your machinery without creating an obstruction.
Add a flat mounting surface to a ball screw jack to support loads.
Add a flat mounting surface to to a screw jack to support loads.
Secure your robot arm to benches, frames, or other surfaces with these base mounts.
Elevate robot arms with these bases so they can reach onto raised surfaces, such as conveyor belts or workstations.
Take your robot arm to new heights—these bases move up and down to extend your robot’s vertical reach for high and low stacking jobs.
Extend the horizontal reach of your Universal Robots’ arm to operate your robot at multiple positions along an assembly line, or transport workpieces from a conveyor to your CNC.
Install these mounts on machines without feet.
Ready for installation on the bottom of machines and equipment without feet, these mounts come with their own bracket.
When connected to a clevis rod end, these pivot brackets allow a hydraulic cylinder to move in an arc.
Clevis brackets allow hydraulic cylinders to create a bend or pivot when connected to a pivot bracket.
These flanges can mount on either end of the hydraulic cylinder.
Connect a clevis rod end to a hydraulic cylinder to create a bend or pivot.
Create a bend or pivot at the end of a hydraulic cylinder.
Secure parts onto hydraulic cylinders.
For easy interchangeability, the mounting footprints of these cylinders meet NFPA and JIC industry standards.
Made of 303 stainless steel, these hydraulic cylinders move heavy loads without corroding in wet areas.
These 18-8 stainless steel anchors have good chemical resistance.
More corrosion resistant than 18-8 stainless steel anchors, these 316 stainless steel anchors have excellent resistance to chemicals and salt water.
These steel anchors are available with corrosion-resistant finishes.
Keep fixtures solidly in place—these anchors have two locking wedges that won't shake loose.
A zinc plating provides corrosion resistance in wet environments.
The removable flat head provides a flush finish in countersunk holes.
An open-end cap nut provides a finished appearance.
These 316 stainless steel anchors have excellent resistance to chemicals and salt water.
Install like a stud anchor—just thread the anchor, a nut, and a washer onto the end of a threaded rod, drive into a hole, and turn the nut to expand the base. Also known as rod anchors, they're often used with threaded rod to hang pipe and wiring.
Often referred to as four-way expansion anchors, these expand in four directions to resist loosening from vibration.
Also known as double expansion anchors, these expand from both sides for full contact and a secure hold.
Also known as caulk-in anchors, these stay secure when there's not much material to hold.
Also known as mungo anchors, these have large fins that prevent rotation.
Use with any type of sheet metal or wood screw.
Also known as lag shields, these anchors are designed for use with large-diameter wood screws.
Bolts are beveled under the head for a flush finish in countersunk holes.
Turn the bolt to expand the nut for a secure hold in concrete. These anchors are often used to anchor machinery.
A hex head allows for a secure grip with a wrench.
A tamper-resistant nut prevents unwanted removal of the object you are anchoring.
Also known as tap-in or uni-tap rivets, these anchors are barbed to resist pull out. Made from nylon, they're chemical resistant.
Use in applications requiring high strength.
Also known as drive rivets, install these anchors by hammering the pin into the body. Pry out the pin to remove.
These anchors are also known as drive rivets. To install, hammer the pin into the body. Pry out the pin to remove.
Also known as drive rivets, install by hammering the screw into the body. Unthread the screw to remove.
These anchors are also known as drive rivets. To install, hammer the screw into the body. Unthread the screw to remove.
18-8 stainless steel anchors have good chemical resistance.
These stud anchors strengthen the parts of buildings where steel framing connects to concrete. They’re also known as Nelson studs.
A pivoting toggle bar creates a strong hold.
For narrow holes and small cavities where toggle anchors won't fit.
These stud-style anchors include a nut and a washer.
Used with adhesive in bricks and hollow blocks, such as cinder blocks, these mesh tubes create a stronger hold for rods and studs than other anchors.
High-strength toggle anchors provide an extremely strong hold and stay in position when a bolt is removed.
Bolts are beveled under the head for use in countersunk holes.
A spring-loaded toggle holds against the back of the material.
Use these stud-style anchors with nuts.
A shallow head makes these bolts good for low-clearance applications.
These anchors fit a range of sheet metal and wood screw sizes since they form their own threads when installed.
Easy to install, tap these anchors in like a nail—no drilled hole required.
A drilled hole is required for installation.
Fins prevent these anchors from spinning during installation.
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.
Use these light duty anchors to hold 20 lbs. or less.
Swap out damaged mounting plates or make custom strip doors by combining a mounting plate with door strips.
To minimize strain on your door strips, these plates have a hinge that swings when personnel or vehicles pass through.
The spring-loaded tips on these clamps swivel in all directions to make maximum contact with angled and uneven workpieces.
When loosened, you can spin the body of this clamp around its mounting point for better access to the workpiece.