The magnetic end of these standoffs makes it easy to temporarily mount or reposition components on magnetic surfaces.

Mount components onto food processing lines, walls, and sanitary equipment while leaving space to clean in between.

Choose these standoffs for their adherence to NAS 1831 specifications.

These standoffs are made to NAS specifications.

Protect components from electrical charges.

Thread the male connection into a tapped hole and snap the other end into a panel for a secure hold that can be released for repairs and upgrades.

Designed for multi-level printed circuit board applications, these self-aligning, through-hole supports have a chamfered female end for stacking. The other end snaps and locks in place for a permanent connection.

The ends of these removable supports snap in and compress between panels to reduce vibration of miniature cooling fans in compact electronics.

Secure the self-tapping female connection with a screw; the other end snaps snugly into a panel, yet can be released for repairs and upgrades.

Once the end is clinched in place, panels with keyholes easily slide on and off these supports.

A recess under the hex clinches a panel for a strong hold that won't push, pull, or twist out. When mounted with a lever press, the hex sits flush with the surface and the open end creates a through hole.

These include a barrel and a screw.

Use these hex drive screws and binding barrels as a low-profile alternative to standard nut and bolt combinations.

Install these binding barrels and screws with a standard slotted screwdriver. They require a special tool to remove.

Brass binding barrels and screws are corrosion resistant in wet environments and electrically conductive.

A tamper-resistant Torx driver is required for installation and removal.

An unthreaded barrel allows quick assembly with a press or a hammer.

Angled under the head for a flush finish in countersunk holes.

Create strong joints in wood and wood composite.

Use these bases to hold a sign post.

Drive these posts into the ground or use them with a base.

Mount a sign to a 4" to 12" diameter post or column.

Mount a sign to a 1 1/8" to 1 3/4" diameter post.

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.

Attach sensors, tubes, and other components to T-slotted framing rails and structures.

Screw and nut sets or nuts secure brackets and other accessories to rails.

No need for fasteners—friction holds this framing together. Use press-fit framing and fittings to assemble carts, enclosures, and partitions.

Fittings come in two pieces to wrap around rails, so you can quickly modify existing structures without disassembling. Use clamp-on framing and fittings to form temporary partitions, modular conveyors, and workstations.

Create strong structures by welding this framing together. Add metal panels to close off openings.

Elevate robot arms with these bases so they can reach onto raised surfaces, such as conveyor belts or workstations.

Secure your robot arm to benches, frames, or other surfaces with these base mounts.

Give open-ended standoffs a finished look and protect them from dirt and debris.

Pin holes on the side of these caps let you insert an installation tool for increased leverage when tightening, making them difficult to remove.

Before making a permanent connection, use these connectors to test a circuit. Also known as binding posts, they mount through panels to create a connection point.

Stack multiple ring or spade terminals on the stud terminal; the current flows through the stacked terminals.

Mount these externally threaded shafts into tapped holes rather than using a shaft support, or attach a hex nut, shaft collar, or other threaded accessory.

For a snug fit with a linear bearing in high-precision applications, these shafts are turned, ground, and polished to tight diameter and straightness tolerances.

Combine these general purpose shafts with a linear bearing and shaft support to create a basic linear motion system.

Lighter than solid shafts, hollow shafts reduce your total system weight and allow you to run various media such as electrical wiring, compressed air tubing, coolants, or lubricants through the center.

Replace worn shafts in two-piece support-rail shaft systems, or mate with a support rail to create your own. The tapped mounting holes match those on our Support Rails.

The diameter of these shafts is slightly smaller than listed, so precision ball bearings (ABEC-3 and above) slide on without any tools.

Combine these general purpose drive shafts with gears, sprockets, and bearings to transmit rotary motion.

Connect these internally threaded shafts directly to threaded components, or use a fastener to secure. They have a flat surface area that allows set screws to dig into the shaft for securely mounting gears, sprockets, and bearings.

These shafts have keyways only on the ends, leaving a plain shaft in the center. Use the keyways with machine keys to transmit torque to gears, sprockets, and other keyed components. Use the middle of the shaft with bearings and other round-bore components.

In addition to diameter tolerances that are twice as tight as standard keyed shafts, these shafts include a traceable lot number and test report. Use them with machine keys to transmit torque to gears, sprockets, and other power transmission components.

A shoulder near the end of the shaft provides a stop for gears, sprockets, and bearings.

Good for hydraulic systems, machine tools, and other high-torque applications, these shafts have teeth that transmit high rotational loads.

Create a compact linear and rotary motion system for applications requiring complex, fast movements, such as robotics.

These panels lift on and off their posts in seconds, so you can protect machinery while providing access for maintenance.

These are the same guardrails you see along roadways.