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Use in areas with light pedestrian traffic.
Curve these ramps to route cable around bends and corners in indoor areas with heavy pedestrian and equipment traffic.
These cable ramps handle heavy pedestrian and equipment traffic.
Lay your cable in the slit on the top so it stays off the floor.
Multiple channels let you separate different types of cable and cords.
Protect cable from carts, pedestrians, and other light indoor traffic.
These cable ramps are strong enough to withstand equipment traffic.
With the widest channels of any of our cable ramps, these ramps can span large cable, hose, and pipe.
Surface mount with the adhesive back to route low-voltage data and control cable where you can't get inside walls.
The triangular shape fits into corners.
Insert and remove cable at any point along the length of this open-top, hook-shaped raceway.
Route power, data, and control cable rated up to 600 volts AC/DC.
With more than one channel, this raceway allows you to separate power and data wiring to prevent signal interference.
Protect wire and cable from dust, dirt, and oil/coolant dripping—this raceway is rated NEMA 12.
Gaskets on the covers and at connection points protect against dust as well as seeping oil and coolant.
This raceway system is also known as wireway and wire trough.
In areas exposed to washdowns, chemicals, and corrosion, install this stainless steel raceway system that has gaskets at the connection points.
With a top that overhangs the cover, this raceway keeps out rain. It is rated NEMA 3R for protection from liquids and light splashing.
This wire duct completely encloses wire and cable.
Often used as an alternative to cable ties, wire duct guides and organizes short runs of electrical wiring in enclosures, control panels, and machines.
Narrower slots and fingers create more access and routing points than on standard slotted wire duct.
Route wire and cable around curves with this bendable wire duct.
Faster to install than standard slotted wire duct, attach this to flat, clean surfaces.
Join pieces of conduit.
Slide these grommets into conduit ends to protect wire and cable from abrasion when being pulled.
Connect different sizes of conduit.
Attach conduit to a knockout in an outlet box or enclosure.
Also known as electrical metallic tubing (EMT), this conduit has thin walls that easily bend with a conduit bender and can be cut with a hacksaw.
The most corrosion-resistant thin-wall conduit we offer, use this along walls and ceilings in food-processing and chemical plants.
Visually identify different runs of wire and cable along walls and ceilings with this conduit that has a painted exterior.
Also known as conduit bodies, these ports provide access to wire and cable inside metal conduit for pulling, splicing, and maintenance. They are also used to change the direction of a run.
Create a connection point to route overhead service wire and cable from utility poles to electrical meters, bringing power to buildings.
Also known as conduit bodies, these ports provide access to wire and cable inside thick-wall (rigid) metal conduit for pulling, splicing, and maintenance. They are also used to change the direction of a run.
Use in food-processing and chemical plants—this is the most corrosion resistant thick-wall conduit we offer.
This nonmagnetic aluminum conduit withstands damp and corrosive environments.
This is also known as PVC Schedule 40 conduit.
Also known as conduit bodies, these ports provide access to wire and cable inside PVC conduit for pulling, splicing, and maintenance. They are also used to change the direction of a run.
Connect different sizes and genders of conduit.
This impact- and crush-resistant conduit is also known as galvanized rigid conduit (GRC).
Also known as intermediate metallic conduit (IMC), this is lighter in weight than thick-wall (rigid) steel conduit, yet it has the same strength.
Ground conduit by running a ground wire through the attached lug.
Seal out moisture while reducing the knockout size in an outlet box or enclosure so you can attach a different size of conduit to it.
Join different sizes of conduit.
Connect to the end of conduit or a fitting to protect wires from abrasion when being pulled.
Reduce the knockout size in an outlet box or enclosure so you can attach a different size of conduit to it.
Secure threaded plastic conduit fittings to a knockout in an outlet box or enclosure.
Secure threaded metal conduit fittings to a knockout in an outlet box or enclosure.
Also known as Type A, this conduit meets the demands of continuous motion while sealing out liquid when used with liquid-tight fittings.
These fittings seal out liquid when used with continuous-flex liquid-tight plastic conduit.
One end twists into a piece of conduit for a quick connection; the other end attaches to a knockout in an outlet box or enclosure.
In addition to continuous-motion applications such as robotics, this conduit is suitable for high-vibration applications.
Transition between types of conduit.
Transition between conduit sizes and types.
The spiral design makes this conduit more flexible than abrasion-resistant liquid-tight flexible plastic conduit.
The toughest liquid-tight flexible metal conduit we offer, this resists oil, chemicals, and extreme temperature fluctuations.
In addition to resisting oil, this conduit resists lubricants and grease.
These fittings seal out liquids when connecting liquid-tight flexible metal conduit to a knockout in an outlet box or enclosure.
Also known as Type B, this conduit is more crush and abrasion resistant than liquid-tight flexible plastic conduit.
When used with liquid-tight fittings, this conduit seals out liquid. The steel core provides crush resistance, and the cover is UV light resistant.
Even in temperatures as low as -50° F and as high as 220° F, this conduit stays flexible.
Run conduit in food areas—the cover can be cleaned and sterilized without weakening or splitting. This conduit meets NSF/ANSI standard 169 for special-purpose food equipment.
Hold flexible plastic conduit in place along walls and machines.
These adapters provide electromagnetic interference (EMI) protection when connecting shielded flexible plastic conduit to a knockout in an outlet box or enclosure.
Covered with a copper braid, this conduit protects wire and cable from electromagnetic interference (EMI) caused by motors and other equipment.
Also known as FMC, this conduit offers the crush resistance of metal combined with flexibility to handle bends in tight spaces.
Protect fiber optic cable with this small-diameter conduit.
Also known as antishort bushings, these grommets slide into the ends of conduit and armored cable to protect wire and cable from sharp edges.
Attach conduit and armored cable to a knockout in an outlet box or enclosure.
Visually identify different runs of wire and cable in machine and equipment wiring.
Make tight bends in machine and equipment wiring.
Thicker corrugations make this conduit more crush resistant than standard flexible plastic conduit.
Preventing wear and cracks, these grommets shield the sections of your conduit that rub and bang against nearby components.
Reduce tripping hazards when running cable and cords through a pedestrian area.
Create a system to route cable and hose by connecting components such as straight trays and tees.
The zinc plating on these tray systems offers good corrosion resistance.
Cut, bend, and connect these wire mesh tray systems to route cable and hose in configurations such as curves, slopes, and tees.
These are the most corrosion-resistant tray systems we offer.
Bending and twisting up to 380° in any direction, these carriers organize and protect cable and hose around machines that are constantly moving, such as robotic arms and conveyors.
By completely surrounding the cable and hose, these carriers protect them from dirt, chips, and debris.
Designed for specific robot models, these kits have all of the parts required to create a cable and hose carrier. Use them to organize and protect cable and hose without obstructing your robot’s movement.
A more durable construction with a zinc-plated steel frame provides strength for a longer service life than other open cable and hose carriers.
The hinged snap-on lids or crossbars open for access at any point along the carrier's length so you can lay in the cable and hose, rather than threading it through.
Designed for smooth, quiet travel, these carriers minimize clicking and jumping in vibration-sensitive applications such as printing and scanning.
Thread cable and hose through the entire length.
The corrugated construction gives this sleeving impact and abrasion resistance similar to conduit, but with more flexibility.
Support and protect conduit by mounting it to strut channel.
Mount these trolleys to your existing channel to create a cable and hose travel system.
Mount these trolleys to your existing beam to create a cable and hose travel system.
Mount these trolleys to your existing wire rope to create a cable and hose travel system.
These systems consist of a series of small trolleys that travel on the included wire rope, carrying your cable or hose along with them. Because these systems mount to the side of your crane, they require minimal structural support.
These systems include a series of small trolleys that travel along steel channel so they are stronger and run straighter than wire rope-travel systems and are better for high speeds.