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Made of a PVC and Buna-N blend, this hose is lighter in weight than standard EPDM water hose.
Lighter than standard EPDM water hose, this PVC/Buna-N hose connects to a male threaded fitting on one end and a female one on the other.
Also know as pump connectors, hose is sized to specific lengths for attaching to pumps.
Cut the hose to your desired length and attach the fittings. You don't need any special equipment to install.
Designed for areas where space is limited, these reels have the smallest overall size of all our reels.
Protect your hose when it’s not in use.
Turn the handle to rewind the hose.
Transfer compressed air that’s up to 500 psi—this hose has extra-strong yarn reinforcement for excellent durability.
Safely deliver compressed air to brakes in semitrucks, trailers, and other vehicles with this D.O.T. certified hose. Made of flexible nylon, it will bounce back to its coiled form even after long periods of use.
Use this hose to transfer fluid between pumps, cylinders, and other parts of your hydraulic system. It comes with female threaded fittings already attached, so it’s ready to use right out of the box.
Use this hose to transfer fluid between pumps, cylinders, and other parts of your hydraulic system.
Although only half the weight, this hose resists wear and tear 240 times better than our standard rubber hydraulic hose. The fittings come attached, so this hose is ready to connect to a male threaded fitting on one end and a female one on the other.
Although only half the weight, this hose resists wear and tear 240 times better than our standard rubber hydraulic hose. It comes with female threaded fittings already attached, so it’s ready to use right out of the box.
Made of nylon with a polyurethane cover, this hose is half the weight but 240 times better at resisting wear and tear than our standard rubber hydraulic hose. The male threaded fittings come already attached to save you time.
The new standard for rubber hydraulic hose, this hose bends twice as sharply and resists wear and tear 80 times better than our basic hydraulic hose. It comes with female threaded fittings already attached, saving you time.
The new standard for rubber hydraulic hose, this hose bends twice as sharply and resists wear and tear 80 times better than our basic hydraulic hose. The fittings come attached, so this hose is ready to connect to a male threaded fitting on one end and a female one on the other.
The new standard for rubber hydraulic hose, this hose bends twice as sharply and resists wear and tear 80 times better than our basic hydraulic hose. To save you time, it comes with male threaded fittings already attached.
For frequent connections, this hose has a socket end that's faster to connect and disconnect than a threaded fitting. Thanks to two layers of blended rubber, this hose bends twice as sharply and resists wear and tear 80 times better than our basic hydraulic hose.
For frequent connections, this hose has a socket end that's faster to connect and disconnect than a threaded fitting. This hose bends twice as sharply and resists wear and tear 80 times better than our basic hydraulic hose, thanks to its two layers of blended rubber.
When you need access to your line, don’t waste time threading and unthreading your fittings. This hose has a quick-disconnect fitting on both ends. It bends twice as sharply and resists wear and tear 80 times better than our basic hydraulic hose.
Internally reinforced with four steel wire spirals, this hose resists bursting from rapid changes in pressure and flow. To save you time, this hose comes with female threaded fittings already attached.
To handle rapid changes in pressure and flow without bursting, this hose is reinforced with four steel wire spirals. It comes with male threaded fittings already attached, so it's ready to use right out of the box.
To transfer air or oil- and water-based paints, attach this hose to a paint-spray system that has separate hoses for air and paint. Fittings swivel until tightened for easy installation. Fittings with spring guards prevent kinking.
Hook up this hose to a single-hose paint-spray system to transfer oil- and water-based paints.
Use with lightweight fire-fighting hose (also known as pin-rack hose), which can be folded.
Metal hose fittings have better durability than plastic barbed hose fittings.
Low-profile barbs and a longer first barb allow for a smoother, easier installation than other barbed fittings. Slide the barbed end into hose and secure with a clamp.
Connect these fittings to air tools for pneumatic applications.
The industry standard for quick-disconnect couplings, these are also known as industrial interchange couplings. Compatible with Industrial-shape plugs and sockets.
Couplings allow for maximum flow because there's no shut-off valve in the plug or the socket. Compatible with Open-Flow-shape plugs and sockets.
Sockets accommodate five common plug shapes: Industrial, ARO, Lincoln, Tru-Flate, and European.
Also known as automotive couplings. Compatible with Tru-Flate-shape plugs and sockets.
Compatible with ARO-shape plugs and sockets.
With an unobstructed air path, these couplings have better airflow than other coupling shapes of the same size. Compatible with European-shape plugs and sockets.
Compatible with Lincoln-shape plugs and sockets.
A slim body allows these couplings to fit into tight spaces. Compatible with Compact-shape plugs and sockets.
Larger, heavier, and rated for pressures up to 10,000 psi, these couplings maximize flow in high-pressure washing applications, such as water blasting.
Compatible with Japanese-shape plugs and sockets.
Compatible with Ring-Lock-shape plugs and sockets.
Compatible with Schrader-shape plugs and sockets.
Metal cam-and-groove couplings have better durability than plastic cam-and-groove couplings.
Made of polypropylene, these cam-and-groove couplings are lighter in weight than metal cam-and-groove hose couplings.
Couplings have an identical claw-style head that connects to another twist-claw hose coupling with a quarter twist.
These couplings have a lower profile than other claw-style couplings to fit in cramped spaces. They consist of a plug and a socket that connect with a quarter twist. Also known as Bowes couplings.
Also known as Thor couplings, these have two locking points to give you twice the gripping power of standard grip-lock couplings. They consist of a plug and a socket that connect with a quarter twist.
Use these kink absorbers to ensure maximum water flow and extend the life of your garden hose. They connect between the hose and faucet to eliminate sharp hose bends that can cause kinking and hose damage.
Couplings are metal, which has better durability than plastic cam-and-groove hose couplings. They consist of a plug and a socket that connect and disconnect quickly. Use them if you need frequent access to a line. To connect, insert the plug into the socket and push the levers down.
Connect your hose to a cam-and-groove vapor recovery valve.
Access your line without twisting the hose—these unions separate into three pieces.
Fittings are threaded on both ends so you can connect them directly to a threaded hose or to pumps, cylinders, and other equipment in your hydraulic system.
Also known as live swivels, these fittings swivel continuously 360° before and after installation. This not only makes installation easier, but also eliminates the twisting and kinking that can cause hose failure. Fittings are threaded on both ends so you can connect them directly to a threaded hose or to pumps, cylinders, and other equipment in your hydraulic system.
Crimp these fittings onto hydraulic hose for a permanent, leak-tight connection. Since they crimp on, they handle higher pressure than screw-on fittings.
Fittings have sharp barbs that grip push-on hose with no clamps or ferrules required. The more you pull on the fittings, the tighter the hose will grip. Use in low-pressure hydraulic applications up to 350 psi.
With just a vise and a wrench, make or repair hose assemblies in the field.
Create or repair D.O.T. hose assemblies in the field with just a wrench and a vise, no crimper required.
Use these couplings at pressures up to 5,000 psi. They consist of a plug and socket that connect and disconnect quickly. Use them if you need frequent access to a line. They are compatible with International Standard ISO B-shape plugs and sockets.
Use these couplings at pressures up to 10,000 psi. The plug and socket thread together to form a stronger connection than other quick-disconnect couplings. They are compatible with High-Pressure Thread-Lock-shape plugs and sockets.
Use these couplings at pressures up to 7,200 psi. Also known as flush-face couplings, the plugs and sockets have a flat face, which allows them to mate close together, reducing fluid loss when connecting and disconnecting the line. They are compatible with International Standard ISO Minimal-Spill-shape plugs and sockets.
Use these couplings at pressures up to 10,000 psi. Also known as flush-face couplings, the plugs and sockets have a flat face, which allows them to mate close together, reducing fluid loss when connecting and disconnecting the line. They are compatible with High-Pressure Minimal-Spill-shape plugs and sockets.
Use these couplings at pressures up to 5,000 psi. They consist of a plug and socket that connect and disconnect quickly. Use them if you need frequent access to a line. They are compatible with International Standard ISO A-shape plugs and sockets.
Use these couplings at pressures up to 6,500 psi. They consist of a plug and socket that connect and disconnect quickly. Use them if you need frequent access to a line. They are compatible with Snap-Tite H-Shape plugs and sockets.
Add quick connection points for mechanical gauges and other diagnostic equipment to your line. These couplings are also known as test ports and diagnostic couplings.
Ideal for lines with rapid changes in pressure and flow, these couplings have threads that lock them together. They connect more securely than push-to-connect couplings, whose bearings wear out in high-impulse conditions.
Use these couplings at pressures up to 3,000 psi. They consist of a plug and socket that connect and disconnect quickly. Use them if you need frequent access to a line. They are compatible with Pioneer-shape plugs and sockets.
Made of brass with a steel wing nut, these couplings are tough enough to handle occasional drops to concrete and frequent connections on dump truck, oil rigs, and other heavy duty equipment. Compared to push-to-connect couplings, these are threaded, so they're easier to connect when there's pressure in your line.
A single rounded bead grips onto hose just like a barb, but has no sharp edges that could cut or damage soft hose. Slide the beaded end into hose and secure with a clamp. Use in coolant applications up to 300 psi.
Couplings consist of a plug and a socket that connect and disconnect quickly. Use them if you need frequent access to a line. They are designed for coolant applications up to 200 psi. Also known as coolant-line mold couplings.
Use with interlocking-clamp hose fittings to replace a damaged clamp. They consist of two halves held together by nuts and bolts.
Also known as ground-joint couplings and boss couplings, these fittings are designed for high-pressure steam applications up to 600 psi. Insert the barbed end of the fitting into hose, then position the interlocking clamp over the hose and bolt into place. The clamp firmly grips your hose as it locks into the ring of the barbed end, creating a leak-tight seal.
Use these barbed fittings in low-pressure steam applications up to 150 psi. Slide the barbed end into hose and secure with a clamp.
Use these two-piece fittings in grease and lubrication lines. They screw directly onto hose without the need for a separate adapter. When assembled, the fitting compresses against the hose, forming a strong seal. Also known as reusable fittings, they can be unscrewed from the hose end and used on a new hose.
No need for expensive crimping tools—these fittings make air conditioning and refrigeration assemblies with clamps.
Drape your hose over these holders to keep it out of your way.
Wind your garden hose around these reels to keep it neat and organized.
Take your garden hose wherever you need it—this reel has four pneumatic tires for mobility.
Turn the hand crank to rewind your hose.
These reels have more support than medium duty reels, so you can pull the hose out at an angle.
Also known as safety reels, these have a retraction speed that's up to 80% slower than other automatic-winding hose reels.
Use these reels in applications where the hose is pulled straight out of the reel.
Strong and well-supported to handle large-diameter hose, these reels can be used in high-vibration applications.
Reels have a frame-style construction that provides extra strength to handle large-diameter hose. They have very good corrosion resistance.
Not only do these reels have very good corrosion resistance, they also have more support than medium duty reels, so you can pull the hose out at an angle.
Use these reels in applications where the hose is pulled straight out of the reel. They have good to very good corrosion resistance.
OSHA compliant, these whip checks stop your hose from whipping when couplings are accidentally disconnected under pressure.
Use this tool to cut and strip weld-spatter-resistant tubing in order to attach fittings.
Seamless construction with no weld bead gives this tubing an interior with unrestricted flow. It can be flared without splitting.
Tubing is welded with a smoothed weld bead on the inside to reduce particle buildup. It is also known as DOM (drawn over mandrel) tubing.
This tubing has the strength to withstand vacuum applications up to 29" Hg.
A thin layer of zinc yellow-chromate gives this tubing extra corrosion resistance, making it an economical alternative to stainless steel.
With the lowest OD tolerance of all our steel tubing, this tubing is designed for precision applications.
Metal interlocked strips create a rigid, durable hose that stays strong under high temperatures.
Formed by metal interlocked strips, this hose has the strength to stand up to sharp, abrasive materials.
Slide these connectors into the ends of duct hose and secure with a clamp.
Easy to use, strong, and versatile, these hose clamps are the most common. Tighten their slotted screw with a screwdriver, hex nut driver, or wrench.
A raised safety collar around the head of the screw prevents your screwdriver from slipping and damaging the hose or tube.
One clamp fits a wide range of diameters, so you can always have the right size on hand.
These clamps are easier to install than worm-drive clamps—crimp the pinch points with pinch-clamp pincers for a secure hold. They are also known as ear clamps.
These pinch clamps come packed in a box with individual compartments for each clamp size. Easier to install than worm-drive clamps, crimp the pinch points with pinch-clamp pincers for a secure hold. They’re commonly known as ear clamps.
Clamps offer extra holding power in high-torque applications.
A double ring of thick wire provides a complete seal around large-diameter hose.
These clamps have a wider band than other constant-tension clamps, which provides more coverage and reduces the chance of leaks.
Not as bulky as our other constant-tension clamps, these round-wire clamps easily fit in cramped spaces. Use in low-pressure applications.
The T-bolt design provides excellent strength and creates a 360° seal. Clamps have a spring that automatically adjusts the clamp diameter when temperatures fluctuate.
These clamps are easier to install than our Extra-Strength Low-Profile Band Clamps. Also known as center-punch clamps, they seal with a quick hammer blow to the buckle.
The end of the band curls back into the buckle—this gives these clamps up to 25% more strength than other low-profile clamps. They are also known as JS-style clamps.
Designed for both permanent connections and emergency repairs, use these buckles with banding to create your own low-profile hose clamps.
Keep this banding on hand for both permanent connections and emergency repairs. You'll need an installation tool and a buckle (both sold separately) to create a band clamp.
Clamps have a slotted hex-head screw that flips up to release the band for quick opening.
Twist the thumb head with your fingers to tighten these clamps. Once tightened, remove the thumb head to minimize your clamp’s profile and make it harder to tamper with.
Clamps have a smooth band with rolled edges to prevent them from cutting into your hose or tube.
Clamps come packed in a box with individual compartments for each clamp size. To make sure they won’t cut into hose and tube, they have a smooth band with rolled edges.
An extended tail acts as a liner to protect hose and tube from being cut by the slots in the band.
The bolt design provides high strength and creates a 360° seal to prevent leaks.
Remove the bolt and flip open the hinged bridge to install.
Don't worry about your hose and tube expanding and contracting when temperatures fluctuate—these clamps have a Bellville spring that automatically increases and decreases the clamp's diameter.
Unlike other duct hose clamps, these are rated for a maximum work load. Clamps have a quick-release latch that lets you access your line frequently while maintaining your original clamp size.
Prevent static charge buildup while securely connecting duct hose with a wire spiral.
Also known as bridge clamps, these worm-drive clamps align with the spiral support on wire duct hose to provide a tight seal.
Flip the toggle latch to install and remove these clamps in seconds.
As you squeeze the handles, the vise-like jaws lock tightly onto the ferrule to secure barbed fittings onto your hose.
Crimpers are furnished with five removable dies that crimp air and water hose.
Individual dies allow you to crimp large sizes of air and water hose from 3/4" to 1 3/8" OD.
Use a hammer strike or a vise to crimp ferrules onto your hose and secure barbed hose fittings.
Twist these fittings onto aluminum pipe for quick, sealed connections—no threading, soldering, or welding necessary. Use them to build a compressed air system in half the time it would take to build a copper or steel system.
The corrugated construction gives this sleeving impact and abrasion resistance similar to conduit, but with more flexibility.
Also known as FMC, this conduit offers the crush resistance of metal combined with flexibility to handle bends in tight spaces.
Attach conduit to a knockout in an outlet box or enclosure.
These fittings seal out liquids when connecting liquid-tight flexible metal conduit to a knockout in an outlet box or enclosure.
When used with liquid-tight fittings, this conduit seals out liquid. The steel core provides crush resistance, and the cover is UV light resistant.
The toughest liquid-tight flexible metal conduit we offer, this resists oil, chemicals, and extreme temperature fluctuations.
Even in temperatures as low as -50° F and as high as 220° F, this conduit stays flexible.
In addition to resisting oil, this conduit resists lubricants and grease.
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.
Join pieces of conduit.
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.
Reduce the knockout size in an outlet box or enclosure so you can attach a different size of conduit to it.
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.
Connect different sizes of conduit.
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.
Visually identify different runs of wire and cable along walls and ceilings with this conduit that has a painted exterior.
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.
Transition between types of conduit.
These fittings seal out liquid when used with continuous-flex liquid-tight plastic conduit.
Secure threaded metal conduit fittings to a knockout in an outlet box or enclosure.
Hook up faucets and other appliances to a water supply with these flexible hoses.
These faucets drain when closed to prevent freezing.
This hose is made of steel.
These dispensers have a reservoir and controls for coolant flow.
These dispensers have a reservoir for recirculating coolant.
These flexible nozzles come with a dispensing tip and have threads on one end for connecting to a grease gun.
Slide the metal sleeve up to the tip for rigidity. Slide it back down to expose the flexible nozzle.
These flexible nozzles have threads on both ends for connecting a grease gun to a dispensing tip.
These flexible extensions have a quick-disconnect fitting that snaps into your dispensing tip, so you can lubricate grease fittings that are hard to reach.
Lubricate standard grease fittings in hard-to-reach areas. Extensions have a quick-disconnect fitting that snaps into your dispensing tip for standard grease fittings.
Dispense from grease guns into grease fittings and bare lubrication points.
Move grease-dispensing guns in any direction without kinking the outlet hose.
Connect vacuum hose and fittings.
Hook your vacuum hose to a central vacuum system.
Nozzles are attached to a flexible hose that bends and holds its shape until you reposition it.
Use these fittings with hydraulic hose.
Connect a hose to a ram or pump.
This steel-reinforced hose has male threads.
Control the flow of oil to adjust ram speed, or shut it off to temporarily hold a load.
Remove worn fittings and repair threaded holes.
Clamp down on nonreinforced hose and tube to squeeze it shut, eliminating the need to drain the hose when working on pumps, heating and cooling systems, and fuel lines.
Grip hose and tubing for installation and removal without damage.
Support and protect conduit by mounting it to strut channel.
Angle these mirrors any which way to check difficult to reach parts of your workpiece.
Make cuts in most rigid plastic pipe and tube.
A fast-acting release lever opens the cutter to maximum size. Push the handle to quickly slide the cutting wheel onto the pipe.
Enclosed steel bearings guide the cutting blade to create smooth cuts—even after repeated use.
A small swing radius lets you cut tubing in tight spaces.
An enclosed ratchet feed opens quickly to accept tubing and instantly slides to cutting position.
After cutting, crimp tubing in preparation for making connections.
No need to turn an adjustment screw—these cutters have a spring-loaded ratchet feed that adjusts to the size of your tubing in seconds. Their bearings are enclosed, so they rotate smoothly even after many uses.
This cutter has two sets of guide wheels that ride in the corrugations for stability so you get clean, precise cuts.
An insulated handle protects against shock from accidental contact with live electrical circuits. These cutters are tested to 1,000 volts to meet IEC 60900 and ASTM F1505.
This set contains three of the most common sizes of tube cutters, neatly packed in a convenient carrying case. These cutters require less than 1 ¼” of space around them, making them ideal for use in crowded tubing systems.
Ratchet action permits cutting in cramped areas.
Needing less than 1 ½" of space around them, these cutters are great for crowded tubing systems.
Access clay and cast iron soil pipe in tight spots.
Make clean cuts in glass tubes.
Turn this cutter 360° around a pipe to make a cut.
Cut pipe with just 90°-110° of handle swing and 4" of clearance.
These heavy duty cutters have an iron frame for exceptional durability.
Ratchet action permits cutting in cramped areas, and moves the cutter 360° around a pipe.
Cut through copper tubes up to 10 times faster and with less effort than manual tube cutters.
Cut plastic and rubber tubing from your bench top.
Fit this compact cutter into your pocket or tool belt.
Ratchet action increases leverage to cut through hose, soft rubber tubing, or plastic pipe.
Cut plastic and rubber pipe, tubing, and hose.
Cut PEX tubing with one or two twists.
Make quick, perpendicular cuts on flexible tubing and hose to reroute flow and add fittings.
Move the hose into position and the support arm will hold it in place.
The arm length adjusts from 3 to 6 feet making these exhaust hoses good for locations with low ceilings.