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Metal hose fittings have better durability than plastic barbed hose fittings.
Made of polypropylene, these fittings are lighter in weight than metal barbed hose fittings.
Fittings are metal for better durability than plastic barbed hose fittings. They have sharper barbs than standard barbed hose fittings to grip push-on hose without the need for clamps or ferrules. The more you pull on the fittings, the tighter the hose will grip.
Made of nylon, these fittings are lighter in weight than metal barbed hose fittings.They have sharper barbs than standard barbed hose fittings to grip push-on hose without the need for clamps or ferrules. The more you pull on the fittings, the tighter the hose will grip.
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.
Also known as ball-seat hose nipples, these fittings consist of a barbed shaft with a rounded end that sits inside a female threaded nut. When mated with a male threaded fitting, the rounded end presses tightly against the inside of the male threads for a better seal than a single-piece fitting. Once assembled, insert the barbed end into hose and secure with a clamp or a crimp-on hose ferrule.
The female connector screws directly onto the 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.
Use these fittings with power washer guns and in other high-pressure water supply applications.
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.
Attach these chains to cam-and-groove couplings to keep compatible plugs and sockets together.
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.
Compatible with Japanese-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.
Made of acetal, these couplings are lighter in weight than metal quick-disconnect couplings. Compatible with Plastic-shape plugs and sockets.
Plugs and sockets are color coded by shape so you can't mix hose lines. Only plugs and sockets of the same color will fit together.
A slim body allows these couplings to fit into tight spaces. Compatible with Compact-shape plugs and sockets.
Compatible with Schrader-shape plugs and sockets.
Compatible with Lincoln-shape plugs and sockets.
Couplings have an identical claw-style head that connects to another twist-claw hose coupling with a quarter twist.
Couplings have a spring-loaded locking sleeve that automatically locks into place to prevent accidental disconnection. The identical claw-style head connects to another spring-lock twist-claw hose coupling with a quarter twist.
Also known as Chicago and universal couplings, these have identical claw-style heads and connect by being pushed together with a quarter twist.
Couplings are only compatible with other extra-large twist-claw hose couplings. Use with tools and equipment up to 2 pipe size.
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.
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.
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.
Couplings are plastic, which is lighter in weight than metal 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.
Couplings are metal, which has better durability than plastic cam-and-groove hose couplings. Also known as dry disconnects and double shut-off couplings, they have a shut-off valve in the plug and the socket for minimal fluid loss when disconnecting your hose line.
To minimize fluid loss when connecting and disconnecting your line, these couplings have flat faces for a close fit and shut-off valves to stop the flow—they meet ISO 16028, which is an international standard for hose couplings.
These metal hose fittings have better durability than plastic barbed hose fittings. They are 316 stainless steel for excellent corrosion and chemical resistance. Slide the barbed end into hose and secure with a clamp.
Made of plastic, these fittings are lighter in weight than metal barbed fittings, yet have the chemical and corrosion resistance to stand up to harsh substances. Slide the barbed end into plastic or rubber hose and secure with a clamp.
Attach these fittings to garden hose for a variety of water supply applications. They are metal for better durability than plastic garden hose fittings.
Fittings meet NSF/ANSI Standard 61 for drinking water. Attach them to garden hose for a variety of water supply applications. They are metal for better durability than plastic garden hose fittings.
Made of nylon, these fittings are lighter in weight than metal garden hose fittings. Attach them to garden hose for a variety of water supply applications.
Couplings consist of a plug and a socket that connect more quickly than threaded garden hose couplings. To connect, push the plug into the socket. The compact design makes these couplings sleeker and easier to handle than cam-and-groove garden hose couplings.
These two-piece couplings thread together to create an access point within a garden hose line. The threaded design allows for a more secure hold at the point of connection than quick-disconnect and cam-and-groove garden hose couplings.
Designed for coolant applications up to 200 psi, these fittings have a standard barbed end that slides into hose and secures with a clamp.
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.
Also known as CGA nuts, these are designed for low-pressure welding applications downstream of your pressure regulator. Attach them to barbed hose fittings for compressed gas to make a threaded connection to torches or pressure regulators.
Commonly used in low-pressure welding applications, these fittings connect downstream of your pressure regulator. Slide the barbed end into hose and secure with a crimp-on hose ferrule.
These nuts attach to high-pressure nipples for compressed gas so you can connect your tank to the inlet of a pressure regulator.
Commonly used in high-pressure welding applications, these nipples connect your tank to the inlet of a pressure regulator. One side has a threaded pipe end and the other side has a rounded end that sits inside a threaded nut to make a threaded connection.
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. Use in high-pressure applications up to 6,000 psi
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.
These two-piece fittings screw directly onto the 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. Use in high-pressure hydraulic applications up to 5,800 psi.
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. 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 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.
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.
Fittings meet NSF/ANSI Standard 61 for drinking (potable) water.
Use these barbed fittings in low-pressure steam applications up to 150 psi. Slide the barbed end into hose and secure with a clamp.
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.
Couplings are made of FDA listed materials, so they’re suitable for food and beverage applications and won’t impart tastes or odors to the product. 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.
Fittings are made of FDA listed materials, so they’re suitable for food and beverage applications and won’t impart tastes or odors to the product. Slide the barbed end into hose and secure with a clamp.
Attach these chucks to your air hose so you can connect the hose to Schrader valves.
Attach barbed fittings to this hose for use in low-pressure air applications.
Hose is PVC, so it’s lighter and less cumbersome than rubber hose.
An extra-strong yarn reinforcement gives this hose excellent durability to handle high pressures.
Lighter than rubber and more flexible than PVC, this polyurethane hose stands up to the wear and tear of daily use.
Identify your air lines by color.
This hose withstands the highest pressures of all our air hose for push-on fittings.
Hose is polyurethane so it stretches and flexes more than nylon retracting hose.
No clamps or banding are needed to secure fittings to this hose; the more you pull on the fittings, the tighter the hose will grip.
Because the white cover on this hose makes dirt and other contaminants easy to spot, it is often used as a washdown hose in creamery and paper-mill applications.
Also know as pump connectors, hose is sized to specific lengths for attaching to pumps.
If you need to access your line frequently, the fittings on this hose connect and disconnect quickly.
The cover on this hose meets MSHA (Mine Safety and Health Administration) standards for flame resistance.
The steel wire reinforcement gives this hose extra strength in high-pressure conditions.
Let go of this hose and it retracts back to its original coiled form.
Reels are enclosed to protect your hose when it's not in use.
Made of PVC, this hose is economical yet durable enough to handle vacuum up to 28 Hg.
Blended rubber construction with extra-strong reinforcement gives this hose strength to transfer large volumes of water in high-vacuum or high-pressure operations.
Drain water from one place to another. Hose lays flat and folds up for carrying and storage.
Cut the hose to your desired length and attach the fittings. You don't need any special equipment to install.
Use this conductive hose in a grounded system to eliminate static buildup. The material is blended with carbon black, which conducts static charges away from the hose walls.
You don’t need a lot of force to bend this low-pressure chemical hose. The extra flexibility makes it good for offset connections and tight spaces.
Yarn reinforcement gives this hose good strength under pressure.
Made of FEP (fluorinated ethylene propylene), this hose can stand up to chemicals at high temperatures.
Transfer fluid between pumps, cylinders, and other parts of your hydraulic system with this hose that has attached fittings to save time and eliminate points of failure.
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.
Attach push-on barbed fittings to this hose for use in low-pressure hydraulic applications. No clamps are needed to secure fittings to the hose; the more you pull on the fittings, the tighter the hose will grip.
Transfer industrial gases in temperatures up to 1500° F with this hose.
This hose meets CGA (Compressed Gas Association) standards for use with oxygen and acetylene gas.
Run natural and LP gas through this heavy duty hose that's flexible enough for routing through walls and ceilings.
Made of tough Buna-N rubber, this hose has the durability to stand up to gasoline, fuel oil, and other petroleum-based products.
With a tighter bend radius than other petroleum hose, this hose can easily twist and turn around equipment.
Multi-spiral yarn reinforcement gives this hose strength to withstand pressures up to 250 psi. Hose is not for use with gasoline.
The Yor-Lok fitting is also known as an instrumentation fitting. It has two sleeves (double ferrules) that bite into metal tubing for a strong seal.
The fittings are a short length of tubing that inserts into the end of another tube fitting.
The fittings are also known as an instrumentation fittings. They have two sleeves (double ferrules) that bite into metal tubing for a strong seal.
Also known as an instrumentation fittings, the Yor-Lok fitting has two sleeves (double ferrules) that bite into metal tubing for a strong seal. The tube stem fitting is a short length of tubing that inserts into the end of another tube fitting.
Hook up this hose to a single-hose paint-spray system to transfer oil- and water-based paints.
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.
Connect to high-vacuum pumps to route exhaust fumes out of your work area. Also known as roughing hose.
A braided exterior protects this hose from abrasion and over-bending. Also known as bellows, the ribbed interior makes it flexible enough to connect high-vacuum components that aren't directly aligned.
More flexible than rigid stainless steel tubing, this hose allows you to link high-vacuum components that are misaligned. Also known as bellows. Equipped with a claw-clamp (ISO-K) fitting on each end, this hose connects to large components with fittings starting at trade number 63.
Slide the barbed end of these swivels into your dispensing hose and connect with a clamp. They rotate before and after installation as needed to prevent hose from twisting, kinking, and wearing prematurely.
Adjust the flow while dispensing liquid chemicals.
Use these reels in applications where the hose is pulled straight out of the reel.
These reels have more support than medium duty reels, so you can pull the hose out at an angle.
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.
Use these reels in applications where the hose is pulled straight out of the reel. They have good to 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.
Turn the hand crank to rewind your hose.
Wind your garden hose around these reels to keep it neat and organized.
Barbs grip onto tubing.
Minimize leaks in your line—these fittings have a single barb that creates a smooth clamping surface for extra-tight connections.
Monitor flow with these clear fittings.
Silver ions in the material help inhibit the growth of bacteria, mold, fungi, and other odor-causing microbes.
Fittings have good corrosion resistance.
Aluminum fittings have good corrosion resistance, but are lighter in weight than brass.
The nickel plating on these fittings provides better corrosion resistance than unplated brass fittings.
Color-code fittings for easy identification. These aluminum fittings have good corrosion resistance, but are lighter in weight than brass.
Made of stainless steel, these fittings have better corrosion resistance than brass fittings.
You don't need a clamp to secure these fittings to tubing. They have a nut on the barbed end that tightens to holds the tubing in place.
Lighter in weight than metal quick-disconnect couplings, these couplings are plastic.
Couplings can handle pressures up to 250 psi.
With no latch, these couplings have a compact design to fit in small spaces. They can handle pressures up to 700 psi.
Made of plastic, these couplings are lighter in weight than metal quick-turn couplings.
A built-in shut-off valve stops the flow when the coupling is separated, so there’s no need to worry about air or water spilling from your line. Couplings are plastic, which is lighter in weight than metal couplings.
These brass couplings have good corrosion resistance.
Made of stainless steel, these couplings stand up to wet environments.
These fittings keep their strength in moist environments and meet NSF/ANSI 61 for drinking water. Also known as instant fittings.
Fittings can withstand temperatures up to 200° F.
Connect these fittings to tubing with a ring and a crimping tool (both sold separately). Safe to use with drinking water, these fittings meet the strict standards of NSF/ANSI 61.
Made of stainless steel, these fittings are more durable than plastic barbed tube fittings for food and beverage.
Fittings withstand temperatures up to 220° F.
Made of FDA listed materials, these fittings have a single barb that creates a smooth clamping surface for extra-tight connections.
A smooth interior reduces friction and prevents product buildup, ensuring an unrestricted flow.
These quick-disconnect couplings meet NSF/ANSI 169 for food equipment.
These quick-disconnect couplings mate with a sanitary stainless steel quick-clamp fitting for use in dairy lines.
Also known as instant fittings, they connect to tubing with a push, and an internal gripping ring and O-ring hold the tubing tight. Use in applications up to 150 psi.
Fittings have a barb that grips onto tubing. Use in applications up to 120 psi.
Quick-disconnect couplings consist of a plug and a socket that join with a latch so you can easily connect and disconnect your line. Use in applications up to 120 psi.
Also known as instant fittings, these chemical-resistant plastic fittings connect to tubing with a push, and an internal gripping ring and fluoroelastomer O-ring hold the tubing tight.
Fittings have a barb that grips onto tubing. Use in applications up to 150 psi.
Quick-disconnect couplings consist of a plug and a socket that join with a latch so you can easily connect and disconnect your line. Use in applications up to 150 psi.
Also known as JIC (Joint Industrial Council) fittings, these provide a tight metal-to-metal seal on stainless steel tubing that is flared to 37°.
Individually bagged to prevent contamination, these fittings are suitable for applications that require a high level of cleanliness.
Connect stainless steel tubing on one end and plastic tubing on the other end.
Also known as KF, QF, and NW fittings, these fittings are for high-vacuum applications, such as vacuum coating and heat treating, leak testing, and analyzing gases.
Use for pressures up to 200 psi. Also known as insert fittings, these slide into semi-flexible plastic pipe and secure with a clamp.
Use for pressures up to 60 psi. Also known as insert fittings, these slide into semi-flexible plastic pipe and secure with a clamp.
Connect these fittings to Schedule 40 plastic pipe—they are the industry standard for residential and commercial low-pressure plumbing and water supply applications. They are plastic for good corrosion resistance.
Extreme temperatures are no problem for these fittings—they’re made of PTFE, so they can withstand a wider temperature range than any of our other plastic pipe fittings for chemicals. They are commonly used in high-purity chemical flow processes, such as semiconductor and clean room applications.
Also known as manifold flange fittings, these have a clamp-together design that lets you access your line for routine maintenance. Fittings resist acids, solvents, and other harsh chemicals. They won’t deteriorate when exposed to the damaging effects of ultraviolet light, so they’re suitable for outdoor use.
Distribute air or fluid to multiple locations from a single supply source with these manifolds. They are also known as headers.
Designed for ultra-clean environments, these manifolds are cleaned, dried, and vacuum sealed in plastic to prevent dirt and moisture from contaminating the inside. Use them to distribute air or fluid to multiple locations from a single supply source. Also known as headers.
Unlike other manifolds, which have an inlet on either end, these have one inlet on the opposite side from the outlets. This design allows air or fluid to follow a straight path, improving flow through your system. Also known as headers.
Mount these manifolds on the end of a hose line to distribute air, water, or hydraulic fluid to three locations from a single supply source.
When you’re short on vertical space, these manifolds are a good fit—they have outlets on the side instead of on top, so they have a lower profile than rectangular manifolds. Use them to distribute air or fluid to five locations from a single supply source.
With outlets on the side instead of on top, these manifolds have a lower profile than rectangular manifolds and fit well in cramped spaces. Use them to distribute air or fluid to three locations from a single supply source.
Use these junction blocks to organize and separate multiple lines in your system. They have threaded holes that allow air or fluid to flow straight through the block.
Use ferrules to create a permanent connection between your air- and water-hose and barbed hose fittings.
Slide these connectors into the ends of duct hose and secure with a clamp.
If you need frequent access to your line, these connectors join with a twist. They are also known as J-lock connectors.
Hook up faucets and other appliances to a water supply with these flexible hoses.
These durable wash guns are typically used for frequent washdowns and cleanup.
Build a custom 1/4" system to deliver coolant, cutting oil, water, or air in any direction.
These premium nozzles are engineered for the most efficient airflow consumption.
Control consumption and noise by adjusting the airflow.
Extend these telescoping nozzles to increase your reach.
Blow air backward to clean out the inside of pipes, tubes, and channels without pushing debris into your system.
These needle-style nozzles force air to a precise pinpoint.
Focus air with pinpoint precision.
The flat nozzle tip distributes air over a wider area than focused-airflow nozzles.
These nozzles are made of FDA-listed materials.
At less than 2" long and with a wide airflow pattern, these nozzles are ideal for tight spaces where you need to distribute air over a wider area than a focused-airflow nozzle.
Air blows out of these flat nozzles in a wide pattern at a 90° angle from the inlet, distributing air over a wider area than focused-airflow nozzles. They’re FDA compliant 21 CFR 110.40 for use in the food industry.
Adjust airflow to control consumption and noise.
Air blows out of these nozzles at a right angle in a wide pattern, distributing air over a wider area than focused-airflow nozzles.
Choose a base, hose, and nozzle for a custom setup.
Join duct and fittings with quick-release clamps for faster disassembly and cleanout than other duct systems.
No need for clamps or connectors—duct and fittings have a male end that is slightly smaller than its female end for simple assembly.
A spiral seam gives this duct greater strength and rigidity than standard duct.