Extend your reach in hard-to-access areas—turn these valves on and off using a square ratchet to grasp the hole at the end of the handle. Use with water, oil, air, and inert gas.

Attach a gauge to the side port on these valves to monitor pressure, temperature, and other measurements in your line. Use with water and air.

A built-in strainer traps debris and allows you to replace the screen without disconnecting your pipeline.

Install these valves in tight spots, such as where pipelines are crowded together. They’re less than half as long as standard threaded valves and one-third shorter in height. Use with water, oil, air, and inert gas.

These valves are rated for at least three times the pressure of standard threaded valves. Use with water, oil, air, inert gas, and steam.

For fast installation and removal from pipelines, these valves have a union fitting that disassembles into multiple pieces. They’re for use with water, oil, air, inert gas, and steam.

Control flow through any garden hose—the threads on these valves are universally compatible with garden hose connections. Made of PVC, they’re a lightweight and corrosion resistant alternative to metal valves.

Fit these short and slim valves in control boxes, panels, and other tight spots. Made of plastic, they won’t pit or corrode on the inside like metal valves, and they’re lighter in weight for easy handling.

Bolt these valves to ANSI flanges.

For extra gripping power and a strong seal, the Yor-Lok fittings on these valves have two sleeves that bite into tubing as you tighten the nut. All are compatible with Swagelok®, Let-Lok, and Parker A-Lok fittings. These valves are for use with water, oil, air, and inert gas.

Plastic provides a lightweight and economical alternative to metal. All valves have barbs that grip onto tubing for a secure hold. They’re for use with water, oil, air, and inert gas.

Solder these valves to metal tubing for a permanent, leak-tight connection. Use with water, oil, air, inert gas, and steam.

For more durability than plastic valves, these are made of metal. A compression sleeve bites into tubing as you tighten the nut, forming a strong seal. Use these valves with water, oil, air, inert gas, and steam.

Ideal for lines that need frequent maintenance, these valves have union fittings that disassemble quickly for removal. They meet NSF/ANSI 61 for use with drinking water.

Certified to meet NSF/ANSI 61, these valves control the flow of drinking water. With universally compatible threads, they’ll connect to any garden hose or garden hose fittings.

These valves meet NSF/ANSI 61 for use in drinking water lines.

Protect your drinking water line behind an instrument panel while keeping the handle handy. These valves have a nut that threads onto the stem to mount the handle onto the panel.

With a fluoroelastomer seal and a CPVC body, these valves can withstand aggressive and corrosive solutions in chemical-processing applications.

For fast installation and removal from pipelines, these valves have union fittings that disassemble into multiple pieces. All have a fluoroelastomer seal and a plastic body that can stand up to aggressive and corrosive solutions in chemical-processing applications.

There’s no need to unbolt these valves for cleaning—remove the valve handle and slide the valve apart for inline access to internal components. Also known as elliptical valves, they have a fluoroelastomer seal and a polypropylene body to withstand aggressive and corrosive solutions in chemical-processing applications.

Insert unthreaded pipe into the socket ends and bond with primer and cement to create a permanent, leak-tight connection. These valves have a fluoroelastomer seal and a plastic body that can withstand aggressive and corrosive solutions in chemical-processing applications.

Bolt these valves to ANSI flanges—they meet ASME dimensional standards. They have a plastic body and a seal that withstand aggressive and corrosive solutions in chemical-processing applications.

To maintain sanitary standards in food, beverage, and dairy systems that require frequent cleaning, these valves are made of FDA compliant materials. Polished to a 32 Ra finish, they have smooth internal surfaces that prevent product buildup and inhibit bacteria growth. All have sanitary quick-clamp fittings for easy disassembly.

Weld these valves to unthreaded metal pipe for a permanent, flush connection that permits smooth flow through a line. They have polished internal surfaces for easy cleaning in food and beverage systems.

For extra gripping power and a strong seal, these valves have Yor-Lok fittings with two sleeves that bite into tubing as you tighten the nut. They are compatible with Swagelok®, Let-Lok, and Parker A-Lok fittings. Use with diesel fuel, fuel oil, gasoline, and kerosene.

The three-piece bolted body comes apart for access to internal components without unthreading pipe connections and removing the valve from your line.

Their ball-valve design allows these valves to handle three times the flow of butterfly valves.

Also known as actuated ball valves, these provide higher flow rates than other air-driven valves.

Maintain and repair these valves without unthreading pipe connections. They have a three-piece bolted body that disassembles inline for access to internal components.

Separate the union fittings on each end of these valves for fast installation and removal from pipelines.

Insert unthreaded pipe into the socket ends and bond with PVC primer and cement to create a permanent, leak-tight connection.

For three times the flow of butterfly valves, these have a ball valve design.

For food and beverage systems that require frequent cleaning, these valves have polished internal surfaces and sanitary quick-clamp connections for easy disassembly.

Threads and a hex nut below the handle let you install these valves through instrument panels. They are for use with water, oil, air, and inert gas. All divert flow between ports.

For a lightweight alternative to metal valves, these have a plastic body. To fit in tight spots, they have a low-profile handle and a short end-to-end length. Valves are for use with water, oil, air, and inert gas. All divert flow between ports.

These valves divert flow between ports. Use with water, oil, air, and inert gas.

Bolt these valves to flanges to divert flow between ports in flanged pipelines. They’re for use with water, oil, air, and inert gas.

There’s no need to unbolt these valves for cleaning—remove the handle and slide the valve apart for inline access to internal components. Also known as elliptical valves, they have a fluoroelastomer seal and a polypropylene body for diverting flow in chemical-processing applications.

For easy installation and removal from pipelines, all ends on these valves have union fittings that disassemble into multiple pieces. Their fluoroelastomer seal and plastic body can withstand aggressive and corrosive solutions for diverting flow between ports in chemical-processing applications.

Barbed fittings on these valves grip onto tubing, providing a secure hold. To divert flow between ports in chemical-processing applications, they have a chemical-resistant seal and a PVDF body to withstand aggressive and corrosive solutions.

Insert tubing into the fittings on these valves—no heat, solder, or flux required. They divert flow between ports in food and beverage tubing lines.

To divert flow between ports in drinking water lines, these valves meet NSF/ANSI 61.

Bolt these valves to flanges. Use them with water, oil, air, and inert gas. All operate on compressed air to automatically divert flow between ports more quickly than motor-driven valves. You must control the air to the actuator using either an electric pilot valve or a manual on/off valve.

The motor on these valves can handle diverting applications with high flow rates and pressures. They operate on electricity to automatically divert flow between ports.

Attach these balancing valves using solder—they help you measure the difference in pressure across the valve and adjust the flow rate to system components. Also known as circuit setters, they’re often used in systems that need an even distribution of flow, such as HVAC systems.