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Distribute air or fluid to multiple locations from a single supply source with these manifolds. They are also known as headers.
These manifolds have two separate sections inside, so you can run two different substances through them without worrying about them intermixing. 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.
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.
A great solution when space is at a premium, these manifolds are less than an inch in height, yet allow you to supply up to 12 lines from one distribution point.
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.
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.
Use these manifolds with molding equipment to circulate hot and cold water through your line. They have a red side for hot water and a blue side for cold water.
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.
These junction blocks have threaded holes that allow air or fluid to flow at a 90° angle through the block. Use them to organize and separate multiple lines in your system.
Supply air to two different rotating objects from a stationary supply.
These fittings won’t absorb moisture, so they’re good for water and high-humidity air applications.
Made of brass, these fittings have good corrosion resistance.
Make lightweight connections without the hassle of matching the exact thread type—these fittings connect to NPT, NPTF, BSPP, BSPT, and other universal threads.
Made of nickel-plated brass, these fittings have better corrosion resistance than unplated brass fittings.
Connect high-pressure brake lines with fittings that won’t crack in frigid temperatures. Often used on commercial trucks and trailers, these fittings meet Department of Transportation FMVSS 571 safety standards.
Designed for use in welding applications, these fittings are flame retardant.
Made of stainless steel, these fittings are more durable than plastic barbed tube fittings for food and beverage.
The smooth finish inside these stainless steel quick-clamp fittings makes it easy to remove product residue.
Use these fittings at pressures up to 9,700 psi. Also known as instrumentation fittings, they are made to tight tolerances for use in high-precision applications. They are compatible with Swagelok®, Let-Lok, and Parker A-Lok fittings.
Solder these fittings to tubing for a permanent, leak-tight connection. They are also known as sweat fittings.
With an easy-to-cut hose and push-to-connect fittings, you can install a compressed air line system in just a few hours.
The industry standard for quick-disconnect couplings, these are also known as industrial interchange couplings. Compatible with Industrial-shape plugs and sockets.
Compatible with ARO-shape plugs and sockets.
Sockets accommodate five common plug shapes: Industrial, ARO, Lincoln, Tru-Flate, and European.
Kit contains lengths of hose, nozzles, connectors, and assembly pliers.
Build a custom 1/2" system to deliver coolant, cutting oil, water, or air in any direction.
Build a custom 1/4" system to deliver coolant, cutting oil, water, or air in any direction.
Kits contain lengths of hose, nozzles, valves, and caps.
A sealed design prevents contamination in dirty and dusty environments.
For use in clean environments, these manifolds have multiple air vents that keep pressure balanced.
Deliver an equal amount of oil to multiple lubrication points at once.
Use with manual and electric pumps to dispense different amounts of oil from multiple lubrication points.
Mount valves to a single-station base or to a manifold, which allows a single pressure source for multiple valves, then add or remove valves as your needs change.
Mix and match valve styles on one manifold to meet your control needs. Mount multiple valves to a manifold to reduce piping requirements and create multiple actions from a single pressure input.
Often used to extend and then retract a cylinder at different speeds, these valves create two actions and have two exhaust ports, which allows you to control the speed of each action by attaching a flow control valve to each exhaust port. Also known as 5/2 valves, they actuate when voltage is applied to the electrical connection.
These valves close all ports in the off position to stop equipment in a locked position with air pressure holding it in place. Often used to extend and then retract a cylinder at different speeds, they create two actions and have two exhaust ports, which allows you to control the speed of each action by attaching a flow control valve to each exhaust port. Apply voltage to the electrical connection to actuate.
In the off position, these valves exhaust all air pressure, allowing the equipment to return to the neutral position. Often used to extend and then retract a cylinder at different speeds, they create two actions and have two exhaust ports, which allows you to control the speed of each action by attaching a flow control valve to each exhaust port. Apply voltage to the electrical connection to actuate.
These valves create one action, such as extending a cylinder. Apply voltage to the electrical connection to actuate. They're also known as 3/2 valves.
Run up to four air-powered tools from a single air supply.
Use a single air supply to meet the pressure requirements of multiple applications—connect one of these manifolds to your air line, and then set a different output pressure for each station.
Connect two or more of these manifold regulators to meet multiple pressure requirements from a single air supply—set a different output pressure with each regulator.
Use a single air supply to distribute air to up to four locations. In addition to the outlet for inline connection, these manifolds have three 1/4 NPT female outlets for connection to air-powered tools and equipment.
NFPA valve-mounting blocks have standardized valve mounting patterns to keep hydraulic lines compact and organized.
Turn the knob to gradually adjust the amount of flow.
These kits include the hose, gauge, and fittings needed to charge an accumulator.
Choose these blocks if you need to lubricate multiple points but need to control how each is greased. Unlike grease fitting manifolds, these blocks have multiple fittings, so you control what each point receives and when.
Save time by sending grease from one fitting to multiple points. These manifolds come with everything you need to set up a remote lubrication system.
Connect up to five rams to a single pump.
Connect up to four rams and a gauge to a pump. Ram connections have flow-adjustment valves to adjust ram speed, or shut it off to temporarily hold a load.
Often attached to differential pressure gauges to measure liquid level in tanks, these manifolds have two isolation valves with a pressure-equalizing valve between them. To isolate your differential pressure gauge for maintenance or calibration, shut off flow on both sides and equalize pressure in the manifold. They are rated for at least 6,000 psi. Use with water, oil, air, and inert gas.
Also known as block and bleed valves, these have two vent ports to isolate pressure gauges, switches, and other components in high-pressure systems for maintenance, calibration, and sampling without interrupting the process. They are rated for up to 10,000 psi. Use with water, oil, air, and inert gas. Turn the handle to adjust flow in small increments for metering, sampling, and other applications requiring fine flow control.
With a gauge port on each side of these valves, you can install two different pieces of instrumentation equipment to simultaneously monitor multiple media properties without interrupting flow. Use with water, oil, air, and inert gas. Turn the handle to adjust flow in small increments for metering, sampling, and other applications requiring fine flow control.
Also known as block and bleed valves, these have a vent port that allows you to remove instrumentation equipment attached to the valve without depressurizing your line. Turn the handle to shut off flow and remove the vent port plug to drain liquid trapped in the valve. Use them with water, oil, air, and inert gas. These valves adjust flow in small increments for metering, sampling, and other applications requiring fine flow control.
Build a spray system by adding your own nozzles to these nozzle-ready spray manifolds.
Distribute compressed air, hydraulic fluid, or water from a single supply to multiple locations.
Monitor refrigerant pressure on an LCD when servicing air conditioning systems.
Monitor refrigerant pressure with analog gauges when servicing air conditioning systems.
Fill and dispense 96 wells all at once.
Divert compressed air from a single line to two respirators.