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Designed for installation directly to your air-powered tool, these regulators maintain the set air pressure.
Use these regulators to adjust and maintain the pressure of your tubing air lines.
Adjust and maintain the pressure of your compressed air.
A lower profile than our other compressed air regulators makes these regulators a better fit in tight spots.
An internal check valve permits reverse flow, so these regulators work with double-acting cylinders.
No need to worry about unintentional changes to your pressure setting—these regulators maintain a fixed outlet pressure.
Cleaned and double bagged in an ISO Class 3 and Fed. Spec. Class 1 clean room for protection from contamination, these regulators are suitable for use in clean rooms.
Mount these regulators to a 35 mm DIN rail with the included brackets.
Prevent unauthorized adjustment and unintentional pressure changes with these regulators.
A 316 stainless steel housing allows these regulators to withstand corrosive environments in the semiconductor, marine, chemical, instrumentation, and paper industries.
Mount these regulators to a 35 mm DIN rail or a wall with one of the two included brackets.
At ±0.1% accuracy, use these regulators in sensitive applications where constant, consistent pressure is important.
A pressure-calibrated dial allows for easy adjustments to outlet pressure in high-flow applications.
With a greater flow capacity than our standard precision compressed air regulators, use these regulators to adjust and maintain air pressure in sensitive high-flow applications where constant, consistent pressure is important.
A 316 stainless steel housing provides superior corrosion resistance and meets NACE (National Association of Corrosion Engineers) material requirement MR-01-75.
Fit these regulators in tight spaces to adjust and maintain air pressure in sensitive applications where constant, consistent pressure is important.
View and control output pressure remotely and at the source.
Mount these regulators to a 35 mm DIN rail with the included bracket.
Designed for control applications that require high reliability and repeatability, these regulators translate electrical signals to output pressure.
Keep an eye on the output pressure in high-flow applications—these regulators have a display so you can monitor your application locally.
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 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.
Run up to four air-powered tools from a single air supply.
A filter and regulator joined top-to-bottom, these filter/regulators fit in the same space as a filter alone.
These filter/regulator combinations come as one convenient unit that cleans the air as it regulates pressure.
No need for thread adapters—these filter/regulators have an NPT inlet and a BSPP outlet.
A clear polyurethane bowl makes these filter/regulators chemical resistant for use with synthetic compressor oils and cleaning fluids and allows you to see inside to monitor contents.
Mount these filter/regulators to a 35 mm DIN rail with the included brackets.
With ±0.2 psi accuracy, these filter/regulators provide more precise control than our other compressed air filter/regulators.
Assembled, inspected, and packaged in a clean environment, these filter/regulators come sealed in antistatic double bags.
A stainless steel housing and bowl allow these filter/regulators to withstand corrosive environments in the semiconductor, marine, chemical, instrumentation, and paper industries.
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.
An oil filter and regulator joined top-to-bottom, these filter/regulators fit in the same space as a filter alone.
Two-stage filtration is like getting two filters in one—the first stage removes large particles, while the second removes fine particles.
An SMC filter, regulator, and lubricator are combined to provide clean, lubricated compressed air at your required pressure.
An ARO filter, regulator, and lubricator are combined to provide clean, lubricated compressed air at your required pressure.
A filter, regulator, and lubricator are combined to provide clean, lubricated compressed air at your required pressure.
A Norgren filter, regulator, and lubricator are combined to provide clean, lubricated compressed air at your required pressure.
A Parker filter, regulator, and lubricator are combined to provide clean, lubricated compressed air at your required pressure.
A Festo filter, regulator, and lubricator are combined to provide clean, lubricated compressed air at your required pressure.
A Wilkerson filter, regulator, and lubricator are combined to provide clean, lubricated compressed air at your required pressure.
An ASCO Numatics filter, regulator, and lubricator are combined to provide clean, lubricated compressed air at your required pressure.
No need for thread adapters—these filter/regulator/lubricators have an NPT inlet and a BSPP outlet.
A filter, regulator, and lubricator with push-to-connect fittings are combined to provide clean, lubricated compressed air at your required pressure. Fittings make a tight seal around tubing.
With one outlet port before the lubricator and one after, these filter/regulator/lubricators work in systems that require lubrication in some lines but not in others.
Prevent accidental start-up when servicing equipment.
Also known as Monday-morning valves, these valves slowly introduce pressure to reduce surge damage during start-up.
Replace the filter element in your Festo modular compressed air filter to trap solid particles and water droplets as small as 5 microns.
Replace the filter element in your Wilkerson modular compressed air filter to trap solid particles and water droplets as small as 5 microns.
Replace the filter element in your ARO modular compressed air filter to trap solid particles and water droplets.
Replace the filter element in your Norgren modular compressed air filter to trap solid particles and water droplets as small as 5 microns.
Replace the filter element in your Parker modular compressed air filter to trap solid particles and water droplets.
Replace the filter element in your SMC modular compressed air filter to trap solid particles and water droplets as small as 5 microns.
Replace the filter element in your ASCO Numatics modular compressed air filter to trap solid particles and water droplets as small as 5 microns.
These filter elements fit in ASCO Numatics modular two-stage compressed air filters to remove water droplets, oil, and particles as small as 0.01 microns.
Also known as coalescing filters, these filter elements fit in Wilkerson modular compressed air filters to remove oil and fine particles.
Also known as coalescing filters, these filter elements fit in Festo modular compressed air filters to remove oil and particles as small as 0.01 microns.
Also known as coalescing filters, these filter elements fit in SMC modular compressed air filters to remove oil and particles as small as 0.01 microns.
Also known as coalescing filters, these filter elements fit in ASCO Numatics modular compressed air filters to remove oil and particles as small as 0.01 microns.
Also known as coalescing filters, these filter elements fit in Norgren modular compressed air filters to remove oil and particles as small as 0.01 microns.
Also known as coalescing filters, these filter elements fit in ARO modular compressed air filters to remove oil and particles as small as 0.3 microns.
Also known as coalescing filters, these filter elements fit in Parker modular compressed air filters to remove oil and particles as small as 0.01 microns.
Protect small air-powered tools, such as impact wrenches, ratchet wrenches, grinders, and screwdrivers.
A polyurethane bowl provides good chemical resistance for use with synthetic compressor oils and cleaning fluids.
Assembled, inspected, and packaged in a clean environment, these filters come sealed in anti-static double bags.
The housing and bowl are 316 stainless steel to handle extremely corrosive environments such as those in semiconductor, marine, chemical, and paper industries.
Mount these filters to a 35 mm DIN rail with the included brackets.
Use these filters to extend the service life of air-powered tools and then throw them away when you're done.
Use these filters where high water and dirt removal is needed—they have a two-layer filter element made of stainless steel wire mesh and cotton/polyester packing.
Extend the service life of air-powered tools and equipment by removing particles and water droplets from compressed air.
An automatic drain discharges up to 300 gallons per hour to handle compressed air with high moisture content.
Get two stages of filtration—the first stage removes most particles and water droplets; the second captures any remaining particles and water droplets down to 5 microns.
Generate clean air for instrumentation and applications with critical air requirements.
Housing and bowl are 304 stainless steel for good corrosion resistance in damp environments.
Often used in medical device manufacturing and food-processing facilities, these filters have a stainless steel element that can be sterilized in an autoclave.
Remove bacteria, viruses, moisture, and other particles from compressed air and gases used in food, pharmaceutical, biotech, and electronics applications.
No need to buy and service two filters—these filters have a single element that removes both large and fine particles.
Use these filters to extend the service life of air-powered tools and equipment and then throw them away when you're done.
Eliminate small traces of oil vapor and its associated odor with these filters and then throw them away when you're done.
Also known as coalescing filters, these filters remove compressor oil to extend the service life of air-powered tools and equipment.
A polyurethane bowl offers good chemical resistance for use with synthetic compressor oils and aggressive cleaning agents.
Housing and bowl are 316 stainless steel to handle extremely corrosive environments and meet NACE (National Association of Corrosion Engineers) specifications.
Use these filters in applications where high-quality air is critical. They remove particles down to 0.003 microns, eliminating small traces of oil vapor and its associated odor.
Designed for use in main lines with high contamination, these filters remove oil to extend the service life of air-powered tools and equipment.
For a longer service life than brass and cast iron valves, these have a durable bronze body.
Often used in wet conditions and harsh environments, these valves have a 316 stainless steel body for excellent corrosion resistance.
A cast iron body absorbs vibration from pressure changes to reduce wear and noise in your pipeline.
Use this valve in light duty water systems with garden hose thread (GHT) connections.
To maintain contaminant-free standards in clean room environments, these valves come cleaned and bagged to Fed. Std. Class 100 and ISO Class 5 clean room standards and have a 316 stainless steel body with a smooth finish to resist dust collection.
These valves automatically reduce a high, variable inlet pressure to a lower, stable outlet pressure.
Thicker walls and a 304 stainless steel seal make these valves tougher than brass pressure-regulating valves.
Prevent changes to your pressure setting—these valves come set at a nonadjustable outlet pressure.
Valves have a brass body and NPT connections.
Often used on dispensers, humidifiers, and fountains, these valves have a 316 stainless steel body that can stand up to deionized water and corrosive conditions.
Change outlet pressure without using a gauge—turn the dial to adjust the outlet pressure in 5 or 10 psi increments.
Rated for more than double the temperature of standard pressure-regulating valves, these can withstand temperatures up to 550° F.
Withstand more than six times the inlet pressure of standard pressure-regulating valves.
For extremely high-pressure applications in tight spots, these valves handle the same inlet pressures as other ultra-high-pressure-regulating valves within a smaller footprint.
Often used for oxygen service and other high-purity applications, these valves are cleaned and bagged to meet CGA G-4.1 standards to prevent contamination.
Excellent performance at low pressures.
Our smallest pressure-regulating valve.
Valves have a brass body.
A 316 stainless steel body provides exceptional corrosion resistance in wet conditions and harsh environments.
Withstand inlet pressures up to 3,500 psi.
Regulate pressure in air and inert gas systems from your instrument panel—these valves have threads below the adjustment knob and come with a panel-mount nut.
For easy panel mounting in your water system, these valves have threads below the adjustment knob and come with a panel-mount nut.
Commonly used for oxygen service and other high-purity applications, these valves come cleaned and bagged to prevent contamination.
Maintain contaminant-free standards in clean room environments. These valves come cleaned and bagged to Fed. Spec. Class 100 and ISO Class 5 clean room standards and have a 316 stainless steel body with a smooth finish to resist dust collection.
These valves automatically reduce a high inlet pressure from compressed gas tanks to a lower, stable outlet pressure.
Often used for pressure-vessel testing and other high-pressure applications, these valves can handle at least seven times the outlet pressure of standard tank-mount pressure-regulating valves.
Designed for nitrogen gas purging in air conditioning, refrigeration, and plumbing systems.
Reduce contaminants in gases used in research sample systems, emission monitoring systems, chromatography, and other high-purity applications. These valves have a 316 stainless steel and brass body with a smooth finish to reduce dust collection and internal components designed to protect the seal and diaphragm from contamination.
Commonly used in TIG welding where gas flow/coverage is a concern.
Flowmeters let you see the gas flow rate from a distance.
Push-to-connect fittings form a low-pressure seal around plastic or soft metal tubing.
Valves have NPT connections.
Compression fittings bite down on hard metal and plastic tubing for a tighter seal than push-to-connect fittings.
Install these valves directly in gas distribution pipelines.
For use with acetylene, hydrogen, methane, propane, or propylene gas.
Designed to reduce contaminants in high-purity applications using hydrogen and methane gas, these valves have a stainless steel and brass body with a smooth finish to reduce dust collection and internal components designed to protect the seal and diaphragm from contamination.
These valves meet NSF/ANSI 61 for use in drinking water systems.
It's like getting four regulators in one—each comes with four springs so you can change between regulating pressure ranges of 2-30, 10-50, 30-90, and 100-180 psi.
Regulate air, gas, and liquid pressure on food, beverage, and pharmaceutical lines with these valves—they’re 3-A certified to meet sanitary design standards.
A plastic body and fluoroelastomer seal stand up to harsh chemicals.
Body is cast iron.
For a longer service life than cast iron valves, these have a durable bronze body.
Designed for oxygen service and other high-purity applications, these valves can withstand the extreme cold of liquid argon, liquid carbon dioxide, liquid nitrogen, and liquid oxygen.
For a longer service life than standard valves for cryogenic liquids, these have a durable bronze body. They’re for use with liquid argon, liquid carbon dioxide, liquid nitrogen, and liquid oxygen.
Choose from valves for liquid argon, liquid nitrogen, liquid carbon dioxide, or liquid oxygen tanks.
Control steam line pressure with ±1 psi accuracy.
Threads below the adjustment knob and an included panel-mount nut allow you to add these valves to your instrument panel.
Use these valves in pipelines.
Designed to meet 3-A sanitary standards, these valves regulate liquid, gas, and air pressure in hygienic zones of food and beverage plants.
These valves have a cast iron body.
For a longer service than cast iron valves, these have a durable bronze body and a 303 stainless steel seal.
Change set pressure to suit your application—this valve includes four interchangeable color-coded springs with different set pressure ranges.
These valves have a bronze body for durability and a long service life. All meet ASME Code Section VIII for use with air and inert gas pressure vessels.
Commonly used with high-volume blowers, compressors, and air-powered conveyors, these valves quickly relieve a large amount of air in systems with a pipe size of 2 or greater. All meet ASME Code Section VIII for use with air and inert gas pressure vessels.
Commonly used with high-volume blowers, compressors, and air-powered conveyors, these valves quickly relieve a large amount of air in systems with a pipe size of 2 or greater.
With a 316 stainless steel body for exceptional corrosion resistance, these valves are often used in wet conditions and harsh environments. All meet ASME Code Section VIII for use with air and inert gas pressure vessels.
Body is brass or nickel-plated brass. All meet ASME Code Section VIII for use with air and inert gas pressure vessels.
For corrosion resistance in wet conditions and harsh environments, these valves have a 303 stainless steel body. All meet ASME Code Section VIII for use with air and inert gas pressure vessels.
The most basic option for air and inert gas applications.
Protect your water-heating system with these valves that meet ASME Code Section IV for hot water heaters and boilers.
Our only valves that meet ASME Code Section VIII for use with cryogenic pressure vessels. They are for use with argon, carbon dioxide, helium, hydrogen, methane, nitrogen, and oxygen.
Also known as T & P valves, these open when water temperature reaches 210° F or at the set pressure.
Use these valves with liquid argon, liquid nitrogen, and liquid oxygen.
These valves meet ASME Code Section VIII for use with water pressure vessels.
Choose these valves for small steam-heating boilers requiring pressure relief between 5 psi and 12 psi.
For use with low-pressure steam-heating boilers requiring pressure relief at 15 psi, these valves meet ASME Code Section IV.
These valves meet ASME Code Section I for use with steam power boilers requiring pressure relief above 15 psi.
For a low-pressure seal around plastic and soft metal tubing, these valves have push-to-connect fittings.
Less than a quarter of the height of standard pressure-relief valves, these are often installed on tanks in low-clearance areas.
These valves are often used in hydraulic and lubrication systems.
Design a valve specifically for your process media and set pressure. Choose from a valve for air, inert gas, water, hydraulic oil, fuel oil, gasoline, or diesel fuel and a set pressure.
These valves are often used with catalysts, pH buffers, and electroplating solutions.
A finely threaded adjustment screw lets you make precise set pressure adjustments.
Cleaned and bagged for oxygen service and other high-purity applications, these valves are built to withstand the extreme cold of liquid carbon dioxide, liquid nitrogen, and liquid oxygen.
With a three-port design, these valves allow inline flow from the inlet to the outlet during normal conditions and divert flow through the relief port in overpressure conditions. They are often used with feed pumps for fertilizers and bleach.
These valves are commonly used with pumps in low-pressure water systems.
To gradually relieve pressure in lines for diesel fuel, fuel oil, gasoline, and kerosene, these valves begin opening at the set pressure and fully open at about 10% over the set pressure.
Change set pressure without guesswork—the adjustment screw is marked in 25 psi increments for making pressure adjustments without a gauge.
Alter the set pressure to suit your application.
A lighter and more corrosion-resistant alternative to metal vacuum-regulating valves.
Regulate vacuum levels from your instrument panel with these valves that have threads below the adjustment handle and a panel-mount nut.
For precise control over your vacuum level, these valves have ±0.1% accuracy.
For a longer service life than brass vacuum-regulating valves, these are made of bronze for strength and durability.
These valves have a brass body.
The pressure setting on these valves cannot be adjusted while they are installed.
An external nut lets you adjust the pressure without disassembling the valve.
To set the pressure, unscrew the cap and turn the adjusting screw.
When input pressure varies, use these valves to maintain a consistent pressure.
Maintain a fixed flow rate even if pressure changes in the system.
Set your flow rate and then adjust it as necessary; these valves maintain flow rate despite pressure changes in the system.
A tapered needle gives you more precise control than standard flow-adjustment inline hydraulic valves.
Adjust the flow rate as needed.
Set a specific pressure and these valves will maintain it.
These valves maintain a consistent pressure in a system when input pressure varies.
Set a specific pressure and these valves will maintain it by diverting excess fluid to a tank.
Turn the knob to gradually adjust the amount of flow.
Integral shutoff valves isolate flow for inline maintenance, and a top-entry cover provides easy access to internal components.
Attach these valves with NPT connections to threaded pipe.
Solder these valves to copper tubing for a permanent, leak-tight connection.
No need to vent your plumbing to the outdoors—these valves allow air into your drain, waste, and vent system.
Prevent knocking noises from water pipes.