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Control these valves with one hand. Also known as 4/2 valves, they create two actions, such as extending and then retracting a double-acting cylinder.
Since both hands are required to simultaneously press the buttons, these valves protect workers from accidental machinery start-up. They create two actions, such as extending and then retracting a double-acting cylinder.
These valves close all ports in the off position to stop equipment in a locked position with air pressure holding it in place. Also known as 4/3 closed-center valves, they create two actions, such as extracting and then retracting a double-acting cylinder.
In the off position, these valves exhaust all air pressure, allowing the equipment to return to the neutral position. Also known as 4/3 exhaust-center valves, they create two actions, such as extracting and then retracting a double-acting cylinder.
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 4-way and 5/2 valves.
Because they require a key to operate, you can limit who is able to adjust these valves. 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. Also known as 4-way and 5/2 valves.
These valves close all ports in the off position to stop equipment in a locked position with air pressure holding it in place. 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. Also known as 4-way and 5/3 closed center valves.
In the off position, these valves exhaust all air pressure, allowing the equipment to return to the neutral position. 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. Also known as 4-way and 5/3 exhaust center valves.
Create one action with these valves, such as extending a cylinder.
The push buttons that operate these valves are separate from the logic unit, allowing you to position them away from machinery. Since both hands are required to simultaneously press the buttons, they protect workers from accidental machinery start-up. They create one action, such as extending a cylinder.
Since both hands are required to simultaneously press the buttons, these valves protect workers from accidental machinery start-up. They create one action, such as extending a cylinder.
Control six different outputs from a single source of airflow. These valves have one inlet port and six outlet ports. Push in and rotate the dial to move between outlet ports and send airflow to a different output.
To prevent accidental start-up, these valves can be locked in their off position with a padlock. They create one action, such as extending a cylinder.
Because they require a key to operate, you can limit who is able to adjust these valves. They create one action, such as extending a cylinder.
Also known as 4-way and 5/3 pressure center valves, these valves create two actions at the same time, such as extending two single-acting cylinders at once.
A simple automation solution that requires no programming, these valves are activated when an object, such as a box rolling on a conveyor, pushes the actuator. They create one action, such as extending a cylinder. Also known as 3-way and 3/2 valves.
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. They activate when an object, such as a box rolling on a conveyor, pushes the actuator. Also known as 4-way and 5/2 valves.
Also known as 4-way and 5/2 valves, these valves create two actions, such as extending and then retracting a double-acting cylinder. 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.
Run through equipment cycles up to 30% faster than with standard valves. These valves shift between flow positions in 1.7 ms. 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.
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.
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 through equipment cycles up to 30% faster than with standard valves. Also known as 3/2 valves, they create one action, such as extending a cylinder. Apply voltage to the electrical connection to actuate.
Also known as 3/3 valves, these valves close all ports in the off position to stop equipment in a locked position with air pressure holding it in place. They're often used for vacuum suction and release applications and intermediate cylinder stops.
Create two actions at the same time, such as extending two single-acting cylinders at once. Apply voltage to the electrical connection to actuate. Also known as pressure center valves.
Ceramic plates form a longer-lasting seal against oil and dust than rubber seals that deteriorate over time. These valves withstand use in corrosive, dusty, and dirty environments such as foundries, paper mills, and steel plants. Apply voltage to the electrical connection to actuate.
With two 3-way integrated solenoid valves, these electrically controlled valves direct airflow to end-of-arm tools that don’t require vacuum suction, such as pick-and-place grippers. Also known as 3/2 valves, each of the two solenoid valves directs air to a different port.
Use a single valve to create motion and control the speed of that motion.
These valves are rated for environments where hazardous material is present. They actuate when voltage is applied to the electrical connection.
Rated IP69K, these valves withstand high-pressure, high-temperature washdowns. Their smooth design keeps out dust, dirt, and contaminants, making them easier to keep clean. Apply voltage to the electrical connection to actuate.
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. Also known as pilot valves and 4-way valves, they use an air signal to actuate, so they're good for environments where electrical use may be dangerous.
In the off position, these valves 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. They actuate by air signal, so they're good for environments where electrical use may be dangerous.
These valves create one action, such as extending a cylinder. Also known as 3/2 or pilot valves, they use an air signal to actuate, so they're good for environments where electrical use may be dangerous.
These valves create one action, such as extending a cylinder. Use your foot to operate them, leaving your hands free to perform other tasks. Also known as 3-way or 3/2 valves.
Also known as 4-way and 4/2 valves, these valves create two actions, such as extending and then retracting a cylinder. Use your foot to operate them, leaving your hands free to perform other tasks.
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. Use your foot to operate them, leaving your hands free to perform other tasks. Also known as 4-way and 5/2 valves.
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.
Also known as shuttle valves and "or" valves, these valves select between the higher of two inlet pressures to power one outlet port.
Air pressure must be supplied to both inlets before the output port will open, allowing air flow to downstream components. Also known as "and" valves.
Mount these valves directly to cylinder ports, eliminating additional tubing between the cylinder and valve for better control than inline valves. They control the speed of air-powered equipment by adjusting the volume of airflow.
Designed to be mounted inline, these valves can be installed in an easy-to-reach location along your line. They control the speed of air-powered equipment by adjusting the volume of airflow.
A swiveling outlet port on these valves makes connections from any direction. They control the speed of air-powered equipment by adjusting the volume of airflow.
A fine-adjustment dial allows tighter control of airflow and cylinder speed than other flow control valves. They control the speed of air-powered equipment by adjusting the volume of airflow entering or exiting.
Prevent accidental airflow changes with these valves, which require an adjustment tool to alter their flow rate. They control the speed of air-powered equipment by adjusting the volume of airflow.
A numeric indicator provides a relative measure of airflow, similar to the volume dial on a speaker, so it's easy to set the same flow rate with each use. Mount them directly to cylinder ports, eliminating additional tubing between the cylinder and valve for better control than inline valves. They control the speed of air-powered equipment by adjusting the volume of airflow.
Designed to be mounted inline, these valves can be placed in an easy-to-reach location along your line to control the speed of air-powered equipment by adjusting the volume of airflow. A numeric indicator provides a relative measure of airflow, similar to the volume dial on a speaker, so it's easy to set the same flow rate with each use.
Mount these valves directly to cylinder ports, eliminating additional tubing between the cylinder and valve for better control than inline valves. Made of plastic and stainless steel parts, they have excellent corrosion resistance. They control the speed of air-powered equipment by adjusting the volume of airflow.
Designed to be mounted inline, these valves can be placed in easy-to-reach locations. Made of plastic and stainless steel parts, they have excellent corrosion resistance. They control the speed of air-powered equipment by adjusting the volume of airflow.
These valves handle pressure up to 265 psi. They control the speed of air-powered equipment by adjusting the volume of airflow entering or exiting.
Independently control the speed of airflow in two directions. These valves regulate the speed of airflow as it enters or exits equipment, and are often used to control the extension and retraction speed of an air cylinder at the same time.
Adjust airflow equally in both directions. These valves regulate the speed of airflow as it enters and exits equipment. They're often used to control the extension and retraction speed of an air cylinder at the same time.
Made of PBT, these plastic valves are more corrosion resistant than valves made of aluminum or nylon. A single dial adjusts airflow equally in both directions, controlling the extension and retraction speed of an air cylinder at the same time.
Protect air-powered equipment in emergency shut-off situations—when system pressure drops, these valves automatically close to stop cylinder motion, even at mid-stroke. They control the speed of air-powered equipment by adjusting the volume of airflow entering or exiting.
Prevent damage to your equipment by limiting startup airflow and then gradually raising the airflow rate to operating levels.
Also known as blocking valves, these valves allow airflow while an air signal is applied to the air pilot. When the signal stops, the valve closes, trapping air in the system.
Slide the knurled sleeve in one direction to stop flow, and slide it back to start flow again.
A padlock locks the handle of these valves in the shut-off position so you can disconnect air tools safely.
These valves have a muffler to reduce exhaust noise. A padlock locks the handle in the shut-off position so you can disconnect air tools safely.
Control flow in two directions from a single source—these valves have two balls for independent control and shut-off of each outlet.
Turn airflow on and off with your foot to keep your hands free to perform other tasks.
With two 2-way integrated solenoid valves, these electrically controlled valves direct airflow to venturi pumps, which generate the suction you need to run end-of-arm tools, such as vacuum cups.
Also known as solenoid valves, these valves are operated by an electrical signal to turn airflow on or off.
When system pressure reaches the maximum, these valves open and send an air signal to turn on a downstream device such as a discharge valve or throttle. They close and send a signal to turn the device off when pressure drops.
Also known as air fuses, these valves close automatically to turn airflow off when air volume exceeds the shut-off flow rate.
Control the flow of exhaust air while also regulating the exhaust air speed. These valves dump exhaust air to the atmosphere without routing it back through a directional control valve. The 90° elbow shape allows you to install them in tight spaces. Also known as quick exhaust valves.
Quickly vent exhaust air to the atmosphere or divert it to another place in your system to speed up the movement of equipment. The 90° elbow shape allows you to install them in tight spaces. Also known as quick exhaust valves.
Quickly dump exhaust air to the atmosphere without routing it back through a directional control valve to speed up the movement of equipment. Also known as quick exhaust valves.
A muffler reduces exhaust noise. Valves allow airflow into your equipment and then quickly dump exhaust air to the atmosphere without routing it back through a directional control valve to speed up the movement of equipment. Also known as quick exhaust valves.
Install these valves in the exhaust ports of air directional control valves to control exhaust air speed without needing access to your cylinder.
Choose the pressure range you need. When these valves receive an air signal, they quickly dump exhaust air to the atmosphere without routing it back through a directional control valve to speed up the movement of equipment. They're often used with air compressors that require continuous operation. Also known as quick exhaust valves.
These valves open to allow flow in one direction and close when flow stops or reverses direction.
Prevent air from escaping an air storage tank when the air compressor is not running. These valves open to allow flow into the tank and close when flow stops or reverses direction.
Designed for use in dust-collection systems, these diaphragm valves periodically burst air to knock debris from filters.
Convert a continuous stream of air into a series of quick pulses, reducing air consumption by up to 50% and improving performance in air-blowing applications such as cleaning and drying.
Designed for control applications that require high reliability and repeatability, these regulators translate electrical signals to output pressure.
Mount these regulators to a 35 mm DIN rail with the included bracket.
View and control output pressure remotely and at the source.
Keep an eye on the output pressure in high-flow applications—these regulators have a display so you can monitor your application locally.
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.
At ±0.1% accuracy, use these regulators in sensitive applications where constant, consistent pressure is important.
Mount these regulators to a 35 mm DIN rail or a wall with one of the two included brackets.
A pressure-calibrated dial allows for easy adjustments to outlet pressure in high-flow applications.
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.
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.
Use these regulators to adjust and maintain the pressure of your tubing air lines.
No need to worry about unintentional changes to your pressure setting—these regulators maintain a fixed outlet pressure.
Mount these regulators to a 35 mm DIN rail with the included brackets.
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.
A 316 stainless steel housing allows these regulators to withstand corrosive environments in the semiconductor, marine, chemical, instrumentation, and paper industries.
Designed for installation directly to your air-powered tool, these regulators maintain the set air pressure.
An internal check valve permits reverse flow, so these regulators work with double-acting cylinders.
Prevent unauthorized adjustment and unintentional pressure changes with these regulators.
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.
Prevent accidental start-up when servicing equipment.
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.
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.
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.
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.
Also known as Monday-morning valves, these valves slowly introduce pressure to reduce surge damage during start-up.
Filter and lubricator in one, these filter/lubricators provide clean, lubricated compressed air to extend the service life of tools and equipment.
Replace the filter element in your SMC modular compressed air filter to trap solid particles and water droplets as small as 5 microns.
Extend the service life of air-powered tools and equipment by removing particles and water droplets from compressed air.
Rods along the barrel of these cylinders secure the end caps and shield the barrel from impact.
Get the power and stroke of other tie rod cylinders in less than half the space.
Cylinders have two parallel piston rods that prevent twisting as they extend and retract.
These cylinders have self-adjusting cushions that automatically compensate for changes in load and speed.
Made with an NFPA industry standard footprint and a stainless steel body, these cylinders are easily interchanged with the most common mounting footprint and withstand chemicals, corrosive solutions, and washdowns.
An extruded-aluminum body means these cylinders have no open spaces for debris to collect.
Made to fit the most common mounting footprint, these cylinders have an NFPA (National Fluid Power Association) industry-standard footprint, ensuring easy interchangeability.
Unlike other air cylinders that push and pull one object, these double-ended cylinders push one object while pulling another.
These cylinders thread directly into your equipment, taking minimal space.
Clamp items in place to complete a step in your manufacturing process.
Keep tools from twisting while moving them back and forth.
At less than two inches in length, these cylinders actuate small devices in spots where other cylinders don’t fit.
Also known as air clamps, these cylinders are used to apply force in holding applications.
More basic and cost effective than double-acting cylinders, these single-acting cylinders exert force in one direction and have a spring to return the rod to its original position.
Move loads between three positions instead of two.
Also known as pancake cylinders, these deliver as much force as other cylinders, but with a shorter stroke to function in small spaces.
Push and pull light duty loads. These air cylinders use compressed air to both extend and retract, so they operate at nearly full force in either direction.
Able to resist corrosive solutions and chemical environments, these cylinders withstand washdown conditions.
Built to withstand hard knocks, these cylinders have a thick barrel wall for more durability than standard air cylinders.
Convenient for use with devices such as grippers and printing heads, these air slides have a nonrotating head that provides steady motion and a larger mounting area than air cylinders.
With no external moving parts, these air slides provide a long stroke, but have a static footprint—only the carriage on top moves.
Move grippers, printing heads, and other devices in areas constantly exposed to dust and powders as fine as flour.
Prevent sudden drops while raising and lowering grippers and other pick-and-place equipment.
Move heavy loads back and forth—these air slides have over twice the capacity as standard rodless ones. They are often used for high-volume diverting and sorting.
Prevent dust and fine particles from contaminating your clean room or damaging sensitive electronics while moving grippers and other pick-and-place equipment.
Push one object while pulling another—when one head on these air slides extends, the other retracts.
For flexibility with your setup, mount equipment on top or in front of these air slides. Mount on top to reduce the space you need to move a full stroke length.
Modify the stroke length on these air slides to meet changing application requirements—slides have adjustable shaft collars on the guide rods that you can move to fine-tune the stroke length.
Move optical equipment and other electronics sensitive to dust and fine particles from a range of mounting positions.
Combine the lifting power of a vacuum with the actuation of an air cylinder to automate processes such as pick and place. With a hollow rod that’s threaded to connect to a vacuum pad, these cylinders let you move items with suction.
Mount these cylinders directly to equipment in environments where contamination is a concern, such as electronics manufacturing.
Threaded through-holes in each corner allow you to mount these cylinders directly to equipment or mount with attachments.
Control the movement of loads on your conveyor—the rod on these air cylinders extends to stop loads and retracts to let them pass.
Space out parts on your conveyor line or vibratory feeder. Also known as escapements, these air cylinders have at least one finger that extends to hold parts and then retracts to release them.
When you want to control the angle of your shaft’s rotation and are tight on space, choose these rotary air actuators.
Turn the adjustment bolt on these actuators to set the rotation you need for your application.
Designed to turn heavy loads, these rotary air actuators have rack-and-pinion gears that provide high torque output.
Use rotary motion to drive devices in tight spaces.
Also known as Schrader valves, these valves rapidly fill or empty compressed air tanks or pneumatic tires.
Add air and hydraulic fluid to high-pressure struts, tanks, and hydraulic accumulators—these fill valves withstand pressures up to 5,000 psi.
Monitor the flow rate of air and other gases from your instrument panel—these flowmeters have fittings on the back for panel mounting.
A case protects these flowmeters from blows and other impact as they measure the flow rate of gas. Install them in instrument panels using the fittings on the back.
Instead of a scale calibrated to a specific gas’ flow rate, these flowmeters measure in millimeters and include a conversion chart, so you can check the flow rate of water and multiple gases without any calculations.
Measure the flow rate of gases in applications where pressure fluctuates, such as compressed air systems.
Instead of a scale, these flowmeters have a large dial that makes it easy to read the flow rate of your gas from a distance.
Designed for air and other gases, these flowmeters measure the rate at which they're moving through your pipes.
A 304 stainless steel case protects these flowmeters from blows that could shatter the glass body.
Install these flowmeters securely into large pipelines with the flanged ends.
Commonly referred to as thermal mass flowmeters, these transmitters calculate flow rate by measuring how much they cool as air and other gases pass through them. This means they’re accurate even if there are temperature and pressure changes, unlike most other transmitters.
Measure and transmit flow rate, pressure, and temperature of industrial gases, such as air, argon, CO2, and nitrogen, flowing through your system.
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.
A plastic body and fluoroelastomer seal stand up to harsh chemicals.
Prevent changes to your pressure setting—these valves come set at a nonadjustable outlet pressure.
Withstand more than six times the inlet pressure of standard pressure-regulating valves.
Rated for more than double the temperature of standard pressure-regulating valves, these can withstand temperatures up to 550° F.
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.
Thicker walls and a 304 stainless steel seal make these valves tougher than brass pressure-regulating valves.
Often used in wet conditions and harsh environments, these valves have a 316 stainless steel body for excellent corrosion resistance.
These valves automatically reduce a high, variable inlet pressure to a lower, stable outlet pressure.
A cast iron body absorbs vibration from pressure changes to reduce wear and noise in your pipeline.
For a longer service life than brass and cast iron valves, these have a durable bronze body.
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.
Our smallest pressure-regulating valve.
Commonly used for oxygen service and other high-purity applications, these valves come cleaned and bagged to prevent contamination.
For easy panel mounting in your water system, these valves have threads below the adjustment knob and come with a panel-mount nut.
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.
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.
A 316 stainless steel body provides exceptional corrosion resistance in wet conditions and harsh environments.
Valves have a brass body.
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.
Attach these actuators to manual ball valves, butterfly valves, and plug valves with an ISO 5211 hole pattern to automatically start and stop flow with compressed air.
Instead of disassembling your system for inline installation, thread these flow switches onto a mounting adapter and insert them into a pipe tee or pipe outlet. They send digital signals to your programmable logic controller (PLC) to activate automated controls or alarms when they reach a set flow rate.
Reduce your pipeline footprint with these low-profile valves that are about half the size of standard valves for coolant.
Sturdy internal components resist wear for a long service life in applications with frequent cycling.
Less than half the size of our other compact valves, these have small pipe connections for miniature lines.
Designed for controlling single-acting, spring-return air cylinders, these valves have a third threaded port to exhaust media.
Control flow in two directions from a single source—these valves have two handles for independent operation of each outlet. Use them with water, oil, and inert gas.
With a probe on a cord, these meters access hard-to-reach places in duct.
Automate stopping loads on a conveyor—the rod on these cylinders extends to stop loads and retracts to let them pass.
Also known as tension and traction gas springs, these work in the opposite direction of other gas springs. Similar to a screen door closing, they're used to assist in closing covers, hoods, and doors.
Automatically locking when fully extended and made of 316 stainless steel to resist corrosion, these gas springs protect material and equipment underneath heavy loads in damp environments.
Ensure you have the correct force for your application. These gas springs have a bleed valve so you can release gas to permanently reduce the force to meet your requirements.
Pair one of these gas springs with a release control to stop and release the gas spring anywhere along the stroke with the push of a button or lever.
Release gas from these springs until they supply the exact force you need—made of corrosion-resistant 316 stainless steel, they’re commonly used in wet environments.
Color coded by force to help you choose the correct replacement, these gas springs generate high force.
Protect material and equipment underneath heavy loads—these gas springs lock automatically when fully extended, ensuring they can't be closed until it's safe to do so.
Often used to replace coil springs in metal stamping and die-spring applications, these gas springs match the diameter and stroke length of coil die springs but offer much more force.
Mechanical operation means these springs have no seals to fail or gas to leak.
These gas springs have threaded ends so you can use them with any combination of end fittings, studs, and mounting brackets.
A temperature-resistant seal allows these gas springs to withstand heat up to 392°F.
Made from stainless steel for excellent corrosion resistance in damp environments. These gas springs have a bleed valve so you can release gas to permanently reduce the force to meet your requirements.
Stainless steel construction provides corrosion resistance for use in damp environments.
Made from stainless steel for excellent corrosion resistance in damp environments.
Often used to open lids, covers, windows, conveyors, and seats, these gas springs function similar to a hatchback opening on a car. They have an eyelet end fitting on each end.
With no gas to leak out and a corrosion-resistant 316 stainless steel construction, these mechanical springs are built for long-term, maintenance-free use in wet environments.
These general purpose gas springs assist in opening lids, covers, windows, conveyors, and seats—similar to a hatchback opening on a car.
Mount using the holes in the base.
Screw these clamps directly into a tapped hole in a fixture.
These brackets secure eyelet end fittings from both sides to provide a strong hold on gas springs that get bumped or jostled. Mount on any panel, lid, or door.
Attach eyelet end fittings to these brackets to mount gas springs.