We will reply to your message within an hour.
More
These are the most commonly used pressure gauges. Use them with pumps, filters, regulators, and in process lines to measure and display pressure.
The small dial on these gauges allows for installation in tight spaces.
These gauges fit into square cutouts in your instrument panel.
A digital display allows for easy reading of measurements.
Measure small pressure changes in ventilation systems, hydraulic applications, and other critical processes.
Gauges come in a variety of colors so you can identify an important spot in your process line.
A liquid-filled dial reduces needle flutter for precise readings in high-vibration applications.
These gauges have a red needle that indicates the highest pressure reached since the last setting. They have a liquid-filled dial that reduces needle flutter for precise readings in high-vibration applications.
Unlike other gauges that have multiple moving parts that can shake loose, these have only one internal part. They are the most shock-resistant gauges we offer.
The case material and connection threads are stainless steel for protection in corrosive environments, plus the dial is glycerin-filled to reduce needle flutter in high-vibration applications.
These gauges have a unique case design that eliminates the air bubble on the dial face, which can distort readings.
Gauges have an accuracy of ± 1% to ± 1.5%. They are suitable for critical processes that require high accuracy, such as hydraulic and laboratory applications.
Gauges have an accuracy of ± 2%.
These gauges can withstand both extremely cold and extremely hot temperatures.
These gauges have a liquid-filled dial that reduces needle flutter in high-vibration applications reaching 2,000 psi.
Use in low-pressure applications up to 160 psi.
Use in high-pressure applications up to 2,000 psi.
Use these gauges to monitor the pressure of compressed gas.
Often used with chillers and in refrigeration systems, these gauges display the temperature of ammonia relative to the pressure measurement.
A band of green, yellow, and red provides a clear indication of changes in differential pressure.
Also known as manometers, these gauges come with indicating liquid that moves up and down two columns—the difference in height between them is your pressure.
Gauges have a digital display for easy reading of measurements.
Use in high-pressure applications up to 3,000 psi.
Use in medium-pressure applications up to 1,500 psi.
Also known as isolators or diaphragm seals, these protect gauges from corrosive process media.
Keeping corrosive substances from touching pressure gauges used in food-processing and pharmaceutical plants, these guards have a sanitary design.
Unlike other gauges that measure the difference between your system and the atmosphere, these give measurements relative to zero pressure.
Remotely monitor pressure in general purpose applications such as pumping and compressing systems.
Read pressure directly at the source and send data remotely with one device.
Measure your equipment’s pressure and send the data directly to a development board or single-board computer. Also known as transducers, these transmitters convert pressure into an electrical I2C signal and transmit it to your board.
These transmitters automatically compensate for error introduced by vibration as well as temperature fluctuations, so you do not need to program your receiving device to correct for these factors. They convert pressure to an electrical signal that can be interpreted by receiving devices, such as remote displays, programmable logic controllers, and motor speed controls to monitor pressure or control equipment.
Choose these transmitters when you need reliable pressure monitoring but not high accuracy.
At least four times as accurate as standard pressure transmitters, these transmitters are ideal for use in laboratories and analytical testing applications.
With a pressure range common to most compressed air systems, use these transmitters to monitor your system's air pressure.
Remotely track your system's pressure readings from the convenience of a smartphone or tablet. Good for preventative maintenance and route-based monitoring, these battery-powered transmitters use Bluetooth to alert you when equipment requires your attention.
FM approved and CSA certified for use in hazardous locations, these transmitters monitor pressure where combustible fumes may be present.
Safely monitor liquid, gas, and steam pressure in hazardous locations with these transmitters. They meet NEC safety standards, so they protect against an explosion where flammable gases and vapors are present.
The diaphragm on these transmitters mounts flush with your system’s connection, leaving no room for thick liquids to clog or harden. They’re often used to monitor pressure in wastewater, paint, and adhesive-dispensing applications.
Monitor and control pressure in portable HVAC systems, hydraulics, and oil and gas equipment. Unlike other pressure transmitters that measure the difference between your system and the atmosphere, these transmitters give measurements relative to zero pressure—regardless of altitude or temperature.
For use in sanitary applications such as food processing, these transmitters are 3-A certified.
Fine-tune the pressure range on these transmitters to account for changes in pressure readings over time.
Adhere to safety standards and monitor pressure when working with high concentrations of oxygen.
Monitor your system’s pressure and vacuum from a smartphone or tablet via Bluetooth. These battery-powered transmitters send alerts if equipment requires your attention, so they’re good for preventative maintenance and route-based monitoring.
Monitor and control vacuum pumps, air compressors, and hydraulics while viewing readings and warnings on the display.
Convert both pressure and vacuum into an electrical signal that can be interpreted by receiving devices, such as remote displays, programmable logic controllers, and motor speed controls to monitor pressure or control equipment.
Specifically made for compressed air and gas systems, these transmitters remotely monitor pressure and vacuum.
Used in hazardous locations, these transmitters safely convert pressure and vacuum into an electrical signal to measure liquids, gases, and steam. NEC rated for safety, these transmitters are explosion proof, so they can be used in environments containing flammable gases and vapors.
With an accuracy of ±0.25%, use these transmitters in applications that require highly accurate measurement of both pressure and vacuum, such as activating vacuum pumps.
These transmitters automatically compensate for error introduced into both pressure and vacuum measurements by vibrations as well as temperature fluctuations, so you do not need to program corrections for these factors into your receiving device. They convert pressure and vacuum to an electrical signal that can be interpreted by receiving devices, such as remote displays, programmable logic controllers, and motor speed controls to monitor pressure or control equipment.
View readings at the source with the dial indicator or remotely using a receiver—these transmitters measure the difference in pressure between two inputs in liquid applications.
Used with pumps, cooling systems, and other liquid applications, these transmitters remotely measure the difference in pressure between two inputs.
Safe for use in environments where flammable gases and vapors are present, these transmitters measure the difference in pressure between two process lines without needing to program your receiving device to correct for errors. They meet NEC safety standards for protection against an explosion.
At least four times as accurate as standard vacuum transmitters, these transmitters sense vacuum at an accuracy of ±0.25%, making them ideal for use in laboratories and in analytical testing applications.
Designed for compressed air and gas systems, these transmitters remotely monitor vacuum.
Convert vacuum into an electrical signal that can be interpreted by receiving devices, such as remote displays, programmable logic controllers, and motor speed controls to monitor vacuum or control equipment.
Account for changes in vacuum readings over time by fine-tuning the vacuum range on these transmitters.
Test and calibrate transmitters, gauges, and other equipment that measures pressure.
With an accuracy of ±0.05%, these have the highest accuracy of all our test gauges.
Gauges have an accuracy of ±0.25%.
These gauges have a glycerin-filled dial to reduce needle flutter for precise readings in high-vibration applications.
All-stainless steel construction makes these gauges suitable for testing and calibrating in corrosive environments.
With an accuracy of ±0.25%, these gauges are designed for critical processes that require precision.
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.
Often used in wet conditions and harsh environments, these valves have a 316 stainless steel body for excellent corrosion resistance.
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.
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.
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.
Rated for more than double the temperature of standard pressure-regulating valves, these can withstand temperatures up to 550° F.
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.
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.
Flowmeters let you see the gas flow rate from a distance.
Commonly used in TIG welding where gas flow/coverage is a concern.
Designed for nitrogen gas purging in air conditioning, refrigeration, and plumbing systems.
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.
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.
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 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.
Install these valves directly in gas distribution pipelines.
Choose from valves for liquid argon, liquid nitrogen, liquid carbon dioxide, or liquid oxygen tanks.
Use these valves in pipelines.
Threads below the adjustment knob and an included panel-mount nut allow you to add these valves to your instrument panel.
Measure and transmit flow rate, pressure, and temperature of industrial gases, such as air, argon, CO2, and nitrogen, flowing through your system.
These kits include the hose, gauge, and fittings needed to charge an accumulator.