We will reply to your message within an hour.
More
Observe rapidly changing electrical values in equipment such as motors and generators with an analog display that shows the magnitude and rate of change more easily than a digital display.
These are the most commonly used pressure gauges. Use them with pumps, filters, regulators, and in process lines to measure and display pressure.
These gauges fit into square cutouts in your instrument panel.
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 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.
A liquid-filled dial reduces needle flutter for precise readings in high-vibration applications.
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%.
A 304 stainless steel case coupled with 316 stainless steel connection threads provide protection from corrosive environments.
Also known as compound gauges, these measure both pressure and vacuum.
Designed for harsh environments prone to vibration, these gauges pair a corrosion-resistant 304 stainless steel case with a glycerin-filled dial that reduces needle flutter.
Designed for harsh environments prone to vibration, these gauges pair a corrosion-resistant 304 stainless steel case with a glycerin-filled dial to reduce needle flutter.
Use these gauges with vacuum pumps, packaging equipment, and in suction lines to measure and display vacuum.
The case and connection threads are stainless steel for protection in corrosive environments.
Slot these counters into a control or electrical panel cutout.
Keep track of time while counting events.
For mounting on instrument and control panels, these thermometers have a back flange.
Monitor the temperature of difficult-to-access system components from a distance.