Diaphragm Gauges operate at line pressures to 1,500 psig.
Press Release Summary:
Employing convoluted diaphragms housed in anodized aluminum or 316 SS bodies, Series 1516 detects small changes in differential pressure at high line pressures while eliminating fluid migration between high and low pressure areas. Offered in 2.5-6 in. diameters, units provide differential readings in range of 0-1 to 0-50 psid. Switch and gauge-switch models are supplied with single or dual reed switches mounted in NEMA 4X water- and dust-proof enclosures.
Original Press Release:
Diaphragm Gauges Are Designed To Detect Low Differentials at High Line Pressures
MILFORD, CT - Highly sensitive diaphragm-type gauges from Orange Research are designed to detect small changes in differential pressure at high line pressures while eliminating fluid migration between high and low pressure areas. They are particularly suited for flow measurement when used with orifice plates, venturis and pitot tubes.
Series 1516 gauges employ convoluted diaphragms housed in heavy-duty anodized aluminum or 316 stainless steel bodies for operation at line pressures up to 1500 psig. The 2.5- to 6-inch diameter gauges provide differential pressure readings in the range of 0-1 to 0-50 psid. Switch and gauge-switch models are supplied with single or dual reed switches mounted in NEMA 4X water and dust-proof enclosures.
Displacement of the sensitive elastomeric diaphragm is used to measure small differences in pressure between two points in a system. A magnet attached to the diaphragm activates switches or moves a pointer, indicating the differential pressure on an easy-to-read dial. Buna-N diaphragms and static seals are standard while other materials are also available.
For more information about the Series 1516 diaphragm-type differential pressure gauges for high line pressure applications, visit our website at www.orangeresearch.com.
Orange Research Inc., 140 Cascade Blvd., Milford CT 06460
Toll-free: 800-989-5657, Fax: 203 783-9546
E-mail: info@orangeresearch.com
CONTACT: Jim Gill
