Precision Vacuum Regulators for Accuracy and Precision | Equilibar

Precision Vacuum Regulators for Lower Flow Rates

High Resolution and Accuracy for Piping Sizes 1/4" to 1"

Equilibar precision vacuum regulators (EVR) are designed specifically to control a highly stable inlet pressure across widely varying input conditions. The EVR maintains tight control despite variation in supply vacuum or changes in flow rate. Equilibar precision vacuum regulators work differently than traditional vacuum control valve designs. They use a flexible diaphragm as the only moving part. This diaphragm is used to directly seal against the internal valve orifices, eliminating the “stiction” commonly found in traditional vacuum control valves that rely on dynamic O-ring or wiper type seals. The Equilibar design is frictionless and can control vacuum with very high resolution. Learn more about how they work.

Equilibar lower flow precision vacuum regulators are available in sizes ranging from 1/4″ to 1″ with material options of stainless steel 316/316L, anodized aluminum or PVC depending on the application requirements for temperature and chemical resistance. Each EVR is delivered with a manual pilot setpoint regulator for convenient knob adjustment.

 

Precision Vacuum Regulators

1/2″ EVR-GDS4 with Manual Pilot Setpoint Adjuster

Information about lower flow EVR series options is detailed below. Contact an applications engineer for more assistance.

Drawing of a precision vacuum regulator

Metal Vacuum Regulator Details

Model Inlet / Outlet Port
inch (DN)
Reference Port Std. Body Materials Diameter (Dim A) Height* (Dim B) Cv Range (Precision) Available End Fittings
inch (mm) Min Max Std Available
EVR-GSD2 ¼” (8) 1/8″ SS316 (SS) Anodized Aluminum (AA) 3.0 (76) 1.3 (33) 1E-3 1.2 NPT Vacuum Flange BSPP; SAE
EVR-GSD3 3/8″ (10) 3.5 (89) 1.4 (36) 1E-3 1.8
EVR-GSD4 ½” (15) 4.5 (114) 1.6 (41) 1E-3 3.2
EVR-GSD6 ¾” (20) 6 (152) 2.0 (51) 1E-2 5.5
EVR-GSD8 1″ (25) 7 (178) 2.6 (66) 1E-2 8.5
*Height does not include 3″ manual set point regulator.

PVC Vacuum Regulator Details

Model Inlet / Outlet Port
inch (DN)
Reference Port Std. Body Materials Diameter (Dim A) Height* (Dim B) Cv Range (Precision) Available End Fittings
(inch) Min Max Std Available
EVR-GSD2 ¼” (8) 1/8″ PVC 3.3 (83) 1.5 (38) 1E-3 1.2 NPT Vacuum Flange BSPP; SAE
EVR-GSD3 3/8″ (10) 3.8 (95) 1.6 (41) 1E-3 1.8
EVR-GSD4 ½” (15) 4.8 (121) 1.8 (46) 1E-3 3.2
EVR-GSD6 ¾” (20) 6.3 (159) 2.3 (57) 1E-2 5.5
EVR-GSD8 1″ (25) 7.3 (184) 2.9 (74) 1E-2 8.5
*Height does not include 3″ manual set point regulator.

Other Equilibar Vacuum Control Products:

image of equilibar high precision vacuum regulator EVR with mechanical pilotHigh Precision Vacuum Regulators 1/4" to 1" 0 - 30 inHg / 762 mm Hg
image of Equilibar High Flow Vacuum Regulator with mechanical vacuum pilot regulatorHigh Flow Vacuum Valves 1.5" to 4" 0 - 30 inHg / 762 mm Hg
photo of an Equilibar vacuum regulator with electronic pilot regulator for automationElectronic Vacuum Regulators 1/4" to 1" 0 - 30 in Hg / 762 mm Hg
photo of an Equilibar EVR-BD16 with an electronic pilot regulatorLarger Electronic Vacuum Valves 1.5" to 4" 0 - 30 in Hg / 762 mm Hg
photo collage of vacuum pilot regulatorVacuum Pilot Regulators mechanical, electronic and remote sensing

Videos about Precision Vacuum Regulators

This video discusses the difference between a vacuum breaker and a direct vacuum regulator, like the Equilibar. It shows how the Equilibar direct vacuum regulator maintains high accuracy even as the system flow rate varies.

Follow this link to watch a video about vacuum control for high flow rates.

Equilibar News
winter scene with top ten applications

Season’s Greetings! Enjoy Our 2024 Top Ten Applications

The Equilibar team is glad to send warm holiday wishes to our customers and partners around the world. We continue to be thankful for safety during Hurricane Helene and we’re grateful for all the agencies and individuals who are helping Western North Carolina recover. While Equilibar offices will be closed December 25th and 26th as well Read More

Read More