RMG 370 Gas pressure regulator

RMG 370 gas pressure regulator is built on a specific spring that when the ambient temperature reaches the memory temperature of the metal reaction, the spring is extended lengthwise. The resulting high pressure pushes the ball out of the snap-on pin through the push rod. The conical locking organ is set loose and forced into the locking role between the valve seat and the stable abutment by the strength of the locking mechanism. This model ensures a secure closure. The closing body uses a component with a thermal expansion index higher than the case product. This strengthens the closing properties with a further increase in temperature which helps to ensure a secure closure.
RMG 370, If required, an external proximity switch can be placed to close the remote electrical indicator of the SSV valve position. The actuator detects the output pressure to be controlled via the SSV column. The calculating diaphragm calculates the pd outlet stress and applies it to the pdso and pdsu reference values displayed on the corresponding control units. Measuring diaphragm and moving of the bush to the top (or lower) release position as soon as the tension in the outlet tube reaches the release of the overpressure (or subpressure, depending on the version). The ball structure activates the turning pin. And the SSV incident is going to close down.
If you need a different model other than those listed, please contact us at info@controlssupplychain.com.
370 DN 25 l DN 50 l DN 80 l DN 100 l DN 150

SKU: b30a44e1645d Category: Tag:



RMG 370 Gas pressure regulator

The re-engagement of RMG 370 with SSV is only feasible by the back. Begin as follows: unscrew your actuator hat. Flip the cap off and place it on the rod. Use it to move the turning rod back and close the closing mechanism. An open-claw wrench can now be applied to the body-projected valve cap shaft and the SSV valve can be turned back in an open position. Nevertheless, the following criteria must be followed before the turning rodis re-engaged. The plant must be shut down in order to reduce or increase the pressure to be monitored by a certain value. (Minimal deviation of the release pressure from normal operating conditions)



    • Over 50 years of industry knowledge
    • Fast customer service; response within 15 minutes
    • Best price quality ratio
    • We facilitate the total procurement, purchase and engineering process of our customers