SU890370A1 - Gas pressure regulator - Google Patents

Description

(5) GAS PRESSURE REGULATOR

The invention relates to automation and can be used in those parts of the industry where direct pressure regulators are necessary, operating without the use of an external source, energy, and intended to lower the gas pressure to a predetermined value and maintain it constant. A pressure regulator is known, comprising two successively connected bodies with inlet and outlet pipes, each of which has a sensing element connected to a regulator, with an additional sensing element installed in the first case connected through a spring and an emphasis to the regulator and forming in the housing there is a control cavity connected to the outlet of the second housing D. Such a regulator is complicated and time consuming to manufacture, since it consists of two regulators. The closest technical solution to the present invention is a direct-action gas pressure regulator, in which a sensitive element with a large effective area is used in combination with an anti-oscillation device. The pressure regulator has a housing, inlet and outlet chambers, a spring-loaded throttling valve associated with a sensitive element of a large effective area, a pressure unit and a movable barrier (spring-loaded ball) in the channel between the cavity outlet and the cavity of the sensitive element. In this controller, the movable obstacle (spring-loaded ball) is designed to eliminate self-oscillations that are characteristic of regulators with one sensitive element of a large effective area G2.

However, during transient processes in the system, the output pressure deviates from the setpoint, as the move 1 {on the obstacle, not connected with the throttling valve, moves, working on the correction impulse into the cavity of the sensing element, only after the output pressure changes. This reduces the accuracy of maintaining the output pressure during transients in the system.

The purpose of the invention is to simplify and improve the accuracy of the regulator.

This goal is achieved by regulating the body in the pressure regulator, the housing with the axio and output chambers and the positon in it, connected through the rod to the sensing element forming the control cavity between the chamber and The output chamber has a valve connected to iUTOKOi-i, the regulating valve is normally open and the valve is normally closed. This makes it possible to correct the pneumatic connection between the output and the measurement and the camera of the sensitive element, depending on the regulatory frequency - the throttling valve, which provides stable support; | i in output1- ogo (regulated dsBlenir, k.ac when set up (they, , so ii during transients in ciiCTeiie,

The drawing shows the regulator of the gas, the general view

The regulator has a housing I with inlet 2 and in the water chamber 3, a sensing element ((diaphragm) controlling the cavity 5 of the sensing element, pressure setting unit 6, spring-loaded (throttling) regulating member 7, moving the stem 8 of the sensing element, and valve 9. To protect the sensitive element from exposure to high pressure (in emergency modes), a safety valve (not shown) can be inserted into the cavity of the sensitive element 5.

The regulator works as follows.

The gas from the inlet chamber 2, passing through the regulator 7, enters the outlet chamber 3 and through the valve 9 into the cavity 5 of the sensing element. In this case, the sensitive element k is in equilibrium, since the force created on it is balanced by force from the pressure setting device 6, and the position of the regulator 7 is determined by the load (flow). When the load changes, the regulator 7 takes a new position, ensuring weekend maintenance

the pressure set by the setting device 6. Since the regulator 7 and the valve 9 are interconnected, the speed of movement of the regulator 7 depends on the transition time

the process in the system, and from the corrective action of the valve 9 on the pneumatic connection between the output chamber 3 and the cavity 5 of the sensing element, this ensures the stability of maintaining the output (controlled) pressure.

The use of the proposed regulator allows you to stably maintain the pressure in the systems in different operating modes, and simplifying the design increases the reliability of operation of both the regulators and the systems where they are installed. Stable maintenance of pressure by the regulator allows its use in place of more complex and expensive regulators, including regulators operating with the use of extraneous energy sources.

Claims (2)

1. USSR author's certificate If 598037, cl. G 05 D 16/06, 1975. 2. US patent N 3251376, cl. publish 197 (prototype)