SU1300433A1 - Gas pressure regulator - Google Patents

Abstract

And; k1Gfetenis belongs to the system of tomagica that supports the nocTOiiiiiiof gas pressure, which is the pressure factor. The unit contains a field body 3, connected to the membrane by the executive mechanism 6, a command unit 8 connected to the output pat | 2, command 2. The command device 8 contains a camera 12 negative feedback .- The inclusion of a check valve 16 V. Chi) of the connection of the chamber 12 of the negative feedback of the command of the South unit 8 with H1) 1. The inlet 2 allows us to understand the accuracy of the adjustment. .2 and. 1. CO CI CA5 about about 4 CO Oi

Description

This invention relates to automation systems for maintaining constant pressure.

The purpose of the invention is to improve the accuracy of the controller.

FIG. 1 shows the scheme of the proposed controller; in fig. 2 - command device with non-return valve.

The gas pressure regulator contains inlet 1 and outlet 2 nozzles and a regulator 3 mounted between them, connected by a stem 4 with a membrane 5 of the membrane actuator 6. The sub-membrane cavity of the membrane actuator 6 is connected to the outlet 7 of the command device 8 by a pulse tube 9 connected with the outlet nozzle 2. The command device 8 includes a membrane 10 spring-loaded with a spring 11, a negative feedback chamber 12, a throttle seal 13 and a valve 14.

Negative feedback chamber 12 is connected to the outlet nozzle 2 by impulse tube 15; A check valve 16 is connected to this line. The inlet of the command device 8 is connected to the inlet 1 of the impulse pipe 17.

The gas pressure regulator also contains throttles 18. The supermembrane cavity of the membrane actuator 6 is communicated by the impulse pipe 19 to the outlet nozzle 2.

The check valve 16 includes a nut 20 and gaskets 21.

The gas pressure regulator operates as follows.

First, the command device 8 is adjusted to the desired pressure, while the gas from outlet 7 flows through the pulse tube 9 into the submembrane cavity of the command device 8, in which a certain pressure is maintained: some of the gas is discharged into the outlet nozzle 2. The check valve 16 is slightly open and releases gas from the submembrane cavity of the command device through the throttle seal 13. With a sharp increase in pressure in the gas line behind the regulator 3, the check valve 16 closes abruptly, the pressure over the gas mbranoy 10 .nachinaet smoothly rise, diaphragm 10 and valve 14 thus starts to descend, overriding the gas delivery valve 14. The pressure at the outlet 7 is decreased, the pressure above the diaphragm 5 rapidly increases, and the regulator 3 prikryvaets, reducing the output gas pressure. A decrease in the operating pressure at the outlet 7 due to smoothness, low intensity and inertia compensates for the inertia of the regulator 3, without causing a strong pressure deviation in the opposite direction from the original.

Thus, the check valve 16 maintains in the supramembrane cavity of the membrane actuator 6 a certain, with slight deviations, pressure that prevents the occurrence of self-oscillations.

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Claims (1)

Invention Formula A gas pressure regulator containing a regulator installed between the inlet and outlet nozzles connected to the membrane actuator, the supermembrane cavity of which communicates with the outlet nozzle and its submembrane cavity communicates with the output of the command device with a pulse tube connected to the outlet nozzle chamber negative feedback command the instrument is connected to the outlet nipple, and the input of the command device communicates with the inlet connection, characterized in that, in order to increase the accuracy of the controller, it contains a check valve connected to the negative feedback chamber of the command device with the output connection. go fusZ VNIIPIZakaz 827/46 Circulation 864 Subscription Production and Printing Prevention; 1 Company, Uzhgorod, ul. The project. four