SU1619240A2 - Gas pressure controller - Google Patents

Abstract

The invention of automatic control and use of it in control systems of o-BIIMJI flows. aib and yupreteii - pokgegeiig of accuracy and the dispersion of obpas-1I (the controller file. Regulator of a torch ga zl sotssr / i body 1 with vc2 tanovpenny d) yum sensitive episode J in internal ic system), it is connected to the plate 4, which is connected with the spring 5. The cage contains cannapses 12, and the junction of the spring cavity is sensitive to the element with the supersiphone. The output dream, 7, is written in vutka 6, provided with an end surface, with which the canapes 12 of the truck interact. Nowadays, in the control of gas, the effect of gas is that to increase the reliability and expand the scope of application of the gas pressure regulator in the container. Installing the subroutine} 1y backspan H, the input of which is connected to the subelfion cavity, and its output is connected to and connected to the channel via the napsiphone by means of the regulator. 1 pe. (L

Description

UNION OF SOVIET

Socialist

REPUBLIC

₍₁₉ , sy ₍₁ „1619240 A2 (51) 5 G 05 O 16/06

STATE COMMITTEE

BY INVENTIONS AND DISCOVERIES

AT GNST USSR

DESCRIPTION OF THE INVENTION

N AUTHOR'S CERTIFICATE

(61) 767720 (2 0 468 5289/24 (22) 02.20.89 (46) 07.01.91. Bull. '1 (72) S.N. Garbera, Μ.P. Levitsky, Yu.M. Misevich and G.II. Sokolovsky (53) 621.646.4 (088.8) (56) USSR copyright certificate

I- 767720, cl. G 05 D 16/06, 1978.

(54) GAS PRESSURE REGULATOR (57) The invention relates to automatic control and can be used in gas flow control systems. The purpose of the invention is improving reliability and expanding the field of application of the regulator. The gas pressure regulator comprises a housing 1 with a sensing element 3 installed therein in a vice bellows connected to a plate 4, which is connected to the spring 5. The plate contains channels 12 connecting the spring cavity of the sensor with the suprasylphonic one. The output nozzle 7 is made in the sleeve 6, provided with an end surface with which the channels 12 of the plate interact. New in the gas pressure regulator is that to increase reliability .and expand the scope of the gas pressure regulator, a spring-loaded check valve 13 is installed in the plate, the inlet of which is connected to. by the undersilby cavity, and its outlet is q (the second cavity is connected by channels with the suprasilphonic cavity of the regulator. 1 ill.

The invention ^ relates to automatic regulation, may find application in the development of control equipment for controlling gas flows and is an improvement of the regulator according to ed. St. No. 767720.

The aim of the invention is to increase reliability and expand the scope of the regulator.

The drawing shows a gas pressure regulator.

The gas pressure regulator comprises a housing 1 with an adapter 2 installed in it and connected to a sensing element made in the form of a bellows 3 connected to a plate 4, which is connected to a spring 5. A sleeve 6 with an output 20 is also installed in the housing 1 nozzle 7, the force is adjusted 5 is adjusted by the position of the screw 8 settings, fixed. siruyemy nut 9. In the input cavity of the regulator has a filter 10. Sealing the installation location of the sleeve with 25. the outlet nozzle is provided by a sealing ring 11. The plate contains channels 12 connecting the sub-bellows cavity of the sensing element with the supra-bellows, and a spring-loaded 3θ inlet valve 13 made, for example, by a ball. The inlet of the valve is connected to the sub bellows cavity, and the output of the channels 14 is connected to the suprasilphonic strip. you regulator.

The gas pressure regulator operates as follows.

Gas from the inlet cavity of the regulator through the filter 10 enters the background cavity of the sensing element 3, then it is throttled through channels 12, and in the case of a pressure differential, on the sensitive element exceeding the adjustment differential - 45 in the non-return valve 13. The end face of the plate 4 interacts with the output nozzle 7 of the sleeve 6, maintaining a constant pressure drop on the channels 12, determined by the force of the spring 5 for a given effective area of the bellows. When throttling the flow in the section between the plate 4 and the nozzle 7 of the sleeve 6, simultaneously This changes the driving channels 12 of the plate due to their interaction with the surface of the sleeve, which ensures a constant pressure at the outlet of the regulator.

. With a sharp increase in gas pressure at the inlet to the regulator, the suprasylphonous cavity does not have time to fill up synchronously with the subsylphonic, due to the low gas density at low pressures and the increased pressure drop, the plate is pressed to the outlet nozzle, while simultaneously blocking the passage sections (channels) 12 in the plates, which contributes to further growth differential on the sensing element. When the pressure drop across the bellows is reached equal to the differential pressure for the non-return valve 13, which is determined for a given effective area of the valve by the force of the spring compressing the ball, the non-return valve is opened and the working fluid is transferred from the sub bellows cavity to the bellows. Thus, the upper value of the differential pressure is limited on the sensor element, which guarantees the normal functioning of the regulator. The setting value of the differential pressure across the non-return valve is selected so that its value exceeds the operating range of the differential pressure across the sensing element, but is below the maximum allowable, based on the strength characteristics of the bellows. Otherwise (without changing the Design) during transient operation of the regulator, the differential pressure on the sensitive element may exceed the maximum permissible value, as a result of which the bellows breaks and the normal functioning of the regulator is impaired.

Thus, the gas pressure regulator expands the scope and increases the reliability of its operation. The effectiveness of the proposed design changes is confirmed experimentally on a gas pressure regulator for purging automation units.

Claims (1)

Claim Gas pressure regulator No. 767720, characterized in that, in order to increase the reliable; In order to expand and expand the scope of the regulator, a spring-loaded check valve is installed in the plate, the inlet of which is connected to the subsylphonic cavity, and its output cavity is connected to the suprasylphonic cavity.