SU913343A1 - Gas pressure regulator - Google Patents

Description

The invention relates to automatic regulation and can be

used to control the pressure in gas systems gas analyzers.

Known regulator comprising cor- pus ⁵ with inlet and outlet channels, a sensing element in the form of a membrane rigidly attached to the valve overlapping inlet nozzle, a spring associated with the sensing element, and a spring adjustment screw [I.

The disadvantage of this regulator is the low accuracy of pressure maintenance. ¹³

Also known gas pressure regulator, consisting of the first and second stages of regulation, the first stage is a coarse pressure regulator, and the second is accurate. Each stage has all the previously listed elements of the pressure regulator. These steps are connected pos2

sequentially in the course of the gas. Each stage has its own body, both stages are united by a bracket on which the body is fixed [2}.

The closest in technical essence to the present invention is a regulator comprising a housing with inlet and outlet channels, spring-loaded sensitive elements of the first and second stages rigidly connected to the valves, nozzles of the first and second stages covered by valves, the input cavity of the first and second stages and the output cavities first and second stages [3].

The disadvantages of these gas pressure regulators is their complexity and large size.

The purpose of the invention is to simplify the design of the regulator.

This goal is achieved by

that in a gas pressure regulator that contains a housing with inlet and outlet

channels, spring loaded sensor3 913343 4

elements of the first and second stages of regulation, rigidly connected with valves, nozzles located opposite the valves, input cavity of the first stage of regulation, output; the cavity of the first and second stages of regulation, the input cavity of the first stage of regulation is located between its nozzle and the sensitive element, the effective area of which is equal to the area of the nozzle, The first stage of regulation is facing the sensitive element of the second stage of regulation.

The drawing shows the gas pressure regulator, section. ²

The regulator includes a 'body 1 with input 2 and output 3 channels, the sensitive element 4 of the second control stage in the form of a membrane ₂ , which is affected by the spring 5 · The spring force is adjusted by a screw 6. Under the sensitive element 4 there is an output cavity 7 of the second control stage. The sensing element 4 using ³ pillars 8 is rigidly connected to the valve 9, overlapping the nozzle 10 of the second stage of regulation. The inlet duct 2 is connected with the inlet cavity 11, located between the sensitive element ³ cop 12 and the nozzle 13 of the first control stage. The nozzle 10 is blocked by a valve 14, rigidly connected with the sensing element 12. The outer side of the sensing element 12 ⁴

facing the sensitive element 4 of the second stage of regulation. The valve 14 is loaded with a spring 15 with a certain force directed towards its opening. ⁴ is accompanied Lamy between 13 and 10 is the output cavity 16 of the first control stage.

The regulator works as follows, ⁵

Gas through the inlet channel 2 enters the cavity 11, through the open nozzle 13 ”into the cavity 16 and through the nozzle 10 into the cavity 7. The pressure in the output cavity 7 of the second control level 5 is determined, as in all regulators of this type, by sensing element 4, with one

the side on which the force of the spring 5 acts, and on the other - the force of the output pressure. Since the effective area of the sensitive element

> 12 is equal to the area of the nozzle 13, then the effort

from the pressure at the inlet acting on the sensing element 12 and the valve 14, are balanced. The pressure in cavity 16 takes on a greater value

ί) pressure in the output cavity of the second stage of regulation by an amount corresponding to the force of the spring 15 divided by the effective area of the sensing element 12. The effective area of the sensing element 12 is intermediate between the areas of the outer and inner seals of its membrane. In the ideal case, when effective

The area of the sensing element 12 is exactly equal to the area of the nozzle 13, the pressure in the outlet cavity 7 does not depend on the inlet pressure in channel 2. The practical effect is always slightly different from the calculated one, therefore some dependence of the pressure in the outlet cavity 7 on the inlet pressure takes place.

Thus, in the gas pressure regulator, the sensitive element of the first control stage can be made of a sufficiently small size, and the accuracy of the regulator will not suffer from this. Since the outer side chuvst pheno- element ⁵ of the first control stage facing the sensor element of the second control stage and the output stage of the first control cavity location with ⁰ wife between the nozzles of both stages, the regulator has a minimal number of parts and a more simple body.

Claims (1)

Claim five Gas pressure regulator, comprising a housing with inlet and outlet channels, spring-loaded sensitive elements of the first and second stages ⁰ regulation, rigidly connected to the valves, nozzles located opposite the valves, the input cavity of the first stage of regulation, the output . cavities of the first and second stages of regulation, different the fact that, in order to simplify the design of the regulator, in it the input cavity the first stage of regulation is located5 the wife between its nozzle and sensitive element, whose effective area is equal to the nozzle area, and the output cavity of the first control stage is located between the nozzles of two control stages, with the outer side of the sensitive element of the first control stage facing the sensitive element of the second control stage.