SU413328A1 - - Google Patents

Description

I

Gas pressure reducers are known, comprising a housing with a nozzle-valve throttling device located therein and a spring-loaded diaphragm having a constant throttle and rigidly connected to the valve by means of tons.

The proposed gearbox differs from the known ones in that a sealing gasket between the housing and the gearbox cover is surrounded by a chamber formed by the housing shoulder and the walls of the lid connected by channels to the submembrane space.

This makes it possible to increase the accuracy of the sample to be analyzed by maintaining the concentration of trace impurities in the analyzed gas.

The drawing shows the proposed gearbox.

The gas pressure reducer consists of a housing 1 with an inlet 2 and an outlet 3 with nozzles. Both valves have input 4 and output 5 channels respectively. The inlet 4 is terminated by a seat 6, which is closed by a valve 7. The valve 7 is connected with a rigid center 9 of the membrane 10 with the help of t g 8. Ti g 8 pass through the holes 11 in the gearbox housing. A control spring 12 acts on the membrane from above. The spring pressure is adjusted by a screw 13. In the rigid center 9 there is a constant throttle in the form of a time stone 14. The membrane and

the regulating spring is closed by an upper cap 15 having a bypass connection. The cavity 16 with the solenoid valve “b-7” placed in it is closed by the bottom cover 17.

The bottom cover 17 is sealed with the housing 1 by means of a gasket 18. Between the shoulder 19 of the housing 1 and the cover 17 there is an annular 20, which is connected by channels 21 to the submembrane space 22.

The gas to be analyzed is from u.t.: uz, erra 2, through input channel 4 to the nozzle-valve assembly. Here, the input pressure decreases to a stabilized output. The output pressure is stabilized by a device that controls the operation of the nozzle-valve assembly. This device consists of a membrane 10, which is a sensitive element, and a regulating spring 12, from which pressure the output pressure depends. In cavity 16, the gas is divided into two streams. The main flow through the output channel 5 and the fitting 3 goes to the analyzer microconcentration. The bypass flow through the gap 20, washing the gasket 18, and the channel 21 enters the submembrane space 22. Another part of the bypass flow passes through the holes 11 and also enters the submembrane space 22. From the submembrane space, the bypass flow of gas through a constant choke 14, which provides

The determined gas flow rate enters the strip under the cover 15 a, from there through the bypass fitting to the atmosphere or into the drain line.

Subject invention

A gas pressure reducer, predominantly for analyzers, is a microconcentration of impurities in gases, consisting of a housing with a nozzle-valve throttling device located therein and a spring-loaded diaphragm, having a constant throttle and rigidly connected to the valve with the help of a plug that is , in order to preserve the concentrations of microimpurities in the analyzed gas, a sealing gasket between the housing and the gearbox lid is surrounded by a chamber formed by the body collar and the lid walls connected by channels with the submembrane para flattering.

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