SU824154A1 - Pressure regulator - Google Patents

Description

The invention is intended for supplying a working gas to an electric battery of a poker aircraft’s chemical generator. A regulator-ejector is known, comprising a housing with a nozzle and a diffuser, a high-pressure chamber, a control chamber / spring-loaded valve: a pan with a stem and a spring-loaded wa; a cooler bellows, the high-pressure chamber is formed by two silos; the backgrounds, and a vacuum bellows is connected with one end with valve stem I, i The disadvantage of this regulator is the complexity of the design and the lack of the possibility of supplying the worker to the battery in pulses. . The closest in technical essence to the present invention is a pressure regulator, comprising a housing with inlet, outlet and suction nozzles, a diffuser, permanent manitas, magnetic conductors and measles connected to the first spring-loaded regulator mounted between the inlet pipe and nozzle and associated with the sensitive element G 2. The disadvantage of the known regulator is low reliability, design complexity and large weight and size characteristics. The purpose of the invention is to increase the regulator's reliability. This goal is achieved by the fact that the regulator contains a second regulator mounted between the cavity of the sensing element and the nozzle and mechanically connected with the first spring-loaded regulator. FIG. Figure 1 shows the proposed pressure regulator, section; FIG. 2 is a section A-A in FIG. 1. The regulator includes a housing 1 with an input 2, an output 3 and suction 4 nozzles, a diffuser 5, a first regulator 6 with a spring 7, a nozzle 8, a sensing element 9, formations with a housing 1, a cavity 10 of the sensitive element, a working spring 11, permanent magnets 12, measles 13, core 14, made of non-magnetic material and partially covered with an anti-friction material, magnetic cores 15 and 16, hollow stand-magnetic circuit 17, insulators 18, made of non-magnetic material, rod 19, coupling 20, the second regulatory authority 21,

FIG. 2 thin contour lines show one of the arbitrary positions of the hollow pitch 17 when turning it through a certain angle.

The regulator works as follows.

The outlet and suction nozzles 3 and 4 are connected to the working gas chamber of the apparatus, for example, to a hydrogen-oxygen battery of fuel cells.

In accordance with the flow of the working process in the apparatus, the proposed regulator Provides gas supply to the apparatus for the flow of the working process and its circulation in a closed loop in order to remove the reaction products. The working time is supplied through the diffuser 5 ,. a-reverse, the gas flow from appracter-to the regulator on the suction side pipe 4. Through the inlet pipe 2, with the first regulating body open b and the second regulator closed 21, the gas enters the nozzle 8 and then through the DIFF. 5 into the working chamber apparatus. When gas flows out of the nozzle. 8, the pressure increases as it exits the nozzle. With this pressure, the sensing element 9 in the relay mode moves in the direction of compression of the working spring 11. The first regulator b is closed and the flow of gas to the nozzle 8 is stopped. Simultaneously with the closure of the first regulatory authority 6, the second regulatory authority 21 opens.

As the gas flow to maintain the working process in the apparatus, its pressure drops. The nojSi action of the working spring 11 sensing element 9 moves downwards in the relay mode. The first regulatory authority b is opened, and the second regulatory authority 21 is closed. The gas enters again through the nozzle 8 into the diffuser 5 and further into the apparatus.

When gas flows out of the nozzle 8 into the diffuser 5 in the gas flow, a vacuum is generated, under the influence of which the gas from the working chamber of the apparatus is sucked through the suction nozzle 4, for adjusting the response pressure of the regulator the stand 17 is turned on. a certain angle is fixed with screws, and the condition for the relay mode of the regulator is G (, G pp-, where GH, is the rigidity of the magnetic system, and GHP is the rigidity of the operating spring 11.,

The introduction of a second regulator into the device makes it possible to eliminate additional sensitive elements and thereby simplify the design, reduce the weight and dimensional characteristics of the regulator and increase its reliability.

Claims (2)

1. Author's certificate of the USSR 443373, cl. G 05 O 16/06, 1971.. 2. USSR author's certificate for application No. 2597141 / 18-24,. cl. G 05 D 16/06, 1978 (PROTOTYPE).