SU1049870A1 - Pressure regulator - Google Patents

Abstract

1. PRESSURE REGULATOR, comprising a housing divided by a membrane into two chambers, the first of which is connected to the environment, and the second - directly to the output channel, through the choke - to the power channel and through a nozzle. the damper of which is located at the rigid center of the membrane, with the environment, the adjustment spring, and the temperature-sensitive element, characterized in that, in order to simplify the regulator, the temperature-sensitive element and the adjustment spring are located. The thermo-sensitive element is made in the form of a bimetallic plate fixed to the body, the free end of which is connected to the rigid center of the membrane through a stem located inside the tuning spring installed in the first chamber between the rigid center of the membrane and the body. 2. The regulator according to claim 1, characterized in that, in order to expand the adjustment range, the fastening of the bimetallic plate is adapted to be adjustable (the length of its working part.

Description

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The invention relates to pneumatic means of automatic regulation and can be used to adjust the pressure value depending on the ambient temperature in the cooling system of a locomotive power unit.

A thermal relay is known, comprising a nozzle with a bimetallic damper, an ejector, inlet, outlet and atmospheric channels and a pressure chamber in the housing. Converting the temperature into a logic signal zero occurs when the ambient temperature is reached, different settings for this relay, as the temperature drops, the output of the signal equal to the logical unit 1 is restored.

The disadvantage of this design is the discreteness of operation.

Closest to the invention, by its technical nature, is a pressure regulator, comprising a housing divided by a first spring-loaded membrane into two chambers, the first of which is connected directly to the outlet, through the first choke to the feed channel and through the first nozzle to the environment and the second — through the second choke — with the environment and through the third choke — with the third chamber, which is connected via the fourth choke to the feed channel and through the second nozzle — with the environment, and the third chamber is not connected mediocre with the environment and separated from the fourth chamber by a second membrane, the hard center of which is associated with a thermo sensitive element equipped with an adjusting screw 2.

The disadvantage of the regulator is its complexity.

The aim of the invention is to simplify the controller.

This goal is achieved by the fact that in a pressure regulator containing a housing divided by a membrane into two chambers, the first of which is connected to the environment, and the second directly to the output channel, through a choke to the power channel and on the hard center of the membrane - with the environment, the spring adjustment and the temperature-sensitive element, the temperature-sensitive element and the spring adjustment are located on one side of the membrane, while the temperature-sensitive element is designed as a console mounted on the body of the bimetallic plate.

the free end of which is connected to the rigid center of the membrane through a brush located inside the tuning spring installed in the first chamber between the rigid center of the membrane and the housing.

In addition, in order to expand the range. the control zone, the mounting of the bimetallic plate is made with the possibility of adjusting the length of its working part. FIG. 1 shows a schematic of the regulator; in fig. 2 - a bimetallic plate mounting unit, allowing adjustment of the length of its working part (node I in Fig. 1).

The regulator includes a housing 1 (Fig. 1), divided by a membrane 2 into two chambers

3 and 4. Chamber 3 is connected to the environment, and chamber 4 is directly connected to the output channel through throttle 5 to the power channel and through nozzle 6, a flap

7which is located on the hard center

8membranes 2, - with the environment. The regulator contains adjustments spring 9 located on one side of the membrane 2 and a temperature-sensitive element made in the form of a bimetallic plate 10, which is attached to the housing 1 on the cantilever. screws 12 and spring 9 installed in the chamber 3 between the rigid center 8 of the membrane 2 and the tuning

screw 12, which is screwed into the cover of case 1. After the bimetal plate 10 is installed to the predetermined length of the working (cantilever) part, it is fixed by clamps 13 (Fig. 2) with a bolt 14. The pressure regulator operates as follows

in a way.

When the supply pressure is applied through the throttle 5 in the chamber 4 and at the outlet of the regulator, the pressure determined by the force developed by the spring 9 and the bimetallic plate 10 (the weight of the moving parts of the regulator can be neglected because of their smallness). When the ambient temperature changes, the bimetallic plate 10, bending, changes the force transmitted through the rod 11 to the membrane 2,

which leads to a change in pressure at the outlet of the regulator in accordance with a change in ambient temperature.

Application of the proposed pressure corrector in locomotives equipped with an automatic pneumatic system

temperature control, will increase the reliability and durability of the diesel.

Claims (2)

1. PRESSURE REGULATOR, comprising a housing divided by a membrane into two chambers, the first of which is connected to the environment and the second directly to the output channel, through the throttle to the power channel and through the nozzle, the shutter of which is located on the rigid center of the membrane, - environment, a tuning spring, and a heat-sensitive element, characterized in that, in order to simplify the controller, the heat-sensitive element and the tuning spring are located. wife on one side of the membrane, while the heat-sensitive element is made in the form of a bimetallic plate cantilever mounted on the housing, the free end of which is connected to the rigid center of the membrane through a rod located inside the tuning spring installed in the first chamber between the rigid center of the membrane and the body. 2. The regulator according to π. 1, characterized in that, in order to / expand the range of regulation, the fastening of the bimetallic plate is made with the possibility of regulating the length of its working part.