RU1795429C - Pressure regulator - Google Patents

Abstract

The invention relates to automatic control and can be used in pneumatic systems for various purposes. The purpose of the invention is to simplify the pressure regulator and improve its functional characteristics by eliminating self-oscillations of the regulatory body. The regulator comprises a housing 1 with inlet 2 and outlet 3 nozzles, a smooth sleeve 4 with an axial cylindrical hole of the same diameter along the entire length, in which the regulating body is placed in the form of a rod 7 with a shoulder 8 and longitudinal grooves 9, spring-loaded relative to the sensitive element 11, connected with the adjusting screw 14 settings. 2 ill.

Description

 The invention relates to automatic control and can be used to maintain pressure within specified limits in pneumatic systems for various purposes.

A pressure regulator is known which comprises a housing with inlet and outlet ducts separated by a baffle, a rod with valves fixed thereon, and a sensing element connected through a pusher to the rod. This pressure regulator has a complex structural solution.

Closest to the technical nature of the present invention is a gas pressure regulator, which contains a housing with inlet and outlet nozzles, a sensing element made in the form of a bellows with an adjustment unit, a regulating body spring-loaded relative to the sensing element.

The disadvantage of this regulator is a complex design solution.

The presence of two valves with seats located inside the body led to the complex design of the body itself and the part on which the seats and the valve stem are located. This complicated the assembly of the regulator and requires increased precision in the manufacture of parts in order to set them to the required initial position.

In addition, installing one of the valves floating on the stem will inevitably lead to self-oscillations of the valve.

The aim of the present invention is to simplify the design of the regulator and improve its functional characteristics by eliminating self-oscillations of the regulatory body.

This goal is achieved in that the housing is made in the form of a cylinder, inside of which a smooth sleeve with an axial cylindrical bore of the same diameter along the entire length is installed between the inlet and outlet nozzles, in which a regulating body is made, made in the form of a rod with a shoulder and longitudinal grooves on a cylindrical surface .

The pressure regulator housing has a simple structural solution, made of a pipe with a slight machining.

A simple constructive solution has a regulatory body, which is a rod with a shoulder and grooves on a cylindrical surface, which is installed in the Central hole of the sleeve.

The controller has a simple kinematic connection between the regulatory body and the sensing element.

All this greatly simplified the design of the pressure regulator and its assembly. In addition, the regulatory body, made in the form of a rod with grooves on a cylindrical surface and installed in the central hole of the sleeve, is less susceptible to self-oscillations during the passage of the working medium, compared with the regulatory body, made in the form of a valve freely mounted on the stem, as it has place in the prototype.

5 The pressure regulator has a simple design solution, is technologically advanced to assemble, and the regulator is less susceptible to self-oscillations.

Figure 1 shows a longitudinal section of a pressure regulator; figure 2 - its cross section.

The pressure regulator comprises a housing 1 with an inlet pipe 2 and an outlet pipe 3. A smooth sleeve 5 is installed inside the housing 1, which forms an inlet cavity 5 and an outlet cavity 6.

In the axial cylindrical bore of the sleeve 4, a rod 7 is installed with a shoulder 8, longitudinal grooves 9 and a reference

0 ring 10.

In the output cavity 6, a sensing element is installed, comprising a bellows 11c with a sleeve 12, inside which a spring 13 and an adjustment screw 14 are installed.

5 Inside the bellows, a cavity 15 is connected to the atmosphere through an opening 16.

.Between the inlet pipe 2 and the flange 4, a spring 15 is installed.

The flange 8 with the end face of the sleeve 4 forms

0 variable bore 18.

The pressure regulator operates as follows.

In the initial position, the bottom of the bellows-11 is pressed against the end of the rod 7, the support ring

5c rests on the end face of the sleeve 4, the shoulder 8 forms a passage 18 for the working medium.

When gas is supplied through the inlet pipe 2, the working medium enters the cavity 5 and

0 then through the passage section 18 and the grooves 9 enters the outlet cavity 6 and through the pipe 3 to the consumer. With the passage of the working medium in the cavity 6, the pressure increases, which begins to compress force 5 13, the rod 7 with the shoulder 8 under the action of the spring 17 will begin to move upward, while the passage section 18 will decrease, and upon reaching the nominal value of the pressure on which the regulator is built, the cross-section 18 is completely closed to allow the working medium to pass from the cavity 5 to the cavity 6, where the pressure begins to decrease. When the pressure in the cavity is reduced by the bellows under the action of the spring 13, it begins to stretch and presses on the rod 7, overcoming the force of the spring 17, the shoulder 8 forms a passage section 18 for the working medium, which again begins to flow through the longitudinal grooves 9 into the outlet cavity 6 and to the consumer.

Thus, a constant pressure will be maintained in the cavity 6, to which the regulator is adjusted.

The regulator is adjusted to a predetermined working pressure by changing the force of the spring 13 using the adjusting screw 14.

The proposed pressure regulator can be used in refrigeration units when installed on the suction lines in front of the compressor.

In this case, the inlet pipe will be pipe 3 and the pressure regulator operates in the after-flow mode.

Upon receipt of the working medium through the pipe 3, it passes into the cavity 6 and along the longitudinal grooves 9 into the cavity 5 and the pipe 2 to the compressor inlet.

When the pressure in the cavity b reaches the nominal value to which the sensing element is adjusted, the bellows is compressed, the rod 7 moves under the action of the spring 17 towards the bellows and the bead 8 will block the passage section 18.

When the pressure in the cavity 5 decreases, the pressure in the cavity b decreases, the bellows 11 under the action of the spring 13 begins to stretch and presses on the rod 7, overcoming the force of the spring 17, the rod 7 begins to move downward, forming the passage of the working medium through the passage section 18, into the cavity 5 and further to the compressor.

This will maintain the nominal pressure at which the sensing element is tuned.

Claims (1)

SUMMARY OF THE INVENTION A pressure regulator comprising a housing with inlet and outlet nozzles, a regulating body spring-loaded with respect to a sensing element connected to a tuning unit, characterized in that, in order to simplify the regulator and improve its functional characteristics by reducing self-oscillations of the regulating organ, the housing is made in the form of a cylinder, inside of which a smooth sleeve is installed between the inlet and outlet nozzles, with an axial cylindrical bore of the same diameter over the entire length, and p regulates body different displacements in said opening and is designed as a rod with a shoulder and longitudinal grooves on the cylindrical surface. Aa Sri. 2