SU1645944A1 - Gas pressure regulator - Google Patents

Abstract

The invention relates to reinforcement and can be used in pneumatic-hydraulic systems in various industries in the industry to automatically control the pressure of a gas (liquid). The purpose of the invention is to simplify the design and improve the manufacturability of the manufacture of a pressure regulator. The regulator contains a control assembly unit, made in the form of a membrane box consisting of a membrane 4 with a rigid center 13 and a membrane 6 with a rigid center 9 connected by welding with a setting screw 10. The membrane connecting flange 8 lies freely on the saddle 3 bases 2. The use of the regulator will reduce the cost of its manufacture, repair and maintenance. 1 il.

Description

The invention relates to a valve structure and can be used in pneumohydraulic systems in various industries for automatic reduction of gas (liquid) pressure and stabilization of reduced pressure at a given level.

The aim of the invention is to simplify the design and increase the manufacturability of the manufacture of the pressure regulator.

The drawing shows a gas pressure regulator, a section.

The pressure regulator includes a detachable housing, consisting of a cover 1 and a base 2, on which a seat 3 is made. Inside the housing there is a membrane box consisting of an upper membrane 4, placed in the outlet cavity 5, and hermetically connected to it, for example, by welding, the lower membrane 6 located in the inlet cavity 7 * The annular connecting flange 8 of the lower membrane is in contact with the seat 3, i.e. performs the functions of a regulatory body (shutter). The lower membrane 6 has a rigid center 9, rigidly connected by welding with the screw 10 settings.

The translational movement of the screw 10 in the base 2 of the housing with the aim of pressing the shoulder 8 to the seat 3 is provided using the nut 11, and the fixation is using the union nut 12.

The upper membrane 4 may have a rigid center 13. An inlet pipe 14 is provided for supplying the working fluid, and an outlet pipe 15 is for withdrawal. The adjustment screw 10 has a key 16 that prevents it from turning at the base of the housing.

The regulator operates as follows.

In the process of operation of the regulator, through a pipe 14, a high pressure working fluid (gas, liquid) enters the inlet cavity 7, which acts on the lower membrane 6 in the area bounded by the shoulder 8 and the rigid center 9, and, overcoming the elasticity of the entire membrane box, squeezes shoulder 8 from seat 3. Through the resulting throttle slit, the low-pressure working fluid enters the outlet cavity 5, and then through the pipe 15 to the consumer. In the outlet cavity 5, the low-pressure working fluid acts on the upper membrane 4, which, together with the elastic force, ensures the collar 8 is pressed against the seat 3. Thus, the position of the collar 8 relative to the saddle 3 is determined by the difference between the force proportional to the product of the area of the lower membrane 6 between the rigid center 9 and saddle 3 by the high pressure of the working fluid, and the sum of the elastic forces of the entire box and the force proportional to the product of the area of the entire upper membrane 4 (including its rigid center 13) and the low pressure of the working fluid. As a result of the influence of these forces, a throttle slit is installed between the shoulder 8 and the saddle 3, which provides a given tuning pressure in the output cavity 5.

To adjust the regulator to the preset pressure, slightly unscrew the union nut 12. Rotate the nut 11 and move the screw 10 until the preset working fluid pressure is established in the output strips ™ 5.

Using the elastic deformation properties of the membrane box allows us to minimize the number of nodes used in the gas pressure regulator. Using the proposed regulator can reduce the cost of its manufacture, repair and maintenance.

Claims (1)

SUMMARY OF THE INVENTION A gas pressure regulator comprising a housing with a saddle, with inlet and outlet cavities, a tuning screw and a control-regulation unit, characterized in that, in order to simplify the design and manufacturing technology, the regulation control unit is made in the form of a membrane box, the first membrane of which is located in the outlet cavity, and the second in the inlet cavity, the connecting flange of the membrane box forming a regulating body with the saddle, and the rigid center of the second membrane is fixed to the tuning screw.