SU1608623A1 - Gas pressure control - Google Patents

Abstract

The invention relates to pneumatic automation and can be used in various industries and vehicles to reduce the pressure of the working medium in pneumatic systems and to maintain reduced pressure with the required accuracy. The aim of the invention is to improve the accuracy of the controller. The pressure regulator comprises a housing with inlet and outlet cavities, seats, spring loaded damper with a spring connected through bearings and a pusher with turbine blades, with a piston type sensitive element loaded with a spring of a task with an adjusting screw. Microprotrusions are symmetrically located on the surface of the sensing element, in contact with the rolling elements installed in the grooves. 1 il.

Description

The invention relates to pneumatic automation and can be used in various industries and vehicles to lower the pressure of the working environment · in pneumatic systems, and to maintain the magnitude of the reduced pressure with the required accuracy.

The purpose of the invention is to increase the accuracy of the controller.

The drawing shows a pressure regulator.

The pressure regulator comprises a housing 1 with an inlet 2 and an outlet 3 strips — J5 thrust, a seat 4, a spring-loaded damper 5 with a spring 6 connected through a bearing 7 and a pusher 8 with turbine blades 9, with a piston-type sensitive element 10 loaded with 20. the task spring 11 with the adjusting screw 12. On the surface of the sensing element 10, microprotrusions 13 are contacted symmetrically, which are in contact with quality bodies 14 installed with grooves 15.

The regulator operates as follows.

In the initial position, the spring-loaded shutter 5 is pressed against the seat 4. ed When high-pressure gas is supplied to the inlet cavity 2, the spring-loaded shutter 5 is additionally pressed | To the seat 4 by pressure on the unbalanced part of the spring-loaded shutter 5. ,,

When adjusting the regulator by turning the adjusting screw 12, the task spring 11 is compressed and the pusher 8 opens the spring-loaded shutter 5 through the sensing element 10, the gas penetrates the output cavity 3, where its pressure on the sensing element 10 balances the force of the task spring 11. If the outlet from the regulator is closed (there is no selection of the medium by the consumer), then at a certain pressure in the outlet cavity 3, called the setting pressure, the spring-loaded shutter 5 will tightly close the seat 4 again.

When gas is taken by the consumer, the outlet pressure and the force of its action on the sensing element 10 decreases, the spring-loaded damper 5 opens, the gas throttles in the gap between the spring-loaded damper 5 and the seat 4. The gas flow flowing around the turbine blades 9 of the pusher 8 rotates it . The rolling bodies 14, striking against the microprotrusions 13, cause the sensing element 10 to vibrate, which leads to a decrease in the friction forces in the regulator. In addition, flowing around the turbine blades 9, the gas flow swirls and stabilizes. At a certain pressure in the outlet cavity between the forces acting on the movable system of the regulator, a dynamic equilibrium is established corresponding to a certain gas flow rate.

Claims (1)

Claim A gas pressure regulator comprising a housing with inlet and outlet cavities, between which a regulatory body is mounted, made in the form of a saddle and a shutter connected by means of a pusher located in the hole of the saddle from the side of the outlet cavity, with a sensing element made in the form of a spring-loaded piston, characterized in that, in order to improve the accuracy of the regulator, the pusher is equipped with turbine blades, connected at one end to the damper through the bearing, a groove with an installed and in it by rolling bodies, and on the surface of the spring-loaded piston in the place of contact with the second end of the pusher, microprotrusions are made.