SU903819A2 - Gas pressure regulator - Google Patents

Description

I

The invention relates to pneumatic automation devices and can be used in pneumatic systems.

According to the main author. St. No. a gas reducer is known with inlet and outlet channels, in the case of which is located a sensitive element in the form of a stepped piston having a cavity between the steps and under the influence of output pressure from the larger diameter and interacting with the working member through a rod equipped with a guide a bushing in which an intake is made connecting the output pressure cavity with the cavity between the piston stages via channels in the rod, which is in communication with the outlet channel with the cavity of the element 1.

The disadvantages of this reducer are relatively low accuracy with a significant flow of gas through the reducer, since the amplification

(the pressure in the intake cavity, obtained only by the velocity head) is not enough to obtain the necessary or required accuracy and it is necessary to increase the area of the pneumatic actuator (the area of the stage on the sensing element), which leads to an increase in the dimensions of the gearbox.

The purpose of the invention is to improve the accuracy of the gas reducer (without increasing the dimensions).

This goal is achieved by the fact that a flow-through cavity formed by annular protrusions and a working body and connected to the outlet pressure cavity is made in the device intake.

The drawing shows the proposed gas reducer.

The reducer has a housing 1 with an inlet (inlet channel) 2 and an outlet (outlet, outlet pressure) 3 cavities, a working member (chokes390

opening valve k, blocking or opening the saddle 5 under the influence of the spring of the rod 7 having the radial 8 and axial 9 channels, which the intake 10 communicates with the cavity P between the stages of the piston 12, the rod 7 through the compensating abutment 13 interacts with the piston. The adjusting screw Ik through the anvil 15 compresses the adjusting spring 16, which through the anvil 17 transfers its force to the piston 12. The brake disc 18 protects the opening 19 in the bulkhead 20 from the direct effect of the gas flow. The channel 21 communicates the cavity 11 with the cavity of the sensing element 22. The intake 10 with the annular protrusions 23 and the valve forms a flow cavity associated with the output cavity 3.

Gas reducer works as follows

The gas from the power source enters the inlet cavity 2. When the adjusting spring 16 is unloaded, the valve k is pressed to the saddle 5, the cavities 2 and 3 are hermetically separated. When the adjusting spring is loaded with a screw 1, the spring force through the stop 17 is a stepped piston 12, the compensating stop 13 and the rod 7 is transferred to the valve k, the valve is pressed from the seat 5 and the gas through the annular gap flows into the flow cavity 2k, from which the output cavity 3 and through channels 8 and 9 into the cavity 11. At the same time, the gas flow decelerates in cavity 2, creating pressure in it more than the pressure in the output cavity 3, and entering the cavity 11 affects the piston stage 12 (pneumatic actuator, which can be performed separately from shek 12). The required pressure in the cavity 11 is ensured by the size of the channel 21.

When there is an equilibrium of forces acting on the sensitive electrombit from the output pressure, the pressure in the cavity 11 per step (pressure on the pneumatic actuator), from the springs, the pressure acting on the valve, the annular gap between the valve and the saddle 5 will automatically be maintained so as to provide the required output pressure and gas flow through the gearbox.

When the gas flow through the reducer is stopped by closing the working device at the outlet of the pressure reducer in the output cavity 3, it starts to increase. . The gas influx into the cavity 24 decreases, which leads to a drop in pressure in it and, accordingly, in cavity 11. The balance of forces acting on the sensing element is broken and valve k approaches seat 5, the outlet pressure decreases, approaching initial pressure

Thus, in the cavity 24 and 11 in the flow mode of the reducer, an increased pressure is established, depending on the outlet pressure, the gas flow through the reducer and the size of the holes connecting the flow cavity to the outlet cavity. The difference in force from the pressure in the cavities 11 and 24 and the output pressure on the piston 12 (pneumatic actuator) is a compensating force on the moving gearbox system, which increases its accuracy. The magnitude of the compensating force depends on the pressure in cavities 11 and 24 and the magnitude of the stage (area of the pneumatic actuator). The use of the invention makes it possible to increase the accuracy of the gearbox by more than 50 without increasing the overall dimensions.

Claims (1)

1. USSR author's certificate M 504038, cl. G 05 D 16/10, 1974 (prototype). / J you are t / / cf