SU737926A1 - Pressure regulator - Google Patents

Description

Valve The invention relates to the field and can be used for PE _(-regulation of the gas pressure in various avto'maticheskih systems operating on compressed gas.

Known pressure regulator containing a sensing element installed in the control chamber and interacting with a spring-loaded rod with two valves, and a brake device made in the form of a rod in the guide hole of the housing [1]

The closest technical solution to this invention is a pressure regulator containing a valve installed in the outlet cavity, connected to the sensing element through pushers located in the openings of the housing between the outlet cavity and the cavity of the sensing element [2].

The disadvantages of the known pressure regulator are a tendency to self-oscillations and low accuracy and reliability.

The aim of the present invention is to improve the accuracy, reliability and reduction of self-oscillations of the regulator.

The indicated goal is achieved by the fact that profile grooves are made on the pushers.

The pressure regulator is shown in the drawing.

The controller comprises a housing 1, in the cavity 2 of which a sensing element 3 is installed (for example, a bellows). The cavity 2 is connected through holes 4 with the cavity 5 of low pressure. The valve 6 is connected to the sensing element 3 by means of pushers 7, which pass through the holes 4 in the housing 1. On the pushers 7 and the inner surfaces of the holes 4, profile grooves 8 are made, when the relative position of which forms a gap 9. In the outlet cavity, the housing 1 contains a seat 10.

In the process of self-oscillation when opening 2F and closing the valve 6, the pushers 7 are displaced with respect to the walls of the holes 4. This changes the position of the profile grooves 8 of the pushers 7 with respect to the inner surface of the holes 4, as a result.

4 737 926 Tate 'which increases (at the opening) or decreases (if closing) of the slit orifice 9. When the motion of the valve 6 to the seat 10 increasing the hydraulic resistance of the gap 9 restricts the flow of gas into the cavity 2 chuvst- ₅ pheno- member 3, whereby the superimposed restriction on the magnitude of the speed of movement of its massive part. When the valve 6 moves from the seat 10 at the first moment of time, the high hydraulic resistance of the gap 9 limits the speed of the massive parts of the sensing element 3, as a result of which the excessive opening of the valve 6 (overshoot) is reduced.

Thus, the use of profile ₁₅ grooves 8 on the pushers 7 makes it possible to limit the magnitude of the greatest pressure in the cavity 2 of the sensing element 3 for one oscillation period of the valve 6, i.e. the pressure value can be significantly reduced 20 Compared with the highest pressure at the outlet of the regulator, which will lead to increased accuracy and reliability, as well as to a decrease in the frequency and amplitude of self-oscillations of the gas regulator. ;

In principle, other means of changing the hydraulic resistance of the throttle during valve movement can be used to stabilize the operation of the regulator, i.e. pushers must be made with the possibility of changing the hydraulic resistance of the channel.

Claims (1)

Claim The pressure regulator, in the outlet cavity of which a valve is installed connected with the sensitive element through pushers located in the openings of the housing between the output cavity and the cavity of the sensitive element, is characterized by the fact that, in order to increase the exact ™, reliability and reduce self-oscillations of the regulator, the profile pushers are made grooves.