SU1029152A1 - Pressre regulator - Google Patents

Abstract

PRESSURE REGULATOR, CONSTRUCTION CASES WITH INPUT AND OUTPUT channels and sensing element associated with the pusher with spring-loaded) m. valve, and the spring of the task, about t and h and y and the fact that, in order to improve the accuracy of the controller in a wide range of costs, it has a sensitive element made in the form of a two-stage piston, the end surface of a greater degree which is turned to the spring-loaded pusher the valve, and in the housing is connected with the groove of the output channel of the stepped cavity with a hollow two-stage piston located in it with a central axial bore, the cavity between the steps of which is filled with liquid and communicated with ennoy fluid cavity between the stages a two-stage piston sensing element. y; o joint venture IND

Description

The invention relates to pneumatic automation devices and can be used in various industrial fields and vehicles to reduce the pressure of a gas and maintain the value of reduced pressure with high accuracy.

A gas reducer is known, comprising a housing with inlet and outlet channels and a saddle between them, a throttling valve with a pusher and a spring sensitive element.

However, the operation of these regulators in the flow mode is characterized by a decrease in the outlet pressure.

The closest to the technical essence of the invention is a pressure reducer, comprising a housing with inlet and outlet channels, a spring-loaded valve mounted in the housing, and a sensing element with a spring of reference, interconnected through each other,

The disadvantage of the known reducer is the reduction of pressure at the outlet when gas is taken off the reducer, which reduces the accuracy of the device, especially when operating at high costs. In the absence of gas extraction through the reducer, its sensitive element is maximally lowered down, the throttling valve sits on the saddle, the input and output cavities are separated. When gas is taken out through the reducer, its pressure and force acting on the sensitive element are reduced, sensitive. the element rises somewhat upwards, raising the throttling valve above the saddle. Through the gap between the valve and the saddle, gas enters, gas is compensated through the pressure reducer, the outlet pressure is less than it was without flow (the setting pressure in statics X) the element rises even more by increasing the flow area of the gearbox. At the maximum flow rate, the output pressure is reduced by the maximum value, and the throttling valve is raised by its full stroke. The reducer increases with increasing flow rate (with increasing valve lift above the seat. The reducer also has a low control accuracy at high gas flow rates, which is a significant disadvantage.

The purpose of the invention is to improve the accuracy of the pressure regulator in a wide range of costs.

This goal is achieved by the fact that in the pressure regulator, comprising a housing with inlet and outlet channels and a sensing element connected by a pusher with a spring-loaded valve, and a task spring, the sensing element is designed as a two-stage piston, the end surface of a greater degree is facing the plunger spring-loaded valve, and in the building is made communicated with the cavity of the output channel of the stepped cavity with a hollow two-stage piston located in it with a central axial bore, the cavity between the stages of which is filled with fluid and communicates with a liquid-filled cavity between the stages two-step piston sensing element.

With this design of the regulator, when the gas is withdrawn, a differential pressure is formed on the hollow two-stage piston, which is then converted into fluid pressure between the stages of the hollow piston and transmitted to the sensing element. The latter reacts to a change in the output pressure to a greater extent, the additional reaction of the sensing element (due to the action of the velocity head on the additional piston and transmitted to the sensing element through the liquid between its steps) leads to a greater opening of the valve and a greater gas influx to the output of the gearbox. As a result, the outlet pressure is close to the static setting pressure, despite the movement of the sensitive element. - ,.

The drawing shows the proposed pressure regulator, section. .

The pressure regulator comprises a housing 1 with an inlet 2 and an outlet 3 channels and a saddle 4. The valve 5 with a spring B and a pusher 7 interacting with a piston-type sensitive element 8 loaded with a screw 9 and a reference plate 10 with a spring of task 11 is placed in the housing. closed glass 12.

The sensing element 8 is made in the form of a two-stage piston, the cavity 13 between the steps of which is filled with liquid 14 and which coactuates with the pusher 7 of the valve 5 with an end surface 15 of larger diameter.

The housing has a step cavity in which a hollow two-stage piston 16 is installed, the cavity 17 between the steps of which is also filled with liquid 14 and communicated by channel 18 to cavity 13. The two-stage piston 1b faces the output cavity 19 of the regulator with an end surface 20 of larger diameter. In the hollow two-stage piston 16

Claims (1)

PRESSURE REGULATOR, comprising a housing with input and output channels and a sensing element connected by a spring-loaded pusher, a valve, and a task spring, characterized in that, in order to increase the accuracy of the regulator in a wide flow range, the sensitive element is made in the form of a two-stage piston , the end surface of the larger stage of which is facing the pushrod of the spring-loaded valve, wherein a step cavity communicated with the thickness of the output channel with a hollow two upenchatym piston with a central axial hole, the cavity between the steps which is filled with fluid and communicates with a liquid-filled cavity between the stages of the two-stage piston sensing element. § Si