SU1605215A1 - Pressure controller - Google Patents

Abstract

The invention relates to the field of automation, in particular to pressure regulators, designed to precisely maintain the gas pressure at high flow rates, high pressures and in the absence of flow rates in the system the regulator operates on. The purpose of the invention is to improve the accuracy and reliability of the controller. The pressure regulator includes a housing 1, an inlet 2 and an outlet 3, a valve 4 for forward running, a hollow rod 5, a sensing element made in the form of a piston 6, a working 7 and defining 8 cavities, a partition 9, an emphasis 10, springs 11 and 12 , stop 13 for piston movement. 1 il.

Description

The invention relates to automation, in particular to pressure regulators, designed to accurately maintain gas pressure at high flow rates, high pressures and in the absence of flow in the system on which the regulator operates.

The purpose of the invention is to improve the accuracy and reliability of the regulator.

The drawing shows a diagram of the pressure regulator.

The pressure regulator comprises a housing 1, an input 2 meaode and an output 3 cavities with a valve 4 installed (direct flow 5, made at the first end of the hollow stem 5, a sensing element made in the form of a piston 6, forming a working 7 and defining a cavity 8, a partition 20 9, emphasis 10, springs 11 and 12, emphasis 13 for moving the piston.

'The pressure regulator operates as follows.

When pressure is applied to the inlet cavity 2, the working medium, throttling in the slots of valve 4 and the seat of the body, fills the system to a predetermined pressure. A change in the flow rate leads to a change in the pressure in the system, which in turn leads to a displacement of the movable system of the regulator, a change in the working length of the spring 12 and its force, which determines the level of the outlet pressure, greater or less than the initial pressure on _Ре1х .

! In the absence of contact between the valve and the seat, the spring 11 does not affect the operation of the regulator. The piston 6 has a constructive stroke, og "~ 4C, with a limited emphasis 13.

When the flow rate in the system stops, the pressure in it increases, the pressure in the working cavity 7 increases, the piston 6 moves and the valve 4 comes into contact with the seat of the housing 1. The complete cessation of the flow (leakage) of the working medium into the system depends on the material of the valve 4 seal, stiffness springs 11 and 12. The force required for sealing is created by moving the piston 6, which compresses the lower end of the spring 11 under the action of the pressure increment after the valve is seated on the seat. Thus, when the flow stops after the valve is seated on the seat, the movement of the piston creates the possibility of increasing the force of the spring 11, which significantly increases the sealing.

In the pressure regulator, the accuracy of maintaining the pressure in the system increases when there is a flow rate (since the spring 11 does not have any effect when working at the flow rate) and in a non-expendable mode (since the spring after the valve is seated on the seat reinforces sealing and can increase it with further piston movement) .

Claims (1)

Claim A pressure regulator, comprising a housing, between the inlet and outlet cavities of which a forward stroke valve is installed, made at the first end of the hollow rod, a sensitive element made in the form of a piston forming a working and defining cavity with the housing, the working cavity connected to the output cavity through the hollow rod , hermetically installed in the partition between the inlet and working cavities, characterized in that, in order to improve the accuracy and reliability of the regulator, the hollow rod is hermetically mounted in the piston bore, its second end is located in and defining a cavity provided with an abutment, between which a spring and piston, wherein the cavity is located in the drive stop to move the piston.