RU116225U1 - EXECUTIVE DEVICE FOR GAS PRESSURE REGULATOR - Google Patents

Abstract

An actuating device for a gas pressure regulator containing a body, a cover, a membrane, a spring, a sleeve, a valve and an O-ring, characterized in that it is equipped with a bellows for separating two media with different pressures, and is rigidly connected to the sleeve and the body.

Description

The claimed technical solution relates to techniques for automatic regulation and can be used in gas supply systems for household and industrial facilities.

Known actuator included in the gas pressure regulator (patent RU2380734, IPC G05D 16/06, publ. 01/27/2010), comprising a housing, a shutter, a closing element with a gasket, an upper cover, a lower cover, an annular diaphragm sandwiched between the upper and bottom caps, coil spring, o-rings.

The disadvantage of this actuator is its low cyclic strength, the need for frequent maintenance and replacement of o-rings.

Closest to the proposed technical solution is the actuator direct-flow gas pressure regulator RDP-50 manufactured by PKF “Ex-Forma”, Russia, Saratov (see the booklet of PKF “Ex-Forma”).

The actuator of the RDP-50 controller contains a housing, a cover, a membrane, a sleeve, a valve, a spring, rubber sealing rings, which ensure the tightness of the movable connection between the sleeve, the housing and the cover.

The disadvantage of this actuator of the gas pressure regulator RDP-50 is the low reliability during operation due to the physical wear of the sealing rings as the most critical and loaded (inlet pressure - up to 1.2 MPa).

The purpose of the proposed technical solution is to improve the design of the actuator and ensure its reliability in operation.

This goal is achieved due to the fact that in the actuator of the pressure regulator comprising a housing, a cover, a membrane, a spring, a sleeve, a valve and o-rings, the rubber sealing ring at the inlet is replaced by a bellows rigidly connected on one side to the sleeve and the other side to case.

The essence of the proposed technical solution is illustrated by the drawing.

The actuator comprises a housing 1, a cover 2, a membrane 3, a valve 4, a valve 5, a spring 6, a rubber sealing ring 7 and a bellows 8, rigidly connected on one side to the valve 4, and the other side to the housing 1. The bellows 8, having a sufficiently small axial stiffness, provides reciprocating movement of the shutter 4 within the working stroke of the bellows.

The actuator operates as follows.

The input pressure P1 is input to the actuator. Passing through the shutter 4 between the working edge of the shutter and the valve 5, the pressure P1 is throttled and converted into an output pressure P2, which is then supplied to the cavity P2 and then to the output of the actuator.

The movement of the shutter 4 in the axial direction is due to the pressure difference P2, P3 (between the cavities P2 and P3), as well as due to the force of the spring 6. The control pressure P3 is generated by the pilot (not shown in Fig.).

The claimed technical solution is new, as it is characterized by the presence of a set of features that are absent in all objects of technology of a similar purpose known to us, namely:

- the use of a bellows as a separator of two media with different pressures;

- the use of a bellows to provide reciprocating movement of the shutter when they are coaxially located relative to each other and sufficiently small axial stiffness of the bellows.

The possibility of industrial application of the proposed technical solution is confirmed by the serial production of gas pressure regulators using this technical solution, which meets the criterion of "industrial applicability".

Claims (1)

An actuator for a gas pressure regulator comprising a housing, a cover, a membrane, a spring, a sleeve, a valve and an o-ring, characterized in that it is equipped with a bellows for separating two media with different pressures, and is rigidly connected to the sleeve and the housing.