RU64397U1 - GAS PRESSURE REGULATOR - Google Patents

Abstract

The utility model relates to a technique of automatic regulation and can be used in gas supply systems of boiler houses and other industrial and domestic facilities. Achievable technical result is to simplify the design of the regulator and increase its reliability. The gas pressure regulator comprises a housing 1 with input A and output B cameras, a saddle 2 of a disconnecting device, a disconnecting device 3 with a valve 4, a saddle of a control valve 5, a servo actuator including a control valve 6 mounted on the stem 7, a bellows compensating device 8, hermetically connected with a rod 7 and a housing 1, a working membrane 9 installed in the housing 10, and a master spring 11.

Description

The utility model relates to techniques for automatic regulation and can be used in gas supply systems of boiler houses and other communal facilities.

Various designs of direct pressure gas pressure regulators are known. So, in the publication "Industrial gas equipment" (under the editorship of EA Karyakin. Handbook. 3rd edition, revised and supplemented. - Saratov: Gazovik, 2003), descriptions and constructive schemes of gas pressure regulators RDSK-50 are given. The disadvantage of such regulators is the design complexity and rather low reliability.

The closest in technical essence to the proposed solution is the gas pressure regulator RDSK-50, manufactured by Zhukovsky Engineering Plant OJSC (Zhukovsky, Moscow Region).

The device comprises a housing with an input and output chambers, a saddle of a disconnecting device, a disconnecting device with a valve, a saddle of a control valve, a servo actuator including a control valve mounted on the stem, a membrane compensating device, hermetically connected to the stem and the housing, a working diaphragm and a driver installed in the housing springs.

The disadvantage of this design is, in addition to its complexity, the low reliability of the membrane compensating device in terms of rupture of the compensating membrane at maximum pressure drops, as well as small values of the number of open-closed cycles.

The purpose of the proposed utility model is to simplify the design of the controller while increasing its reliability.

The gas pressure regulator is illustrated in the drawing.

The gas pressure regulator contains a housing 1 with input A and output B cameras, a saddle 2 of a disconnecting device, a disconnecting device 3 with a valve 4, a seat of a control valve 5, a servo-drive including

a control valve 6 mounted on the stem 7, a bellows compensating device 8, the movable part of which is hermetically connected to the stem of the control valve 7, and the fixed part is hermetically connected to the housing 1, a working diaphragm 9 installed in the housing 10, and a setting spring 11.

The pressure regulator operates as follows.

In the initial state, the valve 4 of the disconnecting device 3 is installed in the open position. The inlet pressure acts on the control valve 6 and the bellows compensating device 8, and since the area of the control valve 6 and the effective area of the bellows compensating device 8 are close in value, the algebraic sum of the forces acting on the rod is approximately zero. In the steady state operation, the force of the master spring 11 and the force of the bellows compensating device 8, which depends on the mechanical rigidity of the bellows, are balanced by the pressure in the submembrane cavity of the working membrane 9.

When the flow rate changes, the outlet pressure changes, the balance of forces is violated, which leads to the displacement of the rigid center of the membrane 9 towards a new equilibrium state and the corresponding movement of the control valve 6.

When the input pressure changes, an equilibrium change in the forces occurs on the control valve 6 and the bellows compensating device 8, which minimizes the dependence of the pressure in the outlet cavity B on the pressure change in the inlet cavity A.

The introduction of a bellows compensating device made of a corrosion-resistant material into the design of the pressure regulator allows increasing its reliability at maximum pressure drops, working capacity in the working environment and simplifies the design of the pressure regulator as a whole.

The practice of operating gas pressure regulators indicates that the proposed solution is of industrial utility (passport SYAM. 493611-226 A PS).

Claims (1)

A gas pressure regulator comprising a housing with inlet and outlet chambers, a disconnecting device seat, a disconnecting device with a valve, a control valve seat, a servo actuator including a control valve mounted on the stem, a membrane compensating device hermetically connected to the stem and the housing, a working diaphragm and installed in the housing by a setting spring, characterized in that a bellows compensating device is used as a compensating device, the movable part of which is hermetically connected Nene with the stem of the control valve, and fixed - hermetically connected to the body.