SU1709278A1 - Gas pressure regulator - Google Patents

Abstract

The invention relates to an automatic control technique and can be used in gas supply systems for boiler houses and other industrial and utility objects. Object of the invention: The invention relates to a technique for automatic control and can be used in gas supply systems of boiler houses and other industrial and utility objects. The purpose of the invention is to increase the reliability of the device. FIG. 1-3 schematically depict _ the proposed device. The device includes a housing with inlet 1 and outlet 2 chambers, a saddle 3 is adjustable (the valve 4 and a spring-loaded shut-off valve 5, the regulator in view of improving the reliability of the device. The device includes the seat of the regulating and shut-off valves located between them, the regulator in the form of the first spring-loaded diaphragm, equipped with a relief valve and connected by a two-arm lever with the current of the regulating valve, and the control The membrane cavity is connected to the outlet chamber by a pulse tube, which is directed to the outlet chambers downstream, a shut-off valve in the form of a second spring-loaded membrane connected through a cam and pusher to the stem of a shut-off valve, the profile surface of the cam has a notch shape with symmetrical bevels , and the control cavity of the second diaphragm is connected by a channel to the outlet chamber. The shut-off valve stem is connected to the installation unit of this valve in the open position, and a filter is installed in the inlet chamber. 3 hp f-ly, 3 d.first spring-loaded diaphragm 6, equipped with a relief valve 7 and connected by a double-arm lever 8 to the stem 9 of the regulating valve 4 downstream of the chamber, the shut-off element in the form of a second spring-loaded membrane 11 connected through the cam 12, pin 13 and pusher 14 to the stem 15 of the spring-loaded shut-off valve 5 connected to the assembly 16 of the valve in the open 'V'V4 O O S ^ 00

Description

The control cavity of the membrane 11 is connected by a channel to the output chamber 2. The ratio of the arms of the lever 8 is 5-7, and the end of the lever connected to the rod 9 is spherical with a slot, and the rod 9 is provided with grooves 17 filled with grease, and The cam surface 12 has a notch shape with symmetrical bevels 18. A filter 19 is installed in the inlet chamber.

The device works as follows.

In the initial state, the shut-off valve

5 is set using the assembly 16 to the open position. The force from the inlet pressure acting on the valve 4 is transmitted by the lever 8 to the diaphragm b. It is summed up with the force of setting the membrane spring.

6 and in steady state is balanced by the gas pressure in the control cavity of this membrane associated with the output chamber 2. When the input or output pressure deviates from the level due to the task and the ratio of the arms (transfer coefficient) of the lever 8, the balance of forces on the membrane is broken, resulting in to its movement and the corresponding change in the position of the valve 4, restoring a given level of gas pressure. The location of the tube 10 in the downstream chamber prevents the formation of deposits that can clog the opening of the tube, and the ejection effect created by the gas flow shortens the transient adjustment time. In case of an emergency increase or decrease in gas pressure in the outlet chamber, the membrane 11 under the influence of the changed pressure in its control cavity connected by a channel to the outlet chamber moves the cam 14 through the cam 12, releasing the shut-off valve stem, which, under the action of its spring, blocks the flow section

saddles 3, separating the input and output chambers.

Claims (5)

1. A device for regulating gas pressure, comprising a housing with an inlet and output chambers, between which the seat of the regulating and spring-loaded shut-off valves is located; , wherein the control cavities of the first and second spring-loaded membranes are connected by channels with the outlet chamber, and the installation unit of the spring-loaded gate valve an open position, characterized in that, with the goal of increasing the reliability of the device, the second spring-loaded membrane is connected to the pusher via a cam, the profile surface of which has the shape of a notch with symmetrical bevels. 2. The device according to Claim 1, which is connected with the fact that the channel, which communicates the control cavity of the first spring-loaded membrane with the output chamber, is designed as a pulse tube, which is directed downstream in the output chamber. 3. The device according to claim 1, which is based on the fact that the control valve stem made with annular grooves filled with grease. . 4. The device according to Claim 1, which is based on the fact that the double-arm lever is made with the ratio of the shoulders 5-7, and its end connected with the stem of the control valve is spherical with the slot. 5. A device according to claim 1, characterized in that a filter is installed in the inlet port. W Fig / Figz