RU2527778C2 - Automatic shutoff valve - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: automatic shutoff valve is used to shutoff gas in case of pressure drop in gas pipeline below the minimum level. Automatic shutoff valve, the body of which with input and output nozzles has the stop valve made as a body-integrated spring-loaded diaphragm with locking device, interacting with a seat, the through passage of which connects under-diaphragm hollow with the input choke. The valve is equipped with the spring-loaded turn-and-thrust handle installed between the diaphragm with a valve on their shared axle on the one side and a cap, covering the diaphragm, on the other side, with the possibility to turn around this axis and to occur in thrust between them, the output choke is connected with under-diaphragm hollow directly.

EFFECT: perfected design.

3 dwg

Description

The invention relates to the field of valve engineering, in particular to shut-off valves.

Known shut-off valves that automatically close when the gas pressure in the network, consisting of a housing, a rotary cork element, inlet and outlet fittings, a shut-off valve mounted on a spring-loaded membrane. These devices have limited functionality. In particular, they have a small gas transmission capacity, turn off when the gas flow increases, and they are unstable when pressure fluctuates.

Closest to the proposed technical essence is an automatic shut-off valve (AS No. 887862), consisting of inlet and outlet fittings, a rotary cork element, a shut-off valve, made in the form of a spring-loaded membrane installed in the housing with a shut-off element interacting with the seat, the passage channel of which connects the submembrane cavity with the inlet fitting, and the locking plug element is installed between the submembrane cavity and the outlet fitting with the possibility of overlapping the latter when communicating inlet fitting with a submembrane cavity.

In this prototype, it is necessary to make the spring pressing the membrane with the valve stiff enough so that the valve rests on the seat tight enough to prevent the valve from spontaneously moving away from the seat or allowing gas to pass, with subsequent gas pressure being applied. Those. with a stiff spring, the valve cuts off the gas too early, and with a weak spring there is a risk of spontaneous withdrawal of the valve and gas transmission. If you make the hole smaller in the saddle, then the resistance to gas flow increases and the valve turns off when the gas flow increases.

Given the significant fluctuations in our gas networks, we have to make a device free from these shortcomings, i.e. so that the valve does not cut off the gas, at which gas appliances can work stably, and the already closed valve must guarantee that the gas is cut off and not let through at the maximum pressure surge. Visually visible on the handle is the closed or open position of the valve.

This goal is achieved by the fact that the passage channel through the seat increases to the maximum diameter, and we make the supmembrane spring so that it barely presses the membrane together with the valve to the seat at the minimum pressure, where the gas must be cut off. The submembrane cavity is directly connected to the outlet fitting by an opening smaller than that which passes through the saddle. Additionally, a spring-loaded rotary-expansion handle is introduced, which is installed on the common axis of the membrane with the valve. There is a rectangular hole on the cover that covers the membrane, where the cams of the rotary-expansion handle enter when the valve is open and the handle cannot turn around its axis until the valve lowers onto the saddle, along with it the handle, the cams of which are at the last moment they break away from the stop on the cover, and the handle, turning around the axis by a quarter of a turn, fixes the valve in the pressed state.

1 shows an assembly drawing of an automatically shut-off valve.

In Fig.2 and 3 view of the cover without a rotary-expansion handle. Section 1 - an inclined guide along which the cams of the rotary-expansion handle slide. Section 2 bends inward and serves as a stop in the opposite direction of the handle.

Automatically the shut-off valve consists of a housing 1, a shut-off valve 3, made in the form of a shut-off element, mounted on a membrane 2, loaded with a spring 6. Screw 13 and a diaphragm 2, a disk washer 8 and a swivel handle 9 are pulled together by a screw 13 and a nut 10 the possibility of rotation around the screw 13, which also serves as the axis for this handle 9. The valve 3 interacts with the seat 4, the passage channel of which connects the submembrane cavity with the inlet fitting 11.

If there is a gas pressure in the inlet 11, the gas through the hole in the seat of the already open valve enters the submembrane cavity, and the gas pressure on the membrane area pushes the valve 3 together with the membrane 2 and the handle 9 until the disk washer 8 rests on the cover 5. Next, the gas from the submembrane cavity enters the outlet fitting. Regardless of gas flow, valve 3 will remain in this position while there is pressure in the inlet fitting.

When the gas pressure decreases below the minimum threshold, the valve 3 pressed by the supmembrane spring lowers onto the seat 4, at that it breaks off the stop and rotates on the axis 13 the rotary-expansion handle 9 under the action of the spring 7 by a quarter of a turn. Turning, the cams of the rotary-expansion handle 9 slide along the inclined guide on the cover 5, pressing the valve 3 against the seat 4. Thus, the rotary-expansion handle becomes in the distance between the valve 3 and the cover 5, guaranteed to keep the valve 3 on the saddle 4 in the pressed state, and the outer part of the rotary-expansion handle, which also serves to manually open and close the valve, becomes in the transverse position with respect to the gas pipe, thereby indicating that the valve is closed.

To open the valve, it is enough to manually turn the rotary-expansion handle in the opposite direction by a quarter of a turn, until it stops. If the pressure is normal, the valve itself will open, and if the gas pressure is less than normal, then the handle should be slightly extended to allow gas to enter the submembrane cavity. In this case, the valve will remain in the open position, if the pressure is less than the minimum threshold, the valve will close again.

In practice, the proposed device can be of any size, for any pressure, on a liquid or gaseous medium and chemical composition. Depending on the pressure, it will be necessary to select the stiffness of the springs, and, depending on the chemistry, the materials of manufacture. In the domestic version, this can replace the gas faucet, it is also possible to turn off and turn on the gas, and when the gas pressure in the gas pipe decreases, it automatically turns off the gas and does not let it through when the pressure is subsequently applied.

Feasibility is achieved by expanding functionality.

1. Automatically shut-off valve, in the case of which with inlet and outlet fittings equipped with a shut-off valve, made in the form of a spring-loaded membrane installed in the housing with a shut-off element, interacting with the seat, the passage channel of which connects the submembrane cavity with the inlet fitting, characterized in that for the purpose improving reliability and expanding functionality, it is equipped with a spring-loaded swivel-spacer handle mounted between the membrane with the valve and the cover covering the membrane with the possibility of turn around the axis, and become strut between them, and the submembrane cavity is directly connected to the outlet fitting.

2. characterized in that in order to remotely close the valve, it is equipped with an electromagnetic device that presses the membrane.

Claims (1)

Automatically shut-off valve, the casing of which with the inlet and outlet fittings is equipped with a shut-off valve made in the form of a spring-loaded membrane installed in the casing with a shut-off element interacting with the seat, the passage channel of which connects the submembrane cavity with the inlet fitting, characterized in that in order to increase reliability and expanding its functionality, it is equipped with a spring-loaded rotary-expansion handle installed between the membrane with the valve on their common axis on one side and the cover, covering th membrane, on the other hand, rotatably on the axis and to stand in the thrust between them, connected with the output fitting submembrane cavity directly.