SU366299A1 - BIBLIS-E '^ A - Google Patents

Description

one

Known safety valves with membrane reinforcing element m.

The proposed valve is characterized in that the drain pipe is provided with a shut-off device, the gate of which is perpendicular to the flow of the working fluid passing through the drain pipe, "is connected with a spring-loaded moving element of the actuator, for example a piston, the working cavity of which is connected to the outlet submembrane cavity.

The drawing shows the proposed valve.

The diaphragm 4 is pressed against the seat of the housing / force of the spring 2 through the spool 3. The spring force is controlled by a screw 5. A valve 7 connected to the piston 8 moving through the cylinder 9 is mounted on the body drain pipe 6. The valve 8 and valve 7 are pressed to the upper position by the spring 10, the force of which is designed only to move and hold the piston 8 and the flap 7 in the upper position. This makes it possible to stably hold the damper in the lower position with the valve open until it is completely closed and the subsequent complete pressure drop in the submembrane cavity.

On the body / installed choke //, through which the medium enters the cylinder 9. The magnitude of the opening of the throttles 11 determines the time of withdrawal of the valve 7.

If the pressure in a protected vessel, container or pipeline is higher than

their working pressure environment, acting on the area of the membrane 4, limited by the diameter of the saddle body /, overcomes the force of the spring 2 and begins to lift the membrane 4 and the valve 5 from the saddle body /.

Due to the fact that the cross section of the outlet of the casing / is blocked by the valve 7, with a slight rise of the diaphragm 4 and spool 5, and hence a slight increase in pressure to the valve, the pressure in the cavity of the housing 1 under the membrane 4 increases significantly, approaching the pressure to the valve . Since the area of the membrane 4 is several times larger than the area bounded by the diameter of the saddle, the pressure acts

on it, produces an instant rise of the membrane 4 and the spool 3 The pressure in the cavity of the cylinder 9 due to the passage of the medium through the throttle 11 increases, providing a time delay,

pressing the piston S, n opens the valve 7. After that, the flow through the valve reaches the set value.

The pressure under the diaphragm 4 after opening the valve 7 is somewhat reduced, but since

it acts on the entire membrane area, then

holds it and the spool 3 in a raised position. After the excess medium has been discharged and the pressure has decreased, the pressure under the diaphragm 4 decreases to the valve and the spring 2 lowers it to the lower position. The shutter closes.

After the shutter is closed, the pressure in the valve outlet in the cavity under the diaphragm 4 and the cavity 9 connected to it through the throttle 11 of the cylinder 9 is successively reset to the value of the atmospheric pressure.

Spring 10, raise the piston 8 and the valve 7 to the upper initial position, covers the outlet section of the nozzle.

When closing the valve, pressure is released from cylinder 9 through the throttle //. The rise of the valve 6 due to a small force of the spring 9 begins only with a significant pressure drop under the membrane 4, i.e. after the membrane 4 is seated on the saddle of the housing 1. This eliminates the overlap of the valve

the valve outlet nozzle until the shutter closes and the pressure is released from the cavity under the diaphragm 4, which ensures that the valve does not repeatedly fall off when it closes. The invention can be used in the chemical industry and the field of special machinery.

Subject invention

A safety valve with a membrane reinforcing element, characterized in that, in order to increase the accuracy of operation, the drain pipe is provided with a shut-off device, the shutter of which is perpendicular to the flow of working medium passing through the drain pipe and connected to a spring-loaded movable element of the actuator, for example, a piston, the working cavity of which is communicated with the output submembrane cavity of the throttle hole.