SU1223925A1 - Depressurizing device - Google Patents

Description

lift valve 9 above drain hole 8.

The depressurization of the nozzle 5 causes the displacement of the elastic membrane 7 and the closure lid 6 rigidly connected with it under the action of the pressure of the refrigerant (fire extinguishing liquid) in the nozzle feeding cavity. The supply of fire-extinguishing liquid from the spray starts. The invention relates to devices for the emergency depressurization of technological equipment of various industries where explosive gas-dust-air mixture is used.

The purpose of the invention is to simplify maintenance due to autonomous shutdown of the refrigerant supply.

The drawing shows the proposed device.

The depressurization device contains a sludge in the cavity of the housing 3 and depressurizes the destructive sealing mem- erating device. Turning 180 °, rejecting I, element 2, mounted in core-destructive element 2 begins to permit 3, with the possibility of turning the membrane I. to flow. The outflow of products explodes x 4 and communicates with the body cavity cutting a refrigerant sprayer, including cymbranes, is accompanied by their irrigation, a lindric nozzle 5 with a shut-off roof. After the complete destruction of the membrane, with 6 and an elastic membrane 7 that divides the destructive element by 360 °, docking into two cavities, one of which (button 10 s It is mounted from the stop 11 and the valve 9 thaws) is adjacent to the body and is connected to the output of the fire extinguishing coolant supply system again, and the other (in the fluid from the stimulus cavity is cyclical). There is a drain hole 8 with a 20 lindrical nozzle 5, as a result which valve 9, which is connected by means of a stimulus cavity, is filled with a fluid-springed face cam 10 and an anvil 11 with the lower semi-axis 4 of the rotation of the destructive element 2; the cavities of the nozzle 5 communicate via the throttling channel 12, and the elastic membrane 7 is rigidly connected to the locking lid 6, to activate the destructive element serves the latch 13 with the spring-loaded cam 14.

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the bone through the throttling channel 12. The pressure on both sides of the elastic membrane 7 is equalized, and the cover 6, moving under the action of the spring, blocks the flow of refrigerant from the spray gun to the device body. The time of supply of the extinguishing fluid can be adjusted by the diameter of the throttling channel. The explosion time is a fraction of a second, therefore

The device works as follows. A continuous refrigerant supply is not

This is necessary, which is achieved using When latch 13 is released from engagement, we remove the proposed device. This obstruction of the cam 14 is released up-time, feeding and stopping the supply of cold semi-axis 4, which under the action of the pre-agent in the proposed depressurization of the pre-cocked spring of the starting device occurs autonomously, which

rotate. Together with the upper half-35, it does not require additional control-starting 4, it turns rigidly fixed equipment and allows

on it a half ring of the destroying elements - to increase the reliability of fire and explosion protection

This 2, as well as the lower semi-axis 4 and associated technological equipment and an end cam 10 placed with it, which, when used, depressurize the interaction with the stationary, are displaced in accordance with the pro-head I, and are displaced in the axial direction, to the type.

lift valve 9 above drain hole 8.

The depressurization of the nozzle 5 causes the displacement of the elastic membrane 7 and the closure lid 6 rigidly connected with it under the action of the pressure of the refrigerant (fire extinguishing liquid) in the nozzle feeding cavity. The supply of the extinguishing liquid from the spray gun into the cavity of the housing 3 and the depressurization device begins. Turning 180 °, the destructive element 2 begins to cut the membrane I. The outflow of the explosion products, occurring after the beginning of the membrane cutting, is accompanied by their irrigation. After the complete destruction of the membrane, when the destructive element is rotated through 360 °, the cam 10 moves away from the stop 11 and the valve 9 again blocks the exit of the extinguishing liquid from the motive cavity of the cylindrical nozzle 5, as a result of which the motive cavity is filled with liquid

the bone through the throttling channel 12. The pressure on both sides of the elastic membrane 7 is equalized, and the cover 6, moving under the action of the spring, blocks the flow of refrigerant from the spray gun to the device body. The time of supply of the extinguishing fluid can be adjusted by the diameter of the throttling channel. The explosion time is a fraction of a second, therefore

Claims (2)

1. A SEALING DEVICE containing an element that destroys the sealing membrane, mounted in the housing with the possibility of rotation on the axis, and a refrigerant atomizer communicating with the cavity of the housing, the shutter cover of which is installed to open when the damaging element is rotated, characterized in that, in order to simplify maintenance due to autonomous shutdown of the refrigerant supply, the atomizer contains a cylindrical nozzle, consisting of two cavities separated by an elastic membrane along the length, one of which adjacent to the housing, connected to the refrigerant supply system, and the other has a drain hole with a valve, while the cavity of the nozzle is made communicating by means of a throttling channel, the membrane is rigidly connected to the closure cover, and the valve is kinematically connected to the axis of rotation of the destructive element and is installed with the possibility of return translational movement in one rotation cycle of the destructive element. 2. The device according to π. 1, characterized in that the kinematic connection of the valve with the axis of rotation of the destructing element includes an axial cam mounted on the axis, axially spring loaded, and a fixed stop for interacting with the cam working surface. s