KR101605105B1 - Auto-Acting Quick Closing Valve - Google Patents

Abstract

The present invention relates to an automatic quick closing valve, and more specifically, to an automatic quick closing valve having a function to automatically shut off the supply of fuel in case of an emergency like a fire of a vessel. The automatic quick closing valve comprises a cylinder part, a lower bellows cover, metal bellows, an upper bellows cover, a cylinder head, and a lever shaft. The cylinder part is formed to have a cylinder shape and has one end connected to one side of a fuel supply valve. The lower bellows cover is installed on the interior of the cylinder part in a circular sectional direction. The metal bellows have one end fixed to one surface of the lower bellows cover, which corresponds to the opposite side of the fuel supply valve, and are expanded in the opposite direction of the fuel supply valve when temperature is increased. The upper bellows cover is fixed to the other end of the metal bellows and is moved by expansion of the metal bellows in the opposite direction of the fuel supply valve. The cylinder head is installed at one interior point of the cylinder part, which is adjacent to the upper bellows cover, in the circular sectional direction and is pushed by an upper cover of the metal bellows as the metal bellows are expanded to be slid in the opposite direction of the fuel supply valve. The lever shaft is extended from one surface of the cylinder head, which is positioned toward the fuel supply valve, to pass through the cylinder part, has one end supporting a stopper holder of the fuel supply valve not to be moved downward, and is moved in the opposite direction of the fuel supply valve by the expansion of the metal bellows when the temperature is increased to allow the stopper holder of the fuel supply valve to be moved downward, thereby blocking the supply of fuel.

Description

{Auto-Acting Quick Closing Valve}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an automatic emergency shut-off valve, and more particularly, to an automatic emergency shut-off valve having a function of automatically shutting off fuel supply automatically in relation to a fire of a ship.

In general, ships are required to remotely block emergency shut-off valves in ships at the fire control station when the ship is fired by the safety of life as sea (SOLAS) And the oil tank is to be surely isolated.

These emergency shut-off valves are designed to operate using air or metal ropes. However, if the tubing pipe carrying the air is broken or the fire is proceeding to the place where the emergency shut-off valve is operated, the oil tank can not be isolated and it can be dangerous. For example, as disclosed in Korean Patent Publication No. 2010-0078912, a person can not easily cut off fuel in a situation where it is difficult to manually cut off the fuel for the reason described above because the person has manually cut off the fuel manually .

Further, after the operation of the emergency shut-off valve is completed, an electric limit switch is used to recognize this, but it is also difficult to check if the electric wire is short-circuited by fire.

Korea Patent Publication No. 2010-0078912

It is an object of the present invention to provide an automatic emergency shutoff valve that automatically operates not only in a fire, but also in a remote operation using air or the like in the event of a fire.

It is also an object of the present invention to provide an automatic emergency shut-off valve that sends an operating signal of a fuel shut-off valve in a physical manner, not in an electrical manner.

The problems to be solved by the present invention are not limited to the above-mentioned problems, and other problems to be solved by the present invention, which are not mentioned here, can be understood by referring to the following description to those skilled in the art It will be understood clearly.

An automatic emergency shut-off valve according to the present invention includes: a cylinder part formed in a cylinder shape and having one end coupled to one side of a fuel supply valve; A bellows lower cover installed inside the cylinder part in a circular cross-sectional direction; A metal bellows which is fixed to one surface of the bellows bottom cover, the one end of which corresponds to the opposite side of the fuel supply valve, and expands in a direction opposite to the fuel supply valve when the temperature rises; A bellows upper cover fixed to the other end of the metal bellows and moving in a direction opposite to the fuel supply valve by expansion of the metal bellows; A cylinder head which is installed in a circular cross-sectional direction at a point inside the cylinder adjacent to the bellows upper cover and slidably moves toward the opposite side of the fuel supply valve by being pushed by the bellows upper cover as the metal bellows expands; The fuel supply valve is extended from the one face of the cylinder head toward the fuel supply valve so as to penetrate through the cylinder portion so that the end portion thereof does not descend the stopper holder of the fuel supply valve and when the temperature rises, And a lever shaft for lowering the plug holder of the fuel supply valve to shut off fuel supply.

The automatic emergency shutoff valve according to the present invention is characterized in that the liquid filled in the space inside the cylinder located on the opposite side of the fuel supply valve with respect to the cylinder head as the cylinder head is pushed is compressed and the compressed liquid is discharged to the outside of the cylinder A signal connector mounted on one side of the cylinder so as to discharge the signal; And a water level indicator for indicating the level of the liquid discharged through the signal connector so that the current state of the fuel supply valve can be confirmed.

Further, the metal bellows according to the present invention is installed inside the cylinder part, and the inside of the metal bellows is filled with liquid which expands in proportion to the temperature.

The water level indicator according to the present invention is characterized in that the state of the fuel supply valve can be ascertained by raising the boil by the liquid pushed inside the cylinder.

The lower cover of the bellows according to the present invention has threads formed along the outer circumferential surface thereof. An inner circumferential surface of the cylinder portion has threads for engaging with threads of the lower cover of the bellows, and the valve is closed by adjusting the position of the bellows lower cover. And the instantaneous temperature is adjustable.

The automatic emergency shut-off valve of the present invention is provided with an automatic emergency shut-off valve that operates automatically when a fire occurs, as well as remote operation using manual or air, which is a basic function of the existing emergency shut- There is an effect that the fuel can be easily shut off without going to a dangerous place in the case of a fire in the < RTI ID = 0.0 >

In addition, the automatic emergency shutoff valve of the present invention sends an operation signal that can confirm the current state of the fuel cutoff valve in a physical way rather than an electric way, so that when the electric wire is short-circuited due to fire, It is possible to prevent an unrecognizable user from being notified.

1 is a sectional view of an emergency shut-off valve and a water level indicator.
2 is a sectional view of the emergency shut-off valve cylinder portion.
3 is a sectional view of the emergency shut-off valve cylinder portion and the water level indicator.

The above and other objects, features and advantages of the present invention will be more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG. BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention, and the manner of achieving them, will be apparent from and elucidated with reference to the embodiments described hereinafter in conjunction with the accompanying drawings.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in more detail with reference to the accompanying drawings.

1 to 3 are views for explaining an automatic emergency shut-off valve according to an embodiment of the present invention. 1 is a sectional view of an automatic emergency shutoff valve and a water level indicator according to an embodiment of the present invention, FIG. 2 is a sectional view of an automatic emergency shutoff valve cylinder according to an embodiment of the present invention, FIG. Sectional view of an automatic emergency shutoff valve cylinder part and a water level indicator according to an embodiment of the present invention.

1 to 3, the automatic emergency shut-off valve according to an embodiment of the present invention includes a cylinder portion 2 and a water level indicator 4. [

The cylinder portion 2 is formed in a cylinder shape, and one end of the cylinder portion 2 is coupled to one side of the fuel supply valve 1 in the left-right direction. The cylinder part (2) not only cuts off the fuel supply by manual operation or remote operation using air or the like when a fire occurs in the ship, and automatically cuts off the fuel supply when a fire occurs. The cylinder portion 2 includes a metal bellows 13, a bellows upper cover 12, a bellows lower cover 15, a cylinder head 11, a lever shaft 3, a spring 9, and a signal connector 10 .

The metal bellows 13 is a wrinkled cylindrical metal product, and is formed in a long hollow shape in one direction, and is located inside the cylinder portion 2. [ The metal bellows 13 is fixed to one surface of the bellows lower cover 15 in the left-right direction. The inside of the metal bellows 13 is filled with a liquid which expands in proportion to the temperature. The liquid in the metal bellows 13 expands due to the temperature which is raised when a fire occurs. At this time, the corrugated metal bellows 13 expands toward the opposite side of the fuel supply valve 1, and the corrugations expand.

The bellows lower cover 15 is a donut-shaped circular plate having a circular central opening. The bellows bottom cover 15 has threads formed along the outer circumferential surface of the bellows lower cover 15. The inner circumferential surface of the cylinder portion 2 has a circular cross- A thread for engaging is formed. The temperature at the moment when the valve is closed can be adjusted in such a manner that the position of the bellows lower cover 15 is adjusted by further tightening and loosening the bellows lower cover 15. [ When the bellows lower cover 15 is tightened in the direction of the fuel supply valve 1, the temperature is adjusted to a low level and the temperature is adjusted to a high level when released in a direction opposite to the fuel supply valve 1.

The bellows top cover 12 is formed in a donut-shaped disk shape having a circular center, and is located inside the cylinder portion 2. The bellows upper cover 12 is fixed to the other end of the metal bellows 13 in the vertical direction. The bellows upper cover 12 moves in a direction opposite to the fuel supply valve 1 due to expansion of the metal bellows 13 when a fire occurs.

The cylinder head 11 is formed in a disk shape and is installed in a circular cross-sectional direction at a point inside the cylinder portion 2 adjacent to the bellows upper cover 12. When the fire occurs, the cylinder head 11 is pulled by a pulled rope provided on the handle 6 or pushed by a fluid flowing through an externally operated operation connector 16, so that the fuel supply valve 1 Thereby sliding in the opposite direction. The bellows upper cover 12 is pushed as the liquid inside the metal bellows 13 expands upon occurrence of a fire and the cylinder head 11 covers the cylinder head 11 by the bellows upper cover 12, And slides in a direction opposite to the fuel supply valve 1.

The lever shaft 3 is formed in a circular long rod shape and extends from the one side of the cylinder head 11 toward the fuel supply valve 1 so as to extend through the cylinder portion 2 in the left direction . The lever shaft 3 is extended from the other side of the cylinder head 11 located on the opposite side of the fuel supply valve 1 to the right side so as to be actuated when a person directly to be described later pulls the handle, ). At this time, the end of the lever shaft (3) supports the stopper holder of the fuel supply valve (1) so as not to descend, and the lever shaft (3) The fuel supply valve 1 is moved downward to lower the stopper holder 22 to shut off fuel supply. When a fire occurs, the lever shaft 3 can be moved by directly operating by a person or by being automatically operated. A method in which a person directly operates is a method in which the lever shaft 3 is pulled by pulling a rope provided on the handle 6 and a method in which compressed air flows through the operation connector 16 operated from the outside, There is a method in which the cylinder head 11 is moved in the direction opposite to the fuel supply valve 1 and the lever shaft 3 connected to the cylinder head 11 is moved. In a method of automatically operating, when the fire occurs, the temperature rises, the liquid filled in the metal bellows 13 expands, the corrugated metal bellows 13 expands and expands, and the bellows upper cover 12 is moved to the fuel supply valve And the bellows upper cover 12 pushes the cylinder head 11 in the direction opposite to the fuel supply valve 1. [ The lever shaft 3 connected to the cylinder head 11 is pushed toward the opposite side of the fuel supply valve 1 to block the fuel supply valve 1. [

The spring (9) is located between the cylinder head (11) and the cylinder top cover (8). The spring 9 prevents the cylinder head 11 from being pushed toward the opposite side of the fuel supply valve 1 when the cylinder head 11 is at rest, 1, and returns the lever shaft 3 moved in the direction opposite to the fuel supply valve 1 again. The spring 9 contracts when the cylinder head 11 is pushed to the opposite side of the fuel supply valve 1.

The signal connector 10 is formed as a hollow tube, and is installed on one side of the cylinder portion 2. [ As the cylinder head 11 is pushed, the liquid filled in the space inside the cylinder located on the opposite side of the fuel supply valve 1 with respect to the cylinder head 11 is compressed. The signal connector (2) discharges the compressed liquid to the outside of the cylinder part (2).

The water level indicator 4 is connected to the signal connector 10. The water level indicator 4 includes a connector 19, a booster 20, and a water level meter 21. The water level indicator 4 can display the level of the liquid discharged through the signal connector 10 to remotely check the current state of the fuel supply valve 1. [ The boiling period (20) is located inside the water level indicator (4). When the fuel supply valve (1) is open, the boom (20) is adjusted to match the OPEN of the water level meter (21). When the fuel supply valve 1 is closed, the right side portion of the cylinder portion 2 is contracted, the liquid level is raised by the signal connector 10, and the boom 20 indicates CLOSE.

Hereinafter, the operation of the automatic emergency shutoff valve according to the present invention will be described in detail.

The automatic emergency shutoff valve can be used to automatically or manually activate the emergency shut-off valve when a fire occurs in a ship or the like, thereby shutting off fuel supply and preventing a larger fire.

First, as a method of directly operating the emergency shut-off valve by a person, the rope provided on the handle 6 is pulled to move the lever shaft 3 in the direction opposite to the fuel supply valve 1, There is a method in which fuel is urgently cut off by dropping the stopper holder 22. The liquid filled in the cylinder portion 2 is compressed by the air introduced through the operating connector 16 operated from the outside to move the cylinder head 11 and to move the lever 15 connected to the cylinder head 11, The fuel supply valve 1 may be urgently shut off while the shaft 3 is pushed in the direction opposite to the fuel supply valve 1.

As a method of automatically activating the emergency shut-off valve, a method of shutting off the fuel supply by expanding the liquid of the metal bellows 13 due to high temperature when a fire occurs can be used. More specifically, the temperature rises at the time of occurrence of a fire, and the liquid filled in the metal bellows 13 expands, and the corrugated metal bellows 13 expands and expands, and the bellows upper cover 12 is pressed against the fuel supply valve 1 Push in the opposite direction. The bellows upper cover 12 pushes the cylinder head 11 toward the opposite side of the fuel supply valve 1 and moves the lever shaft 3 connected to the cylinder head 11 to the fuel supply valve 1 The fuel supply valve 1 can be shut off. At this time, the liquid filled in the metal bellows 13 may have a property of expanding in proportion to the temperature.

The temperature at which the automatic emergency shutoff valve operates can be adjusted. When the bellows lower cover 15 coupled with the cylinder 2 in the screwed manner is tightened in the direction of the fuel supply valve 1, the temperature is adjusted to a low level and when the fuel is supplied in the opposite direction to the fuel supply valve 1, High.

There is a need for a method of verifying that the emergency shut-off valve is operating properly. In case of electric limit switch which was used in the past, if the electric wire is short-circuited due to fire, it is not possible to know whether the emergency shut-off valve is operated or not. The automatic emergency shutoff valve uses a physical method, not an electrical method. The liquid filled in the space inside the cylinder located on the opposite side of the fuel supply valve 1 with respect to the cylinder head 11 is compressed as the cylinder head 11 is pushed in the event of a fire. The compressed liquid moves to the water level indicator 4 through the signal connector 10 and the boiling water 20 of the water level indicator 4 rises by the liquid that has been moved to indicate CLOSE. If the booster 20 rises and indicates CLOSE, the emergency shut-off valve operates correctly and the fuel supply is interrupted.

1: Fuel supply valve
2:
3: Lever axis
4: Water level indicator
5: Plug
6: Handle
7: O-ring for cylinder upper cover
8: Cylinder upper cover
9: Spring
10: Signal connector
11: Cylinder head
12: Bellows upper cover
13: Metal bellows
14: Closing plug
15: bellows bottom cover
16: Connector for operation
17: cylinder lower cover
18: Shaft for valve connection
19: Connector
20: Boiling
21: Water gauge
22: Stopper holder

Claims (5)

An automatic emergency shut-off valve coupled to a fuel supply valve for automatically shutting off fuel supply in the event of a fire,
A cylinder part formed in a cylinder shape and having one end coupled to one side of the fuel supply valve;
A bellows lower cover installed inside the cylinder part in a circular cross section direction;
A metal bellows fixed to one surface of the bellows lower cover at one end opposite to the fuel supply valve and expanding in a direction opposite to the fuel supply valve when the temperature rises;
A bellows upper cover fixed to the other end of the metal bellows and moving in a direction opposite to the fuel supply valve by expansion of the metal bellows;
A cylinder head installed in a circular cross section direction at a point inside the cylinder adjacent to the bellows upper cover and slidably moved in a direction opposite to the fuel supply valve by being pushed by the bellows upper cover as the metal bellows expands;
Wherein the fuel supply valve includes a fuel supply valve for supplying fuel to the fuel supply valve, a fuel supply valve for supplying fuel to the fuel supply valve, a fuel supply valve for supplying fuel to the fuel supply valve, A lever shaft for moving the fuel supply valve in a direction opposite to the fuel supply valve and lowering the stopper holder of the fuel supply valve to shut off fuel supply;
Wherein the metal bellows is inflated and the cylinder head and the lever shaft are pushed as the temperature rises upon occurrence of a fire, thereby shutting off the fuel supply in such a manner that the stopper holder of the fuel supply valve is lowered. The method according to claim 1,
The liquid filled in the space inside the cylinder part located on the opposite side of the fuel supply valve with respect to the cylinder head as the cylinder head is pushed is compressed and the compressed liquid is discharged to the outside of the cylinder part A signal connector installed at one side;
And a water level indicator for indicating a level of the liquid discharged through the signal connector so that a current state of the fuel supply valve can be confirmed. The method according to claim 1,
Wherein the metal bellows is installed inside the cylinder part and the inside of the metal bellows is filled with liquid which expands in proportion to the temperature. 3. The method of claim 2,
Wherein the water level indicator raises the boil by the liquid pushed inside the cylinder part so as to check the state of the fuel supply valve. The method according to claim 1,
The bellows lower cover has threads formed along the outer peripheral surface thereof,
A thread for engaging with the thread of the bellows lower cover is formed on the inner circumferential surface of the cylinder part,
Wherein the temperature of the instant when the valve is closed is adjustable by adjusting the position of the bellows bottom cover.

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