KR101508364B1 - Connection device of automatic fire extinguisher for closing fire prevention - Google Patents

Abstract

The present invention relates to an automatic fire extinguisher connector for closing a fire prevention duct. The automatic fire extinguisher connector comprises a fire prevention duct installed inside a building in which a rotational damper for closing an air flow unit in a main assembly by connecting a wire in an opposite direction to the tension of an elastic member mounted in the main assembly in order to close the fire prevention duct with the rotational damper by disconnecting a thermal sensor unit connecting an automatic fire extinguisher and the fire prevention duct by heat generated from spraying an extinguishing agent when the automatic fire extinguisher starts to operate; an automatic fire extinguisher which is spaced from the fire prevention duct and is capable of spraying the extinguishing agent through a spray hole; and a thermal sensor unit which connects both ends of the wire connecting the gap between the rotational damper and the automatic fire extinguisher, is disposed in the spray hole, is deformed by heat generated from an extinguishing agent when the automatic fire extinguisher starts to operate, and disconnects both ends of the wire.

Description

FIELD OF THE INVENTION [0001] The present invention relates to a fire extinguisher,

The present invention relates to an automatic fire extinguisher connecting apparatus for closing a fireproof duct, and more particularly, to an automatic fire extinguisher connecting apparatus for a fire extinguishing apparatus which is operated by an automatic fire extinguisher, To the automatic fire extinguisher closing apparatus for closing the fire duct.

In general, fireproof ducts are installed in buildings such as buildings or factories and ventilate for indoor ventilation in the building. In case of fire, ventilation is blocked to prevent fire and toxic smoke from spreading throughout the building.

However, in the case of a duct connected to a kitchen hood, there is a disadvantage in that when a fire occurs in a kitchen, a fire or toxic gas is transmitted to neighboring blocks to diffuse the fire. In order to prevent the risk of the duct described above, a fire damper is installed in the middle of the duct to arbitrarily block the flow of air. For example, in the Utility Model No. 20-2012-0008451, And a limit switch is provided outside the damper to supply power to the actuator. The limit switch is contacted by a short circuit of the fuse located inside the damper and is actuated by the actuator, The operation of the electric type fire damper is performed.

However, this causes the actuator for rotating the blade to be operated by electricity, and the structure for rotating the blade is complicated, so that there is a problem that the blade may not be operated due to electric leakage or a shortage of components.

Although the operation structure of such a fire damper has been developed, a technique in which a fire-fighting duct in which the damper is installed and an automatic fire extinguisher are connected and operated at the same time has not been developed yet.

Published Utility Model No. 20-2012-0008451

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide an automatic fire extinguishing system and a fire extinguishing system, It is an object of the present invention to provide a fire extinguisher automatic fire extinguisher closing device for preventing fire extinguishment of a fire extinguisher from being moved to another place in a building by allowing the fire extinguishing duct to be closed so that extinguishing agent does not escape through the fire extinguishing duct.

In order to achieve the above object, according to the present invention, a wire (41) is connected in a direction opposite to the tension of an elastic body (14) provided in a main body (12) provided in a building and having an air flow portion A fireproof duct (10) provided with a rotary damper (16) for closing and interrupting the air flow portion (11); An automatic fire extinguisher (20) installed at the fireproof duct (10) and injecting the extinguishing agent through the injection hole (22) by fire detection; The automatic extinguisher 20 is connected to both ends of the wires 41 and 42 connecting between the rotatable damper 16 and the automatic extinguisher 20 and is located at the outlet of the injection hole 22, And a thermoelectric part (30) for releasing connection of both ends of the wires (41, 42) while being deformed by the jetting heat of the extinguishing agent generated in the extinguisher (20). to provide.

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The rotary damper 16 is divided by a rotary upper plate 17 and a rotary lower plate 18 about a shaft 19 and the elastic body 14 is divided into a rotary upper plate 17 and an upper plate 12a to maintain an open state.

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The thermosensitive part 30 includes a case 59 connected to the wire 42 on the side of the automatic fire extinguisher 20 and provided with an internal space and a wire 59 connected to the rotatable damper 16, A spring 53 which is provided on the automatic fire extinguisher 20 side of the actuating pin 51 so as to elastically support the actuator pin 51 and a peripheral groove A molten metal portion 56 adhered to the operating ball 54 and melted by the heat of fire and a molten metal portion 56 fixed to the molten metal portion 56, And a heat conducting plate (58) for supporting the outside of the heat conducting plate and conducting heat.

The thermosensitive part 30 is connected to the wire 42 on the side of the automatic fire extinguisher 20 and includes a case 75 provided with an internal space and a wire 75 connected to the rotating damper 16, An operating pin 71 connected to an end of the actuating pin 41 and formed with a peripheral groove 72, a spring 73 provided around the actuating pin 71 for resiliently supporting the actuating pin 71, And a bimetal part (76) which is caught by the boss part (72) to fix the operation pin (71) and is deflected by the heat of fire and released from the peripheral groove (72).

According to the present invention, there is provided an automatic fire extinguisher connecting apparatus for closing a fire-fighting duct, comprising: an automatic fire extinguisher for extinguishing a fire; It is possible to prevent the fire smoke from moving to another place in the building and prevent the fire extinguishing agent from escaping through the fire ventilation duct by allowing the fire damper to close the fire duct by the connection of the heat conduction unit connecting the fire duct. There is an effect that can be constructed.

In addition, since the heat-sensitive part can be implemented by applying any one of the fusible metal, bimetal, and glass bulb thermosensitive element, it is easy to change various structures according to the change of the installation environment and is excellent in usability, And it is possible to return to the initial state by only replacing the heat-sensitive portion after the operation, so that the installation time and cost for re-use can be reduced.

1 is an overall configuration diagram of an automatic fire extinguisher connecting apparatus for closing a fireproof duct according to the present invention
Fig. 2 is an example of the use state of Fig. 1
Fig. 3 is an overall configuration diagram of another embodiment according to the present invention
FIG. 4 is an example of the use state of FIG. 3
FIGS. 5 and 6 illustrate another embodiment of a thermal head according to the present invention. FIG.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Referring to FIGS. 1 to 6, the automatic fire extinguisher connecting apparatus for closing a fireproof duct according to the present invention includes a fireproof duct 10, an automatic fire extinguisher 20, wires 41 and 42 for connecting both sides thereof, And 42, respectively.

1, a main body 12 having an air flow portion 11 is installed in the building 10. The air flow portion 11 includes an elastic body 14, And a rotating damper 16 connected to the rotating damper 16 is provided.

2, the rotary damper 16 includes an elastic body 14 (see FIG. 2), and the rotary damper 16 is a component for closing the air flow portion 11 while being rotated in the body 12. As shown in FIG. 2, The wire 41 can be connected in a direction opposite to the tensile force of the wire 41. More specifically, the rotary damper 16 is divided by a rotary upper plate 17 and a rotary lower plate 18 about a shaft 19, and the elastic body 14 is divided into a rotary upper plate 17 and a main body 12 To maintain the open state. At this time, the elastic body 14 is used as an elastically actuatable elastic spring or the like as shown in the figure.

3 and 4, the rotary damper 16 may be configured to rotate upwardly about a shaft 19 provided at a lower portion of one side of the air flow portion 11 as shown in FIGS.

Meanwhile, the automatic extinguisher 20 for spraying the extinguishing agent during a fire is installed in the same space apart from the fireproof duct 10, and a spray hole 22 for spraying the extinguishing agent by fire detection is installed. At this time, the automatic fire extinguisher 20 will be described in the present invention mainly by using a solid aerosol fire extinguisher. The solid aerosol fire extinguisher is a fire extinguisher that extinguishes the fire extinguishing agent.

When the fire-fighting duct 10 and the automatic fire extinguisher 20 are provided, the rotatable damper 16 of the fire-fighting duct 10 and the automatic fire extinguisher 20 are connected by the wires 41 and 42, respectively, Is connected between the opposite ends of the wires 41 and 42 of the first and second wires 41 and 42 by a heat sensing part 30 which is deformed by the detection of heat and releases the connection of both ends of the wires 41 and 42.

1, the thermosensitive part 30 is located at the exit of the injection hole 22 of the automatic extinguisher 20, and the automatic thermosetting device 20 is operated and deformed by the heat of the extinguishing agent So as to release the connection of both ends of the wires 41 and 42. As shown in FIGS. 1 and 3, a fused metal which is melt-deformed by fire heat can be used, and a bimetal part 76 which is expanded and deformed by fire heat can be used as shown in FIG. 6, It is possible to use a rupturable glass bulb thermosensitive body broken by the glass bulb.

6, when the bimetal part 76 is used as the thermosensitive part 30, the case 42 is connected to the wire 42 on the side of the automatic fire extinguisher 20, And an operating pin 71 connected to an end of the wire 41 connected to the rotary damper 16 and having a circumferential groove 72 is formed in the inner space of the case 75, And a spring 73 which is provided around the pin 71 and elastically supports the spring 73. At this time, the spring 73 is provided inside the case 75, the peripheral groove 72 of the operation pin 71 is located outside the case 75, and the peripheral groove 72 is caught in the peripheral groove 72 And the bimetal part 76 is provided in the shape of a partially cut ring which is detached from the peripheral groove 72 by being deflected by fire heat while fixing the operation pin 71. At this time, the wire 42 on the side of the automatic fire extinguisher 20 is connected to the through hole 82 formed in the case 75, and the wire 41 on the side of the rotational damper 16 is connected to the through hole 84 .

When the bimetal part 76 is separated from the peripheral groove 72 of the operation pin 71 by the fire heat, the case 75 connected to the wire 42 on the side of the automatic fire extinguisher 20 is operated in a fixed state The pin 71 is moved in the direction of the fireproof duct 10 provided with the rotatable damper 16 in the right direction in FIG. 6 and the rotary damper 16 is operated as the wire 41 connected thereto is moved, And closes the air flow portion 11 of the air bag 10.

In the case of using the fusible metal part 56 as the thermosensitive part 30, the fusible metal is provided between the both wires 41 and 42 as shown in FIG. 1, so that the fusible metal is melted by the heat of fire, The wire 41 on the side of the duct 10 is released.

5, a case 59 connected to the wire 42 on the side of the automatic fire extinguisher 20 and having an internal space is provided. In the case 59, And an operation pin 51 connected to an end of the wire 41 connected to the rotary damper 16 and formed with a peripheral groove 52. The operation pin 51 is provided on the side of the automatic fire extinguisher 20 And an operating ball 54 having a spring 53 for elastically supporting the operating pin 51 and seated in the peripheral groove 52 of the operating pin 51 to fixedly support the operating pin 51, And a heat conductive plate (58) having a fusible metal portion (56) adhered to the ball (54) and melted by fire heat, and supporting the outside of the fusible metal portion (56) and conducting heat.

The wires 42 on the side of the automatic damper 20 are connected to the through holes 82 formed in the case 59 and the wires 41 on the side of the rotational damper 16 are connected to the through holes 84, respectively.

The molten metal portion 56 is melted due to the heat transmitted through the heat conduction plate 58 due to the fire heat and the operating ball 54 is moved in the peripheral groove of the operating pin 51 The case 59 connected to the wire 42 on the side of the automatic fire extinguisher 20 is detached from the operation pin 52 and the operation pin 51 is fixed to the case where the rotary damper 16, The rotary damper 16 is operated and the air flow portion 11 of the fireproof duct 10 is closed as the wire 41 connected to the duct 10 is moved.

The automatic fire extinguisher 20 is operated and the connection state of the fire extinguishing duct 10 and the automatic fire extinguisher 20 is released by the jetting heat generated in the automatic fire extinguisher 20 to close the fire extinguishing duct 10 , And the fire-fighting duct (10) can be operated to be closed before the automatic fire extinguisher (20) is operated by the heat of fire, thereby preventing the fire smoke generated at the occurrence of the fire from moving to another place in the building, It is possible to construct a safe fire extinguishing facility.

10: Fire Duct 11: Air flow
12: main body 14: elastic body
16: Rotary damper 17: Rotary top plate
18: Lower plate 19: Axis
20: Automatic fire extinguisher 22:
30: Thermal sensor 41, 42: Wire

Claims (6)

A wire 41 is installed in a building and connected to a direction opposite to the tension of the elastic body 14 provided in the main body 12 having the air flow portion 11 to close the air flow portion 11, A damper duct (10) in which a damper (16) is installed;
An automatic fire extinguisher (20) installed at the fireproof duct (10) and injecting the extinguishing agent through the injection hole (22) by fire detection;
The automatic extinguisher 20 is connected to both ends of the wires 41 and 42 connecting between the rotatable damper 16 and the automatic extinguisher 20 and is located at the outlet of the injection hole 22, And a thermoelectric part (30) which is deformed by the jetting heat of the extinguishing agent generated in the extinguisher (20) and releases connection of both ends of the wires (41, 42).
delete The method according to claim 1,
The rotary damper 16 is divided by a rotary upper plate 17 and a rotary lower plate 18 about a shaft 19. The elastic body 14 is divided into a rotary upper plate 17 and an upper plate 12a To maintain the open state of the fire extinguisher.
The method according to claim 1,
Wherein the thermosensitive part (30) comprises any one selected from a fusible metal, a bimetal, and a glass bulb thermosensitive element.
The method according to claim 1,
The thermosensitive part 30 includes a case 59 connected to the wire 42 on the side of the automatic fire extinguisher 20 and having an internal space and a wire 59 connected to the rotatable damper 16, A spring 53 which is provided on the automatic fire extinguisher 20 side of the operating pin 51 for resiliently supporting the operating pin 51 and a peripheral groove 52 A molten metal portion 56 which is in contact with the operating ball 54 and is melted by the heat of fire and a molten metal portion 56 which is in contact with the molten metal portion 56, And a heat conduction plate (58) for supporting the outside of the fire extinguisher and conducting heat.
The method according to claim 1,
The thermosensitive part 30 includes a case 75 connected to the wire 42 on the side of the automatic fire extinguisher 20 and provided with an internal space and a wire 75 provided inside the case 75 and connected to the rotating damper 16 A spring 73 provided around the actuating pin 71 for resiliently supporting the actuating pin 71 and a peripheral groove 72 of the actuating pin 71 And a bimetal part (76) which is engaged with the operating pin (72) and is deflected by the heat of fire while fixing the operating pin (71) and released from the peripheral groove (72).

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