KR102449100B1 - fire extinguishing apparatus - Google Patents

Abstract

A fire extinguishing apparatus is disclosed to safely and effectively suppress a fire in the state where a fire space is closed. The fire extinguishing apparatus according to one embodiment of the present invention includes a fire extinguisher which is configured so that a glass bulb for blocking the discharge of a fire extinguishing agent can be ruptured by a rupturing member and is arranged in a closed space; a manipulation unit which is installed on the outer surface of an enclosure forming the closed space inside; and an operating unit which operates the rupturing member so that the glass bulb is ruptured by manipulation of the manipulation unit.

Description

fire extinguishing apparatus

It relates to a fire extinguishing system for suppressing fires that occur inside the switchboard or junction box of power facilities.

The switchboards and junction boxes of power facilities are prone to short circuits or sparks, which can lead to electrical fires.

And when a fire occurs in a space such as a switchboard or a junction box, the manager usually enters the fire area or extinguishes the fire using a fire extinguisher while the fire area is open.

However, in this case, the fire extinguisher may be directly exposed to the heat or gas of the fire area caused by the fire, and when contacting to open the enclosure, an electric shock accident may occur due to insulation breakdown inside the enclosure. concerns are growing.

An object of the present invention is to provide a fire extinguishing system that can safely and effectively perform fire suppression operations in a closed state of the fire-occurring space.

A fire extinguishing device according to an embodiment includes a fire extinguisher in which a glass bulb for blocking the discharge of a fire extinguishing agent is provided to be ruptured by a rupturing member and disposed inside an enclosed space; an operation unit installed on the outer surface of the enclosure, the interior of which forms the sealed space; may include; an operation unit for operating the rupture member so that the glass bulb is ruptured by the operation of the operation unit.

The manipulation unit includes a manipulation lever provided in a traction type, wherein the rupturing member is provided to rupture the glass bulb by moving along the traction direction of the manipulation lever, and the operating unit is made of a metal material, and the manipulation It may include; a wire member for connecting between the operation lever and the rupture member so as to be pulled by the lever.

The operation unit may further include an elastic member for elastically supporting the wire member when the operation lever is pulled, and the elastic member may be elastically deformed in the pulling direction.

A support is provided in the enclosed space to be closer to the operation part than the fire extinguisher, and the wire member includes: a first wire connecting the operation lever to the support; and a second wire connecting the first wire and the rupture member, wherein the elastic member includes a first elastic member connecting the first wire to the support.

The elastic member further includes; a second elastic member provided on the support to slidably support the second wire, wherein the second wire is hooked provided to be caught by the second elastic member in the pulling direction. may include;

In the elastic member, the second elastic member may be elastically deformed in a state in which the first elastic member is first elastically deformed by the traction operation of the operation lever.

The first elastic member may include a tension spring connecting between the first wire and the support, and the tension spring may be tensioned before the glass bulb is ruptured by the rupture member.

The second elastic member includes a plate spring having one end fixed to the support and the other end having a through hole through which the second wire passes and extending from the support, wherein the leaf spring is the first elastic member. After the member is elastically deformed, it may be elastically deformed to operate the rupture member.

The first elastic member is provided as a tension spring that connects between the first wire and the support to tension when the operation lever is pulled, and the second elastic member has one end fixed to the support, and the second wire The other end portion extending from the support having a through hole to pass through may be provided as a plate spring that is bent and deformed in the pulling direction of the operating lever when the operating lever is pulled.

The elastic member may be provided in plurality, and the plurality of elastic members may be elastically deformed with a time difference between each other by traction of the operation lever.

The manipulation unit may further include a case made of an insulating material and mounted with the manipulation lever.

The enclosure may further include a sealing member provided with a hole for drawing out the wire member, and sealing the hole while allowing the pulling operation of the wire member.

According to the fire extinguishing apparatus according to an embodiment, it is possible to safely and effectively perform a fire suppression operation in a state in which the fire generating space is closed.

1 is a perspective view illustrating an installation state of a fire extinguishing device according to an embodiment.
2 is a side view illustrating an installation state of a fire extinguishing device according to an embodiment.
3 is an enlarged perspective view of a main part structure of a fire extinguishing apparatus according to an embodiment.
FIG. 4 is an enlarged perspective view of the main part structure of the fire extinguishing apparatus according to an embodiment, and is shown in a different direction from FIG. 3 .
5 to 7 sequentially show the operation process of the fire extinguishing device according to an embodiment.
8 is a view showing a modified example of the operation unit in the fire extinguishing apparatus according to an embodiment.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The embodiments introduced below are provided as examples so that the spirit of the present invention can be sufficiently conveyed to those of ordinary skill in the art to which the present invention pertains. The present invention is not limited to the embodiments described below and may be embodied in other forms. In order to clearly explain the present invention, parts irrelevant to the description are omitted from the drawings, and in the drawings, the width, length, thickness, etc. of components may be exaggerated for convenience. Like reference numerals refer to like elements throughout.

1 to 4, the fire extinguishing device 1 according to an embodiment is for suppression of fire occurring in the enclosed space 2, and the enclosed space 2 is provided in the solar power generation facility. It can be the inner space of the junction box (3).

The junction box 3 is installed between the solar cell module and the solar inverter to collect the power generated by the solar cell array, and may serve to prevent backflow between each array or to prevent overcurrent of each array. The junction box 3 may check the operation state of each array and also serve to turn on or off the entire power.

The installation target of the fire extinguishing device (1) is not limited to the junction box (3) of the solar power generation facility. The fire extinguishing device 1 may be installed in an enclosure such as a distribution board or a junction box of various power facilities that form a predetermined enclosed space.

In the enclosed space 2 inside the structure in which the power material is embedded, such as a distribution board or junction box 3, there is a high risk of electric fire due to a short circuit due to penetration of moisture or dust or a spark that is likely to occur at the power connection part. . The fire extinguishing device 1 may be suitably used for suppression of a fire occurring in a predetermined enclosed space formed inside such an electric power facility-related structure.

The fire extinguishing device 1 includes a fire extinguisher 10 disposed in the enclosed space 2 inside the junction box 3 , an operation unit 20 installed on the outer surface of the junction box 3 , and the operation unit 20 . An operation unit 30 for operating the fire extinguisher 10 may be provided.

In the fire extinguisher 10, a glass bulb 12b that blocks the discharge of the extinguishing agent is provided to be rupturable by the rupturing member 12c, and the operation unit 30 has the glass bulb 12b by the operation of the operation unit 20. The rupture member 12c may be operated to rupture.

In the case of a fire in the enclosed space 2, the fire extinguishing device 1 configured as described above operates the fire extinguisher 10 by operating the operation unit 20 from the outside of the junction box 3 by the manager 30 to operate the fire extinguisher 10. By operating the closed space (2) while maintaining the closed state, it is possible to enter the fire occurring inside the closed space (2).

Therefore, according to the fire extinguishing device 1, since the fire extinguisher can extinguish the fire without fear of being exposed to heat or gas in the fire generating space, it is possible to prevent casualties due to fire suppression.

In addition, at this time, since it is possible to extinguish the fire in the initial stage, damage to the equipment inside the junction box 3 can be minimized.

The junction box 3 may include a main body 4 and a door (not shown) installed on the main body 4 . A door (not shown) may be provided to open and close the sealed space 2 inside the junction box 3 for operation or management of the junction box 3 . .

The fire extinguisher 10 may include a fire extinguisher 11 filled with a fire extinguishing agent and a control unit 12 that controls the discharge operation of the fire extinguishing agent discharged from the fire extinguisher 11 .

A glass bulb 12b that blocks the discharge of the extinguishing agent may be provided in the control unit 12 . An opening/closing member (not shown) for opening and closing the outlet 11a of the fire extinguisher 11 is provided inside the housing 12a of the control unit 12, and the glass bulb 12b operates the opening/closing member (not shown). It may be installed at the lower end of the housing 12a.

An opening/closing member (not shown) may be provided to open the outlet 11a when the glass bulb 12b is ruptured. When the temperature of the enclosed space 2 rises above a predetermined value due to the occurrence of a fire, the glass bulb 12b may be ruptured by the expansion action of the internal pressure according to the temperature rise. When the glass bulb 12b is ruptured, the opening/closing member (not shown) may open the outlet 11a so that the extinguishing agent is sprayed into the enclosed space 2 .

The rupture member 12c may force the glass bulb 12b to rupture at the initial stage of the fire when the temperature of the enclosed space 2 does not reach the rupture temperature of the glass bulb 12b so that the extinguishing agent is sprayed to the fire site. .

The rupture member 12c is provided with a ring-shaped steel wire surrounding the glass bulb 12b and can be moved so that the glass bulb 12b is cut during operation.

Unlike the figure, the fire extinguisher 10 may be provided so that the glass bulb 12b is directly connected to the outlet 11a of the fire extinguisher 11 . Various modifications of the fire extinguisher 10 may be used within the range in which the glass bulb 12b for blocking the discharge of the extinguishing agent is provided to be rupturable by the rupturing member 12c. That is, the fire extinguisher 10 may include all fire extinguishers in which the glass bulb 12b is rupturably provided by the rupture member 12c.

The fire extinguisher 11 may be installed in the upper part of the central part of the enclosed space 2 so as to evenly spray the extinguishing agent over the entire enclosed space 2 .

A bracket 5 on which the fire extinguisher 10 is installed is installed in the enclosed space 2 , and a fixing plate 6 for fixing the bracket 5 may be installed on the inner surface of the upper side of the enclosed space 2 .

The fire extinguisher 11 is supported on one side of the bracket 5 with the outlet 11a facing the bottom, and the regulation unit 12 is supported on the other side of the bracket 5 so that the glass bulb 12b can be disposed at the bottom. can be installed as much as possible.

The operation unit 20 may include a case 21 and an operation lever 22 provided in a traction type and mounted on the case 21 .

The operation unit 20 may be installed anywhere on the outer surface of the junction box 3 without being limited to a special position such as the side or front of the junction box 3 .

A seating groove 21a for seating the operation lever 22 is provided in the case 21 , and the case 21 may be provided with an insulating material to prevent an electric shock accident when the operation lever 22 is operated.

As shown in FIG. 8 showing a modified example, the manipulation unit 20 may further include a protective cover 23 . The protective cover 23 may be rotatably coupled to the case 21 to open and close the case 21 .

The protective cover 23 maintains a downwardly rotated state to cover and cover the operation lever 22 in normal times, thereby enhancing the waterproof and dustproof effect of the operation lever 22 and preventing the operation lever 22 from being erroneously operated. When the operation lever 22 is used, the protective cover 23 is rotated upward to expose the operation lever 22 to the outside.

Referring back to FIGS. 1 to 4 , the operation lever 22 may include a body 22a seated in the seating groove 21a and a handle 22b rotatably connected to the body 22a.

The rupture member 12c is provided to rupture the glass bulb 12b by moving along the traction direction of the operation lever 22 , and the operation part 30 is pulled by the operation lever 22 with the operation lever 22 and It may include a wire member 31 connecting between the rupture member 12c.

Accordingly, the wire member 31 may transmit the traction force of the operation lever 22 to the rupture member 12c so that the glass bulb 12b of the fire extinguisher 10 is ruptured by the rupture member 12c.

The wire member 31 may be provided through the wires 31a and 31b made of a metal material having excellent heat resistance such as steel wire so that there is no fear of being deformed by the heat inside the closed space 2 when a fire occurs.

An insulating layer for insulating the wire may be coated on the outer surfaces of the metal wires 31a and 31b constituting the wire member 31 .

In addition, the junction box 3 is provided with a hole 3a for drawing out the wire member 31, and the hole 3a is sealed through the sealing member 7 provided to allow the pulling operation of the wire member 31. can The sealing member 7 may include an O-ring 7a made of a rubber material.

The outer periphery of the O-ring 7a is closed by supporting the circumference of the hole 3a, and the wire member 31 can be fitted into the O-ring 7a so as to pass through the inner periphery of the O-ring 7a. The inner periphery of the O-ring 7a is in close contact with the wire member 31 , thereby suppressing the formation of a gap between the O-ring 7a and the wire member 31 . The O-ring 7a into which the wire member 31 is fitted may move together with the wire member 31 when the operation lever 22 is pulled.

A communication hole 21b is provided inside the seating groove 21a of the case 21 so as to communicate with the hole 3a, and on the rear surface of the body 22a of the operation lever 22, a fixing ring positioned toward the communication hole 21b (22c) may be combined. The wire member 31 may be connected to the rupture member 12c through the other end extending into the junction box 3 through the hole 3a in a state where one end is fixed to the fixing ring 22c.

In addition, the operation unit 30 may include an elastic member 32 that elastically supports the wire member 31 pulled by the operation lever 22 and elastically deforms in the pulling direction of the operation lever 22 .

The elastic member 32 elastically supports the wire member 31 in the pulling direction of the operation lever 22, thereby preventing the glass bulb 12b from being ruptured due to an erroneous operation of the operation lever 22, and the operation lever ( 22) is towed over a certain length, and the glass bulb 12b is ruptured to ensure stability according to the operation of the fire extinguisher 10 .

A support 8 for supporting the wire member 31 may be provided in the enclosed space 2 . The wire member 31 includes a first wire 31a connecting the operation lever 22 to the support 8 side, and a second wire 31b connecting between the first wire 31a and the rupture member 12c. may include And the elastic member 32 may include a first elastic member (32a) for connecting the first wire (31a) to one side of the support (8).

The support 8 may be provided in the closed space 2 to be located closer to the operation unit 20 than the fire extinguisher 10 . The support 8 may be coupled to the fixing plate 6 opposite the bracket 5 so as to extend downward.

The first wire 31a and the second wire 31b may be connected through the first connecting member 33a. The first connecting member 33a may be provided to connect one end of the second wire 31b between both ends of the first wire 31a. At this time, the first wire 31a is spread out in a straight line along the horizontal direction, and one end of the second wire 31b is bent between both ends of the first wire 31a through the first connection member 33a. It may be connected to the wire 31a. The first connecting member 33a may be connected in the form of mutually binding between the first wire 31a and the second wire 31b.

The moving distance of the rupturing member 12c that moves to rupture the glass bulb 12b according to the traction distance of the operation lever 22 may vary depending on the connection position of the second wire 31b connected to the first wire 31a. have. Therefore, in the fire extinguishing device 1, the traction distance of the operation lever 22 is adjusted so that the glass bulb 12b is ruptured in such a way that the administrator adjusts the connection position of the first connection member 33a on the first wire 31a. can be

The first elastic member 32a includes a tension spring 40 connecting between the first wire 31a and the support 8, and the tension spring 40 has a glass bulb 12b attached to the rupture member 12c. It may be provided to be tensioned before being ruptured.

One end of the tension spring 40 may be fixed to the support 8 , and the other end of the tension spring 40 may be connected to the end of the first wire 31a through the second connecting member 33b.

A connecting ring 34 provided with a steel wire is connected to the other end of the tension spring 40, and the second connecting member 33b is formed to bind the end of the connecting ring 34 and the first wire 31a to each other. can connect The first connecting member 33a and the second connecting member 33b may be caught in the hole 3a of the junction box 3 or may be selectively provided to pass through the hole 3a.

Therefore, when the manager accidentally pulls the operation lever 22 slightly, as shown in FIG. 6 , the fire extinguishing device 1 is in a state in which the rupture member 12c is not operated while the tension spring 40 is tensioned. It is possible to prevent the glass bulb 12b from being ruptured due to an erroneous operation of the operation lever 22 by maintaining the . When the manager removes the force applied to the operation lever 22 in this state, the operation lever 22 and the wire member 31 may return to their original positions by the restoring force of the tension spring 40 .

When an actual fire occurs, if the manager further pulls the operation lever 22 while the tension spring 40 is tensioned, the glass bulb 12b may be ruptured while the rupture member 12c is pulled by the second wire 31b. can

In addition, the elastic member 32 is composed of a plurality of elastic deformations at a time lag with each other by the traction of the operation lever 22 to prevent damage due to erroneous operation of the operation lever 22 and to ensure the safety of operation of the fire extinguisher 10 . action can be made more effective.

To this end, the elastic member 32 further includes a second elastic member 32b installed on the support 8 to slidably support the second wire 31b, and the second wire 31b is the operation lever 22 ) may include a locking portion 35 provided to be caught on the second elastic member 32b in the pulling direction.

The second elastic member 32b may be elastically deformed so that the rupture member 12c operates after the first elastic member 32a is elastically deformed.

The second elastic member 32b may be provided as a leaf spring 50 having one end fixed to the support 8 and the other end extending from the support 8 to slidably support the second wire 31b. .

The locking part 35 may be provided on the second wire 31b between the leaf spring 50 and the rupture member 12c so as to be caught on the other end of the leaf spring 50 .

One end of the leaf spring 50 forms a fixed end 51 and is fixed to the lower side of the support 8 , and the other end of the leaf spring 50 forms a free end 52 to extend downward from the support 8 . can

The free end 52 is provided so that the engaging portion 35 is caught, and the leaf spring 50 has the free end 52 supporting the engaging portion 35 when the second wire 31b is pulled, the fixed end 51 . ) may be elastically deformed in a manner of bending and deforming along the traction direction of the operation lever 22 based on the reference.

The free end 52 includes an extension 52a extending directly below the fixed end 51, and a first bent extension extending laterally from the end of the extension 52a toward the fire extinguisher 10 ( 52b) and a second bent extension portion 52c extending upward by a predetermined length from the end of the first extension extension portion 52b.

A through hole 52d through which the second wire 31b passes is formed in the extended portion 52a and the second bent extended portion 52c, and the engaging portion 35 may be provided to be caught in the through hole 52d.

The locking part 35 is bound to the circumference of the first wire 31b, and between the end of the second wire 31b and the rupture member 12c may be mutually bound through the third connecting member 33c.

The moving distance of the rupture member 12c that moves to rupture the glass bulb 12b according to the traction distance of the operation lever 22 may vary depending on the position of the locking part 35 . Therefore, in the fire extinguishing device 1, the traction distance of the operation lever 22 that causes the glass bulb 12b to rupture can be adjusted in such a way that the administrator adjusts the installation position of the locking part 35 on the second wire 31a. have.

Also, for reference, since the first elastic member 32a and the second elastic member 32b elastically support the wire member 31 in the pulling direction when the operation lever 22 is pulled, only one of them is different from the above-described form. Even if employed, it is possible to prevent damage due to erroneous operation of the operation lever 22 and perform a predetermined action to ensure the safety of operation of the fire extinguisher 10 .

Next, the operation of the fire extinguishing device 1 configured in this way will be described.

For reference, a fire detector (not shown) is installed in the enclosed space (2), and the photovoltaic power generation facility is a notification device (not shown) for visually or audibly notifying the surroundings of whether a fire has occurred, detected by a fire detector (not shown). city) can be provided. Therefore, the photovoltaic power generation facility manager can confirm that a fire has occurred in the enclosed space 2 through a notification device (not shown) and operate the operation unit 20 of the fire extinguishing device 1 .

5 shows the state of the fire extinguishing device 1 in normal times. When a fire occurs in the enclosed space 2 in this state, the manager can pull the operation lever 22 and pull the wire member 31 to the outside of the junction box 3 .

At this time, the manager may pull the operation lever 22 in the closed state of the junction box (3). When the junction box 3 is open, the manager can operate the operation lever 22 in a state in which he or she is not exposed to the heat or gas of a fire by closing the junction box 3 .

As shown in FIG. 6 , in this case, the first wire 31a may be pulled in the direction of the operation lever 22 while the tension spring 40 is tensioned first. In this state, the second wire 31b may be switched to a state capable of pulling the rupture member 12c while being stretched along the towed first wire 31a.

When the manager further pulls the operation lever 22 in the state of FIG. 6 , as shown in FIG. 7 , the first wire 31a and the second wire 31b are pulled toward the operation lever 22 together, and the plate As the spring 50 is elastically deformed by the engaging portion 35 , the rupture member 12c connected to the second wire 31b may be pulled to the side of the fire extinguisher 10 . Therefore, the glass bulb 12b is ruptured by the rupture member 12c, and the fire in the enclosed space 2 can be suppressed while the extinguishing agent is sprayed from the fire extinguisher 10 into the enclosed space 2 .

1: Fire extinguishing system 2: Confined space
3: Junction box 10: Fire extinguisher
11: fire extinguisher 12: enforcement unit
20: control unit 21: case
22: operation lever 30: operation part
31: wire member 31a: first wire
31b: second wire 32: elastic member
32a: first elastic member 32b: second elastic member
40: tension spring 50: leaf spring

Claims (12)

a fire extinguisher provided with a glass bulb for blocking the discharge of the extinguishing agent to be ruptured by a rupturing member and disposed inside the enclosed space;
an operation unit installed on the outer surface of the enclosure, the interior of which forms the sealed space; and
and an operation unit for operating the rupture member so that the glass bulb is ruptured by the operation of the operation unit,
The operation unit includes an operation lever for pulling the rupture member and moving the glass bulb to rupture,
The operation unit,
a wire member made of a metal material and connecting the operation lever and the rupture member to be pulled by the operation lever; and
It is provided to elastically deform in the pulling direction, and includes an elastic member for elastically supporting the wire member when the operation lever is pulled,
A support is provided in the enclosed space so as to be more adjacent to the operation unit than the fire extinguisher,
The wire member,
a first wire connecting the operation lever to the support side; and
and a second wire connecting between the first wire and the rupture member,
The elastic member is a fire extinguishing device including a first elastic member for connecting the first wire to the support. delete delete delete The method of claim 1,
The elastic member,
Further comprising; a second elastic member provided on the support to slidably support the second wire;
The second wire is
A fire extinguishing device comprising a; a locking portion provided to be caught on the second elastic member in the pulling direction. 6. The method of claim 5,
The elastic member is a fire extinguishing device in which the second elastic member is elastically deformed in a state in which the first elastic member is first elastically deformed by the traction operation of the operation lever. The method of claim 1,
The first elastic member,
Including; a tension spring connecting between the first wire and the support;
The tension spring is a fire extinguishing device that is tensioned before the glass bulb is ruptured by the rupture member. 6. The method of claim 5,
The second elastic member,
One end is fixed to the support, and the other end is provided with a through hole through which the second wire passes and a leaf spring extending from the support; includes;
The plate spring is elastically deformed after the first elastic member is elastically deformed to operate the rupture member. 7. The method of claim 6,
The first elastic member is provided as a tension spring that is tensioned when the operation lever is pulled by connecting between the first wire and the support,
The second elastic member has one end fixed to the support, and has a through hole through which the second wire passes, and the other end extending from the support is bent and deformed in the pulling direction of the operation lever when the operation lever is pulled. A fire extinguishing system provided with a leaf spring. a fire extinguisher provided with a glass bulb for blocking the discharge of the extinguishing agent to be ruptured by a rupturing member and disposed inside the enclosed space;
an operation unit installed on the outer surface of the enclosure, the interior of which forms the sealed space; and
and an operation unit for operating the rupture member so that the glass bulb is ruptured by the operation of the operation unit,
The operation unit includes an operation lever for pulling the rupture member and moving the glass bulb to rupture,
The operation unit,
a wire member made of a metal material and connecting the operation lever and the rupture member to be pulled by the operation lever; and
It is provided to elastically deform in the pulling direction, and includes an elastic member for elastically supporting the wire member when the operation lever is pulled,
The elastic member is provided in plurality,
A fire extinguishing device in which the plurality of elastic members are elastically deformed with a time difference between each other by the traction of the operation lever. The method of claim 1,
The operation unit,
Fire extinguishing device further comprising; a case provided with an insulating material to which the operation lever is mounted. The method of claim 1,
The enclosure is provided with a hole for drawing out the wire member,
Fire extinguishing device further comprising a; sealing member for sealing the hole while allowing the pulling operation of the wire member.

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