KR20190096221A - independent fire extinguishing apparatus - Google Patents

Abstract

A self-supporting fire extinguishing apparatus according to the present invention comprises: a heat detection unit (100); a high-pressure air unit (200); and a fire extinguishing solution supply unit (300). Therefore, the present invention automatically detects when a fire breaks out, thereby automatically spraying a fire extinguishing solution.

Description

Independent fire extinguishing apparatus

The present invention relates to a self-supporting fire extinguishing device, and more particularly, a self-supporting fire extinguishing device capable of automatically supplying extinguishing fluid using high pressure gas in a state in which a fire is independently detected without a separate power supply from the outside. Relates to a device.

Conventionally, there are several types of systems installed to extinguish fires by setting up disaster prevention zones in buildings or industrial sites as a means to extinguish the fire early. In these various systems, the water tank on the roof of the building and the fire extinguishing pipe installed on the ceiling are connected to send a signal detected by the detector to the central processing unit in the event of a fire, and the central processing unit opens the pipe shutoff valve connected to the water tank to open the water. A fire extinguishing system is used that allows the fire to be extinguished at an early stage by being sprayed through a spray nozzle installed in the ceiling. In addition, a sprinkler device is used to fill the fire extinguishing gas or extinguishing water in the building's fire extinguishing pipe so that the sprinkler fuse melts due to the temperature at the time of fire and water is automatically sprinkled to extinguish the fire at an early stage.

On the other hand, the buildings built before the installation of fire extinguishing sprinklers are legally exposed to fire, and almost all large fires occur in places where there is no in-house fire extinguishing facilities such as conventional markets. .

In addition, sprinkler installation is not mandatory in general buildings such as apartments, so the fires in the apartments have almost no early fire extinguishing performance. In other words, all buildings without sprinklers are virtually open to fire. On the other hand, additional installation of the sprinkler on the building of the already completed construction may be an impossible task.

In particular, in the case of fires in residential buildings such as apartments, sprinklers are currently installed, considering that about 80% of fires occurred at a specific point in a room, such as a kitchen with a cooking stove. Assuming a fire in a non-apartment apartment, it is not difficult to anticipate the loss of life and property.

Korean Patent Laid-Open Publication No. 10-2011-0085509 discloses a composite fire extinguishing system in which a nitrogen generator and a water spray system are combined to simultaneously inject water and nitrogen gas from one nozzle to increase the extinguishing effect. In the above-mentioned conventional patent document, it can be confirmed that the contents of increasing the extinguishing effect by simultaneously generating a suffocating action of the nitrogen gas extinguishing agent and a cooling extinguishing action of water injection can be confirmed.

(Patent Document 1) KR 10-2011-0085509 A

In the present invention, the fire extinguishing tank disposed independently in the absence of a separate power supply from the outside, the high pressure gas tank connected to the extinguishing liquid tank and in a state coupled to interlock with the fire detection unit for detecting a high temperature in the state connected to the high pressure gas tank, It is an object of the present invention to provide a self-supporting fire extinguishing device that automatically detects a fire when a fire occurs through a fire detection unit and automatically sprays a fire extinguishing liquid embedded in a fire extinguishing tank through opening the high pressure gas tank.

Self-supporting fire extinguishing device according to the present invention for achieving the above object is a heat detection unit 100 using the property of thermal expansion and at the same time to transfer the heat energy from the fire occurrence point; A high pressure gas unit 200 having a structure capable of discharging the high pressure gas stored therein by the heat sensing unit 100; And a fire extinguishing liquid supply unit 300 capable of discharging a high pressure of the extinguishing liquid stored therein by the high pressure gas discharged from the high pressure gas unit 200, wherein the heat sensing unit 100 includes a thermal expansion liquid 111. ) Of the thermal expansion tank 110, the thermal expansion liquid capillary 120 and the thermal expansion liquid capillary 120 to enable the movement of the thermal expansion liquid 111 in a state connected to the thermal sensing tank 110 It includes a bellows portion 130 coupled to the end, the high pressure gas unit 200, a high pressure gas tank 210, a high pressure gas discharge valve 230 connected to the high pressure gas tank 210, the high pressure gas discharge A valve cover 240 coupled to cover an open side of the valve 230, a diaphragm 250 coupled to the inside of the valve cover 240, and a state in which the valve cover 240 is slidably coupled through the valve cover 240. Outer surface of the diaphragm 250 A diaphragm push rod 252 disposed in close contact therewith, and a valve punch 260 in close contact with the inner surface of the diaphragm 250 within the high pressure gas discharge valve 230, and the high pressure gas tank 210. The high pressure gas inside is discharged only by the expansion of the bellows 130 and the movement of the valve punch 260.

The high pressure gas discharge valve 230 includes a hollow cylindrical valve body 231 having an upper portion open, a hollow cylindrical valve guide 233 disposed on the inside of the valve body 231, and the valve. A gas inlet pipe 220 including a valve cover coupling end 235 formed on an outer upper end of the main body 231, and installed on one side of the high pressure nitrogen tank 210, has a lower end of the valve guide 233. It is a structure that communicates through.

The high pressure gas unit 200 is disposed in the discharge valve 230 so as to surround the valve partition 270 and the valve punch 260 disposed on the end of the valve punch 260. And a partition fixing part 280 that fixes the partition wall 270 in the high pressure gas discharge valve 230, and the valve partition wall 270 is disposed on an open upper end of the valve guide 233. In the fixed by the partition fixing part 280, in the state the valve punch 260 is disposed to be movable through the inside of the partition fixing portion 280.

The extinguishing liquid supply unit 300, the extinguishing liquid tank 310, the extinguishing liquid supply pipe 320 coupled through the inner and outer parts of the extinguishing liquid tank 310, the supply of the extinguishing liquid having a hollow shape connected to the outer side of the extinguishing liquid supply pipe 320 A valve 330, a digestive fluid valve partition 340 disposed in the extinguishing fluid supply valve 330, a extinguishing fluid discharge pipe 350 installed in communication with the extinguishing fluid supply valve 330, and connected to an end of the extinguishing fluid discharge pipe 350. Extinguishing fluid spray nozzle 360.

As described above, the present invention provides a fire extinguishing tank that is independently disposed without a separate power supply from the outside, a high pressure gas tank connected to the extinguishing liquid tank, and a fire detection unit for detecting a high temperature in a state connected to the high pressure gas tank. In a combined state, the fire is automatically detected through the fire detection unit in the event of a fire to automatically spray the extinguishing liquid contained in the extinguishing liquid tank through the opening of the high pressure gas tank.

As described above, the present invention is a digestive fluid tank that enables the supply of extinguishing fluid on its own without supplying water from the outside, a high-pressure gas tank for supplying a high pressure gas for supplying a driving force to eject the extinguishing fluid at a high pressure from the digestive fluid tank, and independent When the fire is detected by the three independent units, such as a fire detection unit for opening the gas shutoff valve of the high-pressure gas tank by using a thermal expansion property is arranged in an integrated state integrating the external water and It provides a self-contained fire extinguishing device that can extinguish a fire as a complete entity without any separate power source, including electricity.

 In the present invention, the installation floor area required for an apartment is only about 60 × 60 cm 2 (0.11 pyeong), and it is an extremely simple structure because it is only an area for placing a small chair. The possibility of causing a related problem is quite small.

The present invention maintains the mechanically separated state of the independent engine having three different functions, such as a fire extinguishing tank, a high pressure gas tank, and a fire detector, and all the accessories are made of stainless steel, and thus the life is semi-permanent. It is possible to relocate to a new building even if the life of the first building is over. As such, it has an advantage incomparable with chemical powder fire extinguishers whose function is lost after a certain period of time after installation.

1 shows the overall configuration of a self-supporting fire extinguishing device according to an embodiment of the present invention.
2 shows a heat sensing unit constituting a self-supporting fire extinguishing device.
3 shows a high pressure gas unit constituting a self-supporting fire extinguishing device.
4 and 5 specifically show the operation of the high-pressure gas unit constituting the self-supporting fire extinguishing device.
6 and 7 specifically show the operation of the extinguishing fluid supply unit constituting the self-supporting fire extinguishing device.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of the present invention in more detail. However, the present invention is not limited to the embodiments disclosed below, but will be implemented in various forms, and only the embodiments are intended to complete the disclosure of the present invention, and to those skilled in the art the scope of the invention. It is provided for complete information. Like numbers refer to like elements on the drawings.

In adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are assigned to the same components as much as possible even though they are shown in different drawings. In addition, in describing the present invention, when it is determined that the detailed description of the related well-known configuration or function may obscure the gist of the present invention, the detailed description thereof will be omitted.

Hereinafter, a self-supporting fire extinguishing device according to an embodiment of the present invention with reference to the drawings.

1 to 4, the self-supporting fire extinguishing device enables the gas supply from the high-pressure gas unit 200 to be described later by using the property of transferring thermal energy from the fire occurrence point and thermal expansion at the time of fire occurrence. The high pressure gas unit 200 and the high pressure gas unit having a structure in which a gas discharge valve can be opened by the heat detection unit 100 in a state in which the heat detection unit 100 and the heat detection unit 100 are independently disposed. It includes a fire extinguishing liquid supply unit 300 to enable the high-pressure jet of the fire extinguishing liquid stored therein by the high pressure gas discharged from the 200.

The thermal sensing unit 100 is a thermal expansion liquid capillary tube 120 that enables the movement of the thermal expansion liquid 111 in a state in which the thermal expansion liquid 111 is accommodated in the thermal sensing tank 110 and the thermal sensing tank 110. ) And a bellows portion 130 coupled to the end of the thermal expansion liquid capillary tube 120.

The heat sensing tank 110 may be in the form of a tube tube made of copper material, for example. When the thermal expansion liquid, which is a substance having a high thermal expansion coefficient, such as white kerosene, expands by receiving thermal energy from a fire occurrence point, the expanded thermal expansion liquid is transported at high speed through the thermal expansion liquid capillary tube 120 to form a bellows portion 130. )

The bellows portion 130 may be in the form of a metal bellows tube made of stainless steel. That is, it may have a form extending in one direction through the instantaneous expansion of the thermal expansion liquid in a fixed state on the end of the thermal expansion liquid capillary tube 120 by welding.

2, the operation process of the bellows 130 is as follows.

If no fire is detected, the bellows 130 has a completely reduced state. Meanwhile, as shown in the lower part of FIG. 2, when a fire occurs and the flame approaches the heat sensing tank 110, the thermal expansion liquid in the heat sensing tank 110 rapidly expands. The expanded thermal expansion liquid enables expansion of the bellows portion 130 through volume expansion within the bellows portion 130 in the folded state.

The high pressure gas unit 200 is based on the high pressure nitrogen tank 210 for storing the high pressure nitrogen gas therein, the gas inlet pipe 220 and the gas inlet pipe 220 which are installed in communication on one side of the high pressure nitrogen tank 210. And a valve cover which is disposed to face the high pressure nitrogen tank 210 and is coupled to cover an open side of the high pressure gas discharge valve 230 and the high pressure gas discharge valve 230 which are installed in communication on the gas inlet pipe 220. The diaphragm push rod 252 closely disposed on the outer surface of the diaphragm 250 in a state in which the diaphragm 250 coupled to the inner side of the valve cover 240 and the valve cover 240 are slidably coupled thereto. ), A valve punch 260 disposed in close contact with the inner surface of the diaphragm 250 in the high pressure gas discharge valve 230, and a valve partition wall 270 disposed on an end of the valve punch 260 in the discharge valve 230. ), With the valve punch 260 disposed to surround A partition wall fixing part 280 and a gas discharge pipe 290 for fixing the valve partition wall 270 in the high pressure gas discharge valve 230 are included.

The high pressure nitrogen tank 210 maintains the state of high pressure nitrogen semi-permanently by having a sealed state so as not to be affected even under mechanical and physical contact with the outside.

The high pressure gas discharge valve 230 includes a hollow cylindrical valve body 231 having an upper portion open, a hollow cylindrical valve guide 233 disposed on the inside of the valve body 231, and a valve body 231. And a valve cover coupling end 235 formed on the outer top of the valve. The gas inlet pipe 220 communicates through the lower end of the valve guide 233, and the gas discharge pipe 290 communicates through the side wall of the valve body 231.

The valve partition 270 is stably fixed by the partition fixing part 280 in a state of being disposed on the open upper end of the valve guide 233. In this state, the valve punch 260 is disposed to be movable through the inner side of the partition fixing part 280. On the other hand, during the lower movement of the valve punch 260, the diameter of the inner surface of the valve guide 233 is formed to be greater than or equal to the inner diameter of the partition fixing portion 280 to enable a smooth sliding movement.

Looking at the operation of the high pressure gas unit 200 with reference to Figures 4 and 5 as follows.

Through expansion of the bellows portion 130, the diaphragm push rod 252 disposed at the end of the bellows portion 130 slides through the valve cover 240 to move inside the valve cover 240.

The downward movement of the diaphragm pushrod 252 causes deformation of the diaphragm 250 having a flexible property.

According to the deformation to the lower side of the diaphragm 250, the valve punch 260 closely disposed on the inner surface of the diaphragm 250 also moves downward in the high pressure gas discharge valve 230.

In a state where the partition wall fixing part 280 having a hollow ring shape fixes the valve partition wall 270 in the high pressure gas discharge valve 230, the partition wall fixing part 280 guides when the valve punch 260 moves downward. Do this.

As the punch blade 262 formed at the end of the valve punch 260 cuts the valve partition wall 270 as the valve punch 260 moves downward, the high pressure gas flows through the gas inlet pipe 220 and the valve guide 233. Create a fluid state.

As described above, the high-pressure gas introduced through the opening of the valve partition wall 270 is diffused into the valve body 231 through the punch flow hole formed on the side of the valve punch 260, and thus the gas discharge pipe 290. It flows through the digestive fluid supply unit 300 through.

The present invention has a core structural feature that allows nitrogen in the high pressure nitrogen tank 210 having a semi-permanently sealed state to be discharged only by expansion of the bellows 130 and downward movement of the valve punch 260.

The digestive fluid supply unit 300 includes a digestive fluid tank 310, a digestive fluid supply pipe 320 coupled through the inside and the outside of the digestive fluid tank 310, and a hollow extinguishing fluid supply valve 330 connected to an outer side of the digestive fluid supply pipe 320. Fire extinguishing fluid discharge pipe is installed in communication with the extinguishing fluid supply valve 330 in a manner opposite to the extinguishing fluid supply pipe 320 on the basis of the extinguishing fluid valve partition 340 disposed in the extinguishing fluid supply valve 330 and the extinguishing fluid supply valve 330. 350, and a extinguishing liquid spray nozzle 360 connected to an end of the extinguishing liquid discharge pipe 350.

The digestive fluid tank 310 normally has a semi-permanently unalterable state as the internal pressure maintains the same pressure as the atmospheric pressure, but in the event of a fire, the digestive fluid is supplied through the high pressure nitrogen supplied from the high pressure nitrogen tank 210. At the same time the valve 330 is opened to supply the extinguishing liquid.

 The digestive fluid supply valve 330 is coupled to an upper end of the lower valve housing 332 and the lower valve housing 332 which is communicatively coupled to the digestive fluid supply pipe 320 and an upper valve housing 334 that is communicatively coupled to the digestive fluid discharge pipe 350. It includes. The digestive fluid valve partition 340 is fixed without swinging between the lower valve housing 332 and the upper valve housing 334.

Looking at the operation of the digestive fluid supply unit 300 with reference to Figures 6 and 7 as follows.

The high pressure nitrogen gas flowing into the extinguishing liquid supply unit 300 through the gas discharge pipe 290 while being diffused into the valve body 231 is stored in the extinguishing liquid tank 310 while entering the extinguishing liquid tank 310. The extinguishing fluid acts to push through the extinguishing fluid supply pipe 320. That is, the nitrogen gas supplied to the region other than the region in which the extinguishing liquid is stored in the extinguishing liquid tank 310 causes the extinguishing liquid valve partition 340 installed in the extinguishing liquid supply valve 330 to be pushed down through the process of pushing the extinguishing liquid at a high pressure.

As described above, the extinguishing liquid flowing through the extinguishing liquid tank 310, the extinguishing liquid supply pipe 320, the extinguishing liquid supply valve 330, and the extinguishing liquid discharge pipe 350 is in a state capable of spraying the extinguishing liquid spray nozzle 360 onto the flame.

As described above, the present invention provides a fire extinguishing tank that is independently disposed without a separate power supply from the outside, a high pressure gas tank connected to the extinguishing liquid tank, and a fire detection unit for detecting a high temperature in a state connected to the high pressure gas tank. In the combined state, the fire is automatically detected through the fire detection unit in the event of a fire to automatically spray the extinguishing liquid contained in the extinguishing tank through the open of the high pressure gas tank.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and changes without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the equivalent scope should be interpreted as being included in the scope of the present invention.

100: heat detection unit
110: heat sensing tank
111: thermal expansion liquid
120: thermal expansion liquid capillary
130: bellows
200: high pressure gas unit
210: high pressure nitrogen tank
220: gas entry pipe
230: high pressure gas discharge valve
240: valve cover
250: diaphragm
252: Diaphragm Push Rod
260: Valve Punch
270: valve bulkhead
280: partition fixing part
290 gas discharge pipe
300: digestive fluid supply unit
310: digestion tank
320: digestive fluid supply pipe
330 digestive fluid supply valve
340: fire extinguishing valve bulkhead
350: digestive fluid discharge pipe
360: extinguishing fluid spray nozzle

Claims (4)

A heat sensing unit 100 using a property of thermally expanding at the same time as transferring heat energy from a fire occurrence point;
A high pressure gas unit 200 having a structure capable of discharging the high pressure gas stored therein by the heat sensing unit 100; And
And a fire extinguishing liquid supply unit 300 that enables high pressure jet of the extinguishing liquid stored therein by the high pressure gas discharged from the high pressure gas unit 200.
The thermal sensing unit 100, the thermal expansion liquid to enable the movement of the thermal expansion liquid 111 in a state connected to the thermal sensing tank 110, the thermal sensing tank 110 in a state in which the thermal expansion liquid 111 is accommodated. Capillary tube 120 and the bellows portion 130 is coupled to the end of the thermal expansion liquid capillary tube 120,
The high pressure gas unit 200 is coupled to cover an open side of the high pressure gas tank 210, the high pressure gas discharge valve 230 connected to the high pressure gas tank 210, and the high pressure gas discharge valve 230. A valve cover 240, a diaphragm 250 coupled to the inside of the valve cover 240, and a close contact with the outer surface of the diaphragm 250 in a state of being slidably coupled through the valve cover 240. A diaphragm push rod 252 and a valve punch 260 closely disposed on an inner surface of the diaphragm 250 in the high pressure gas discharge valve 230,
High pressure gas in the high pressure gas tank 210 is discharged only by the expansion of the bellows portion 130 and the movement of the valve punch 260,
Self-contained fire extinguishing device.
The method of claim 1,
The high pressure gas discharge valve 230,
A hollow cylindrical valve body 231 having an upper portion open, a hollow cylindrical valve guide 233 disposed on the inside of the valve body 231, and an outer upper end of the valve body 231. A valve cover coupling end 235,
The gas inlet pipe 220 installed on one side of the high pressure nitrogen tank 210 has a structure in communication through a lower end of the valve guide 233,
Self-contained fire extinguishing device.
The method of claim 1,
The high pressure gas unit 200,
The high pressure gas discharges the valve partition 270 in the discharge valve 230 and the valve partition 270 disposed on the end of the valve punch 260 and the valve partition 270 in a state of surrounding the valve punch 260. Further comprising a partition fixing portion 280 for fixing in the valve 230,
The valve partition 270 is fixed by the partition fixing part 280 in a state of being disposed on an open upper end of the valve guide 233, and in this state, the valve punch 260 is fixed to the partition fixing part. Disposed movably through the inside of 280,
Self-contained fire extinguishing device.
The method of claim 1,
The digestive fluid supply unit 300,
A digestive fluid tank 310, a digestive fluid supply pipe 320 coupled through the inside and outside of the digestive fluid tank 310, a hollow extinguishing fluid supply valve 330 connected to an outer side of the extinguishing fluid supply pipe 320, and the extinguishing fluid supply valve Fire extinguishing valve partition wall 340 disposed in the 330, the extinguishing fluid discharge pipe 350 is installed in communication with the extinguishing fluid supply valve 330 and the extinguishing fluid spray nozzle 360 connected to the end of the extinguishing fluid discharge pipe 350 ,
Self-contained fire extinguishing device.

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