KR20150053867A - Gaseous and liquid-based sequential automatic fire extinguishing agent is injected extinguishing - Google Patents

Abstract

According to the present invention, as a gaseous fire extinguishing agent and a liquid fire extinguishing agent are filled in one fire extinguishing container, or the gaseous fire extinguishing agent and the liquid fire extinguishing agent are filled in each container, when a sensor senses fire, the gaseous fire extinguishing agent is automatically sprayed in advance, and the liquid fire extinguishing agent is secondly sprayed. The present invention can be applied to a place which needs to extinguish fire (embers) inside a dense (stacked) fire object in which it is needed to use a gaseous fire extinguishing agent, but gas is not permeated.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a gaseous and liquid-based sequential automatic fire extinguishing agent that is injected extinguishing agent,

The present invention relates to a fire extinguishing system in which gas-based and liquid-based extinguishing agents are sequentially injected automatically, and more preferably, in order to compensate for weakness of gas-based extinguishing agents and weaknesses of liquid- And the fire extinguishing agent is stored in the fire extinguishing mechanism so that the fire can be extinguished automatically while being sprayed sequentially.

In general, fire extinguishing agents in fire extinguishing facilities are classified into powder, gas, and liquid types, and the intended use is determined according to each characteristic. Until now, these have been used as separate fire extinguishing facilities by fire extinguishing agents. However, the gas-based fire extinguishing agent remained clean after digestion, and it was possible to arrange the field quickly, and exhibited considerable ability to extinguish electric fire, but was unable to dig deeply into a relatively dense space and was vulnerable to cleaning up.

This can be used in cases where the gas fire extinguishing agent can not exert its ability in a coal fire, or in the case of a cable tray fire with a crowded cable such as a duct, etc. However, fire extinguishing on the surface is good in the gas system fire extinguishing apparatus that automatically extinguishes the fire extinguishing agent by the detector or the self-sensing ability, but there is a problem that the fire in the place where the gas is difficult to penetrate such as dense materials is not arranged.

In addition, the liquid system fire extinguishing agent prevents the environmental pollution more than the gas fire extinguishing agent in the fire injection, is harmless to the human body, is easy to reuse, can penetrate every corner of the dense fire and can suppress the fire.

It is the result that did not seriously worry about the habitual thought and necessity of the digestion mechanism method which is generally used like this.

Therefore, when the cable is installed in the building and the cable is very densely packed, when the fire is generated from the inside of the accumulated cable and it is suppressed by the gas fire extinguishing agent (20), only the surface is turned off, Is still left. This is clearly evident from the test, and in 2012, a fire occurred in the cable treatment room of Boryeong Thermal Power Plant, causing the cable to burn down, causing the plant to shut down for more than a month.

However, since the conventional fire extinguishing mechanisms 11 and 12 separately use the gas extinguishing agent 20 and the liquid system extinguishing agent 30 as described above, the disadvantages of the liquid system extinguishing agent 30 are complemented It is not possible to study not only the impossible.

As shown in FIGS. 1A and 1B, the conventional fire extinguisher uses a single fire extinguisher. That is, each of the fire extinguishers 11 and 12, in which the single gas fire extinguishing agent 20 or the single liquid fire extinguishing agent 30 is separately filled, is used to suppress the fire. At this time, the gas-based extinguishing agent 20 and the liquid-system extinguishing agent 30 are filled in the separate extinguishing vessels 11 and 12, and the extinguishing vessel 11 is filled with the pressurizing gas 40, A siphon tube 50 is mounted in the interior of the housing 12. Therefore, when the valve 60 (general technology) is opened to use the extinguishing mechanism, the gas-extinguishing agent 20 and the liquid-system extinguishing agent 30 filled in the extinguishing vessel 11 40 and the siphon tube 50 so as to extinguish the fire.

[Prior Art Literature]

1. Korean Patent No. 10-0767241

2. Domestic Registration No. 20-0204646

The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to fill a fire extinguishing agent with a gas extinguishing agent and a liquid system extinguishing agent together in a single extinguishing mechanism, The purpose of this system is to make it possible to extinguish the cleanliness of the garbage in the field where it is difficult to clean the garbage, such as dense materials and piled materials, which are disadvantages of the automatic gas fire extinguishing system.

In addition, it is intended to inject gas-based extinguishing agent and liquid-based extinguishing agent into respective extinguishing apparatus so that the gas-extinguishing agent is injected through the connecting pipe during injection, and then the liquid-system extinguishing agent is sequentially injected automatically.

BRIEF DESCRIPTION OF THE DRAWINGS 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.

According to one embodiment of the present invention, a gas-extinguishing agent 20 and a liquid-system extinguishing agent 30 are stacked and packed together in one extinguishing container 10, and then the container is filled with an impregnation gas 40 such as nitrogen, There is a fire extinguisher container 11 in which a gas based fire extinguishing agent 20 is contained and a fire extinguishment container 12 in which a liquid system extinguishing agent 30 is contained separately from the containers 11 and 12, The systematic extinguishing agent 20 is injected first and then the surface of the liquid is extinguished, and then the liquid system extinguishing agent 30 is injected and discharged to the outside, Fire) is extinguished and the fire scene is cleanly organized.

The fire extinguishing system according to the present invention has the gas system fire extinguishing agent and the liquid system fire extinguishing agent injected simultaneously so that the gas system and the liquid system are injected sequentially when the fire is extinguished so that the gas system is first sprayed when the fire occurs, And secondly, the liquid system extinguishing agent is sprayed to the inside of the dense and stacked part where the gas fire extinguishing agent can not digest, as well as the surface fire, and the fire extinguishing agent can be completely removed in the space It is effective.

FIGS. 1A and 1B are perspective views showing a state in which a gas-based extinguishing agent and a liquid-based extinguishing agent in a conventional extinguishing vessel are separately filled.
2 is a perspective view showing an embodiment of a fire extinguishing mechanism according to the present invention.
3A is a perspective view showing an embodiment using a heat sensing tube according to the present invention.
FIG. 3B is a perspective view showing an example of a method of testing the FIG. 3A in a cable tray with a cable bundle.
4A is a perspective view showing an embodiment using a heat-sensitive discharge nozzle according to the present invention.
FIG. 4B is a perspective view illustrating an embodiment of a sequential spraying method using a separate detector, a controller, and a driving unit according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a person skilled in the art will be described in detail with reference to the drawings so as to facilitate the automatic extinguishing mechanism in which the gas-phase and liquid-system extinguishing agents of the present invention are sequentially injected. The description of known configurations of the prior art is already general and a detailed description thereof is omitted and the same reference numerals are used for the same names.

FIG. 2 shows that the gas-based extinguishing agent 20 and the liquid-based extinguishing agent 30 are contained in the same extinguishing container 10 as shown in FIG. 2, Can be realized.

First, the gas-based extinguishing agent 20 is put in the digestion vessel 10, and then the liquid-system extinguishing agent 30 is stacked and contained. Next, the pressurization gas 40 is loaded and pressure is applied. The gas-based extinguishing agent 20 is first injected through the phonon tube 50, and then the liquid-system extinguishing agent 30 is injected sequentially.

At this time, there are various kinds of gases that can be used in the gas-based fire extinguishing agent (20), and a good effect can be expected by using HFC-227ea which is a clean fire extinguishing agent. In addition, the liquid system extinguishing agent 30 can use a fortified liquid, an invasive extinguishing agent, etc. When an infiltrating and extinguishing agent such as F-500 or SILV-EX PLUS capable of penetrating into a micro space is used as a liquid system extinguishing agent A better effect can be expected.

3A is a perspective view of the heat sensing tube 70 in a state where the heat sensing tube 70 is connected to the fire extinguishing container shown in FIG. When the heat of the heat sensing tube 70 is applied to the heat sensing tube 70, a hole 71 is formed in the heat sensing tube 70, and the gas-based fire extinguishing agent 20 is first injected through the hole 71 of the heat sensing tube 70 through the siphon tube 50 And the liquid-system extinguishing agent 30 is sequentially injected through the hole 71 of the heat sensing tube 70. [0064]

First, the surface of the fire is extinguished by spraying the gas-based fire extinguishing agent 20, and then the liquid-based fire extinguishing agent 30 is injected secondarily to the interior of the accumulated cable, ) Will suppress the fire (fire) inside the cable that it did not suppress.

FIG. 3B shows an example of a fire test for a cable tray 80 having a densely stacked cable 90 in the configuration of the embodiment in which the fire extinguishing vessel 10 of the present invention equipped with the heat sensing tube 70 is installed and used to be.

4A shows a case where the heat sensing discharge nozzle 100 is opened when a certain level of heat is sensed using the heat sensing discharge nozzle 100 and the gas sensing fire extinguishing agent 100 filled in the fire fighting container 10 20 are sprayed, the liquid system extinguishing agent 30 is sprayed. This is also true of sprinkler heads. In the figure, the gas-based extinguishing agent 20 and the liquid-based extinguishing agent 30 are stored in separate extinguishers 11 and 12, and then the gas-extinguishing agent 20 and the liquid- But the fire extinguishing vessel 10 filled with the gas-based extinguishing agent and the liquid-based extinguishing agent may be used.

4B shows a state in which the sensing signal is transmitted to the controller 120 when the sensor 110 senses the sensing signal and the controller 120 instructs the driving unit 130 to emit the gas sensing agent 20, , And discharging the liquid system extinguishing agent (30) to sequentially release the medicament.

In addition to the above method, fire detection may be performed in various ways.

In addition, since the liquid system extinguishing agent (30) is mixed with water and used in many ways, it is necessary to confirm the temperature of the agent. Depending on the application environment, it may be installed in an environment where the temperature falls below a certain level during the year.

At this time, there may be a method of mixing antifreeze and a method of sealing the fire extinguishing container as much as possible with a heat insulating material (warming case), and antifreeze should be considered that toxic substances may occur in case of fire.

While the present invention has been described in connection with what is presently considered to be preferred embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments.

In addition, it is a matter of course that various modifications and variations are possible without departing from the scope of the technical idea of the present invention by anyone having ordinary skill in the art.

10, 11, 12: fire extinguishing container
10a: Connector
20: Gas-based fire extinguishing agent
30: liquid system extinguishing agent
40: Pressurized gas
50: Siphon tube
60: Valve
70: Heat sensing tube
71. Hole
80: Tray
90: Cable
100
110: Detector
120: controller
130:

Claims (6)

The gas-based extinguishing agent 20 and the liquid-system extinguishing agent 30 are filled in the one extinguishing vessel 10 and filled with the pressurized gas 40, or the gas-extinguishing agent 20 and the liquid- The fire extinguishing agent 30 and the liquid system extinguishing agent 30 are injected into the respective fire extinguishing containers 11 and 12 to connect the gas extinguishing agent 20 and the liquid system extinguishing agent 30 to each other through the connection pipe 10a, Wherein the liquid-system extinguishing agent (30) is injected sequentially after the gas-phase extinguishing agent (20) is injected first, and then the liquid-system extinguishing agent (30) is injected sequentially.
The method according to claim 1,
The heat sensing tube 70 is connected to the fire extinguishing vessel 10, 11 and 12 and the gas extinguishing agent 20 and the liquid system extinguishing agent 30 are sequentially injected through the holes 71 generated by heat Characterized in that the gas system and the liquid system fire extinguishing agent are sprayed in order. The method according to claim 1,
When a certain level of heat is detected by the thermal sensing discharge nozzle 100 connected to the fire extinguishing vessel 10, 11 or 12, the gas extinguishing agent 20 is automatically sprayed, 30) are injected in sequence, wherein the gas system and the liquid system fire extinguishing agent are sequentially sprayed in an automatic manner. The method according to claim 1,
The fire extinguishers 10, 11 and 12 are sensed by a separate sensor 110 and a sensing signal is transmitted to the controller 120 so that the controller 120 commands the fire extinguishing, Characterized in that the medicament (20) and the liquid-system extinguishing agent (30) are injected, wherein the gas-based and liquid-system extinguishing agent are sequentially injected into the extinguishing mechanism The method according to claim 1,
Characterized in that the liquid system extinguishing agent (30) is mixed with an antifreeze, and the gas system and the liquid system extinguishing agent are sequentially sprayed automatically. The method according to claim 1,
Wherein the fire extinguishing container (10) (11) (12) is sealed with a heat insulating material as much as possible, and the gas system and the liquid system fire extinguishing agent are sequentially injected automatically.

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