KR20100065487A - An automatic fire extinguishing equipment using gas hydrate - Google Patents

Abstract

PURPOSE: An automatic fire-extinguishing device is provided, which can use the materials which are stable thermodynamically, has simple design, and minimizes malfunction or breakdown. CONSTITUTION: An automatic fire-extinguishing device using the gas hydrate includes: a storage(110) in which the gas hydrate is stored; and a nozzle unit(120) squirting the dissociated gas from the gas hydrate saved in the storage to the fire occurring place while being connected to the storage. The storage is maintained at the constant temperature and pressure that the gas hydrate is not dissociated before fire breaks out. The gas hydrate(111) is dissociated from the storage by rise of the temperature and pressure of the storage after fire breaks out.

Description

An automatic fire extinguishing equipment using gas hydrate

The present invention relates to an automatic fire extinguishing device, and more particularly, to an automatic fire extinguishing device using gas hydrate.

Typically, firefighting equipments in buildings are sprayed with water or chemicals on fires by using fire extinguishing equipment, halon fire extinguishing equipment and sprinkler watering equipment according to the fire alarm signal by automatic detector or manual fire alarm in case of fire. To extinguish the fire.

A saturation facility is a facility used for fires such as flammable liquids, which are less effective due to water extinguishing or may be a fire hazard. The sintering equipment is suffocated by suffocating air by blocking the air by covering the surface of the combustion product with a collection of fine bubbles formed by foaming the air with an aqueous solution mixed with water and a foaming agent in a constant ratio. In addition, the foaming equipment has a cooling and extinguishing effect by the water contained in the fabric. Saturation equipment is also suitable for extinguishing large-scale fires and is effective for extinguishing outdoor fires. The saturation equipment is generally composed of a water source, a pressurized water supply device, a pore discharge port, a pore liquid storage tank, a mixing device, a pipe, and a fire detection device.

The halon fire extinguishing facility is a facility to suppress and extinguish the combustion reaction of fire by using a halogen compound extinguishing agent. Halogen compound extinguishing agent refers to a mixture of aliphatic saturated hydrocarbons with halogen elements F, CL and Br. Halogen extinguishing agents are excellent in suppressing the chain reaction of combustion.

Sprinkler (springcooler) is an automatic fire extinguishing system that automatically blows fuses in response to the fire from the head, water is popped out, showers in each deflector, fire extinguishing, and notifies fire. The facility consists of a sprinkler head for raining, a pipe for water supply, an alarm, a pump and a water source. Sprinklers are divided into several types according to the head and the water supply method. Sprinklers are strengthening their installation regulations where it is difficult to enter fire trucks such as high-rise buildings, basement floors, and windowless floors. Sprinklers are particularly effective against early fires. Sprinkler is cheap because it is water extinguishing agent and easy to recover after digestion. The sprinkler has a mechanical structure of the sensing unit, and there is little malfunction and error, and it is easy and safe to operate. In addition, the sprinkler is fully automatic and automatically detects fire and extinguishes and alarms even when there are no people.

However, although the existing fire extinguishing equipment is expensive in construction and installation, there is a blind spot for extinguishing in the building because it is vulnerable to extinguishing fires located in the periphery of the building. In addition, the existing fire extinguishing equipment does not have a separate means to cut off the oxygen supply around the ignition source, there is a limit to the initial fire extinguishing capacity of the initial fire. In addition, the water used in the watering equipment can cause problems such as substances that are easy to extinguish fires, electronics and art. In addition, although not mentioned as a type of the existing fire extinguishing equipment, there is a device for discharging disaster prevention gas in a high-pressure container to eject in the event of a fire. Such a device also has a complicated structure and a possibility of malfunction, which limits its practical use. In addition, since the shape of the pressure vessel is constant and occupies a constant volume, there are spatial constraints.

Gas hydride (Gas Hydrate) refers to a solid material formed by combining a gas such as carbon dioxide (CO ₂ ) with a water molecule or a polar solvent that is hydrogen-bonded. It aims at maximizing extinguishing function by saving gas automatically in case of fire after storing.

The present invention is to solve the above problems of the prior art, an object of the present invention is to provide an automatic fire extinguishing device that can use a thermodynamically stable material, the structure is simple, and malfunction or failure can be minimized. In addition, an object of the present invention by combining a gas fired clean extinguishing agent such as carbon dioxide or HFC series or halon series excellent in extinguishing function with a water molecule or a polar solvent stably stored in the form of gas hydrate and automatically fires in case of fire It aims to maximize the extinguishing function by ejecting the gas. This invention is to provide an automatic fire extinguishing device that can use a variety of gas hydrate for extinguishing, and minimizes the space constraints. It is also an object of the present invention to provide an automatic fire extinguishing device that can be applied to a special place such as an art gallery or a museum.

In order to achieve the above object, the present invention is a gas hydrate storage unit; And a nozzle unit connected to the storage unit and injecting the gas dissociated from the gas hydrate stored in the storage unit into a fire occurrence place.

In another aspect, the present invention provides an automatic fire extinguishing device, characterized in that the storage unit is maintained at a constant temperature and a constant pressure which does not dissociate the gas hydrate before a fire occurs.

In another aspect, the present invention provides an automatic fire extinguishing device, characterized in that the temperature and pressure of the storage unit is increased after the fire occurs, the gas hydrate is dissociated to generate gas and solvent.

In another aspect, the present invention provides an automatic fire extinguishing device, characterized in that the gas hydrate comprises a solvent and a gas.

The present invention also provides an automatic fire extinguishing device, characterized in that the solvent is at least one selected from the group consisting of water, phenol and ketone.

In another aspect, the present invention provides an automatic fire extinguishing device, characterized in that the gas is at least one selected from the group consisting of carbon dioxide, nitrogen gas, SF ₆ gas, HFC-based gas, halon-based gas.

In another aspect, the present invention provides an automatic fire extinguishing device, characterized in that the nozzle portion is opened after the fire occurs, the gas and solvent dissociated from the gas hydrate is injected into the fire generating place.

In another aspect, the present invention provides an automatic fire extinguishing device, characterized in that the nozzle unit further comprises an opening and closing means.

In addition, the present invention provides an automatic fire extinguishing device, characterized in that the nozzle unit further comprises an electronic sensor device.

The automatic fire extinguishing device of the present invention uses a thermodynamically stable material, and the structure is simple, and malfunction or failure can be minimized. The automatic fire extinguishing apparatus of the present invention can use various gas hydrates, and can minimize space constraints. In addition, the automatic fire extinguishing device of the present invention can be applied to a special place such as an art gallery or a museum.

EMBODIMENT OF THE INVENTION Hereinafter, this invention is demonstrated in detail.

1 is a view showing an automatic fire extinguishing device according to an embodiment of the present invention before a fire occurs.

1, an automatic fire extinguishing device according to an embodiment of the present invention includes a storage unit 110 and a nozzle unit 120.

The storage unit 110 included in the automatic fire extinguishing device of the present invention stores the gas hydrate 111 and is maintained at a constant temperature and a constant pressure at which the gas hydrate 111 is not dissociated before the fire occurs. The shape of the storage unit 110 is not particularly limited as long as it can store the gas hydrate and maintain a constant temperature and a constant pressure so that the gas hydrate is not dissociated.

The kind of the gas hydrate 111 stored in the storage unit 110 is not particularly limited, but is preferably a gas hydrate that does not contaminate electronic products or artworks. Here, the gas hydrate is a substance capable of hydrogen bonding called a host and composed of water or a polar solvent, which is a nonflammable solvent, and a gas called a guest. The solvent is preferably at least one selected from the group consisting of water, phenol and ketone, and the gas is carbon dioxide, nitrogen gas, SF ₆ gas, HFC-based gas, halon, which are gases having excellent insulation and combustion blocking function. It is preferable that it is at least one selected from the group consisting of (Halon) -based gas, other disaster prevention gas and clean extinguishing agent. The gas hydrate may be composed of multiple combinations of subject-object groups. For example, the gas hydrate may be composed of (one or multiple kinds of subject substances) — (one or multiple kinds of subject substances). In addition, the gas hydrate may be produced by further including an additive as necessary.

Among these, carbon dioxide-water-gas hydrate may be produced as carbon dioxide hydrate by reacting carbon dioxide with water at 4 ° C. and 20 atm, wherein carbon dioxide in the hydrate may be compressed 100 times or more than at normal pressure. That is, although carbon dioxide-water-hydrate takes up little space, a large amount of carbon dioxide can be stored, thereby maximizing the extinguishing effect in the event of a fire. Here, in order to maximize the extinguishing effect of carbon dioxide-water-hydrate in the event of a fire, a temperature of more than 4 ℃, less than 20 atm pressure is required.

The nozzle unit 120 included in the automatic fire extinguishing device of the present invention is connected to the storage unit 110 and fires the gas 111a and the solvent 111b dissociated from the gas hydrate 111 stored in the storage unit 110. Spray to the place of occurrence. At this time, it is more preferable to inject the gas than the solvent in the nozzle unit 120. The nozzle unit 120 may further include an opening and closing means 121, the opening and closing means 121 is closed before the fire occurs, and is opened after the fire. Here, the opening and closing means 121 may be opened by bursting because the temperature and pressure of the storage unit 110 rises after a fire, and the temperature and pressure may not be overcome. The opening and closing means 121 may be a low melting point material such as paraffin and polyvinyl chloride (PVC).

In addition, the nozzle unit 120 may further include an electronic sensor device for detecting a fire occurrence.

The automatic fire extinguishing device according to an embodiment of the present invention may further include a warning unit. The warning unit can generate appropriate warning signals according to sound, warning lights and other needs so that people in the building can be evacuated from fire.

3 is a view showing after the fire of the storage unit of the automatic fire extinguishing device according to an embodiment of the present invention.

Referring to FIG. 3, after the fire, the pressure and temperature of the storage unit 110 rise due to external heat, and the gas hydrate 111 is dissociated to generate the gas 111a and the solvent 111b. The solvent 111b is not discharged to the outside, and only the gas 111a is injected to the outside through the nozzle unit 120 to extinguish the generated fire.

The automatic fire extinguishing device of the present invention uses a thermodynamically stable material, and the structure is simple, and malfunction or failure can be minimized. The automatic fire extinguishing apparatus of the present invention can use various gas hydrates, and can minimize space constraints. In addition, the automatic fire extinguishing device of the present invention can be applied to a special place such as an art gallery or a museum.

The embodiments described herein are not intended to, and should not be limited to, the scope of protection in the art as appropriately defined by the claims. In particular, the shape of the storage unit is not limited to the drawings and may be modified in various forms.

1 is a view showing a state before a fire occurs in the storage unit of the automatic fire extinguishing device according to an embodiment of the present invention.

2 is a view showing a state after the fire of the storage unit of the automatic fire extinguishing device according to an embodiment of the present invention.

<Sign Description for Drawing>

110: storage 111: gas hydrate

111a: gas 111b: solvent

120: nozzle portion 121: opening and closing means

Claims (9)

A storage unit in which gas hydrate is stored; And And a nozzle unit connected to the storage unit and injecting gas dissociated from the gas hydrate stored in the storage unit into a fire occurrence place. The method according to claim 1, The storage unit is an automatic fire extinguishing device, characterized in that the gas hydrate is maintained at a constant temperature and a constant pressure before the fire occurs. The method according to claim 1, The fire extinguishing device, characterized in that the gas hydrate dissociates due to the rise in temperature and pressure of the storage unit. The method according to claim 1, The gas hydrate is an automatic fire extinguishing device comprising a solvent and a gas. The method according to claim 4, The solvent is automatic fire extinguishing device, characterized in that at least one selected from the group consisting of water, phenol and ketone. The method according to claim 4, The gas is an automatic fire extinguishing device, characterized in that at least one selected from the group consisting of carbon dioxide, nitrogen gas, SF ₆ gas, HFC-based gas, halon-based gas. The method according to claim 1, The nozzle unit is opened after the fire occurs, automatic fire extinguishing device, characterized in that the gas and solvent dissociated from the gas hydrate is injected into the place of fire. The method according to claim 1, The nozzle unit further comprises an opening and closing means. The method according to claim 1, The nozzle unit further comprises an electronic sensor device.

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