KR100943440B1 - An unmanned automatic fire extinguisher - Google Patents

Abstract

PURPOSE: An unmanned automatic action fire extinguisher is provided, which can suppress fire effectively in an initial stage by conforming a direction the fire extinguishing agent is sprayed to a direction that the fire is detected. CONSTITUTION: An unmanned automatic action fire extinguisher includes a fire extinguisher main body(110) in which fire extinguishing agent(100) is injected; and an automatic operation apparatus(200) which is installed at the upper part of the fire extinguisher main body and automatically sprays fire extinguishing agent. The automatic operation apparatus includes an injection nozzle(220) from which the fire extinguishing agent accepted to the fire extinguisher main body is sprayed; and a heat sensing body(250) which operates so that the injection nozzle can be opened.

Description

Unmanned Automatic Fire Extinguishers {AN UNMANNED AUTOMATIC FIRE EXTINGUISHER}

The present invention relates to an unmanned automatic fire extinguisher, and more particularly, to an unmanned automatic fire extinguisher in which the direction in which a fire is detected and the direction in which an extinguishing agent is injected are matched.

A fire extinguisher is a device used for extinguishing a fire at an early stage. The fire extinguisher is a fixed fire extinguisher, an automatic fire extinguisher, and a simple fire extinguishing device. A manual fire extinguisher is a fire extinguishing device that a person directly operates to inject a fire extinguishing agent. An automatic fire extinguisher alerts in case of a flammable gas leak or a fire, automatically shuts off a flammable gas, etc. It is a fire extinguisher to spray automatically. Simple fire extinguishing equipment is a fire extinguishing apparatus that is used for extinguishing a fire extinguishing agent except water, except manual and automatic extinguisher. Currently used fire extinguishers are foam extinguishers, powder extinguishers, halon extinguishers, and carbon dioxide (CO ₂ ) extinguishers.

Most fire extinguishers are manual, when a person unplugs a fire extinguisher's safety pin at a distance of 5 to 6 meters and then pulls the operating lever. Such a manual fire extinguisher does not have any function as a fire extinguisher when a fire breaks out in a non-human place, or when a person does not know how to use the fire extinguisher or cannot find a place where the fire extinguisher is placed. Will not be able to perform In order to solve this problem, there is a patent registration No. 10-0311302 manual combined automatic fire extinguisher. However, the fire extinguisher of the patent invention is installed in a different direction from the injection nozzle in which the shape-forming material which functions to detect fire is injected, and the direction in which the fire is detected does not coincide with the direction in which the extinguishing agent is injected. As a result, the extinguishing agent is not sprayed in the exact direction in which the fire occurred, so it is difficult to extinguish the fire early, and the extinguishing agent is wasted.

The present invention has been proposed to solve the above problems of the conventionally proposed methods, the original shape is deformed or destroyed when the temperature corresponding to a predetermined temperature in the injection nozzle portion is sprayed extinguishing agent is operated to open the injection nozzle It is an object of the present invention to provide an unmanned automatic fire extinguisher in which the direction in which the fire is detected and the direction in which the extinguishing agent is sprayed are matched by attaching a thermal element.

Unmanned automatic fire extinguisher according to a feature of the present invention for achieving the above object, in the fire extinguisher body is equipped with a fire extinguishing agent, and an automatic operating device for automatically spraying the extinguishing agent on the upper body of the fire extinguisher,

The automatic operation device,

An injection nozzle for injecting an extinguishing agent contained in the extinguisher body; And

If the temperature of the space in which the fire extinguisher is located corresponds to a preset temperature includes a heat-sensitive member that is operated so that the original nozzle is deformed or destroyed to open the injection nozzle,

The heat sensing member is attached to the injection nozzle and characterized in that the configuration in which the direction in which the fire is detected and the direction in which the extinguishing agent is injected.

Preferably, the thermal element, may be attached to the end of the fire extinguisher injection nozzle.

Preferably, a glass bulb may be used as the thermal member.

More preferably, the glass bulb may control the temperature at which the glass bulb is broken according to the amount and the amount of the material to be filled in the glass bulb.

More preferably, the glass bulb may be broken by a disk knife connected to a heating coil or a motor.

Preferably, the automatic operation device,

An actuating pin disposed in the passage of the extinguishing agent supply pipe for supplying the extinguishing agent to the injection nozzle; And

At least one O-ring may be further included in each contacting part to maintain airtightness in the contacting area between the fire extinguisher body and the supply pipe, and the contacting area between the inner surface of the supply pipe and the operation pin.

More preferably, as the elastic means, a compression spring having elastic restoring force can be used.

According to the unmanned automatic fire extinguisher of the present invention, by attaching a thermal element to the injection nozzle portion in which the extinguishing agent is injected, when the fire reaches a certain temperature by the heat transmitted from the flame, the thermal element is destroyed to open the injection nozzle automatically Fire extinguishers can be operated, and the direction in which the fire is detected and the direction in which the fire extinguishing agent is sprayed coincide, so that the fire can be extinguished quickly in the early stages, thereby reducing the casualty and property loss caused by the large fire.

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

1 is a view showing a cross section of a conventional manual combined automatic fire extinguisher. As shown in FIG. 1, the conventional manual combined automatic fire extinguisher includes a fire extinguisher main body 110 filled with a fire extinguishing agent 100 and various components of the fire extinguisher on the fire extinguisher main body 110 and assembled thereon. Body 160 formed in a predetermined shape is installed, the configuration including the operation lever 130, the handle 120, the safety pin and spring 140, the injection nozzle 150 for operating the fire extinguisher on the body Consists of, the shape deformation member 190 to the fire detection function is installed on the upper part of the plunger 180 to open the injection nozzle 150 during operation. Conventional manual automatic automatic fire extinguisher is a fire that is a direction in which a fire is detected because the shape modifier 190 having a function of detecting a fire is installed in a different direction from the injection nozzle 150 to which the extinguishing agent 100 is injected. Since the generation region and the direction in which the extinguishing agent 100 is injected do not match, the extinguishing agent 100 may be wasted and there may be difficulty in extinguishing the fire at an early stage.

2 is a cross-sectional view of an unmanned automatic fire extinguisher according to an embodiment of the present invention. As shown in Figure 2, the unmanned automatic fire extinguisher according to an embodiment of the present invention, the fire extinguisher main body 110, the extinguishing agent 100 is accommodated, and the extinguishing agent 100 on the upper extinguisher body 110 automatically An automatic operating device 200 for spraying is installed. Automatic operation device 200 is the injection nozzle 220, the extinguishing agent 100 accommodated in the fire extinguisher main body 110 is sprayed, and at a constant temperature at a constant strength to withstand the elastic repulsive force of the elastic means 240, the ambient temperature When the temperature corresponds to a predetermined temperature includes the heat-sensitive member 250 is operated so that the original shape is deformed or destroyed to open the injection nozzle 220, the passage for supplying the extinguishing agent 100 to the injection nozzle 220 Airtight on the contact pin between the fire extinguisher body 110 and the automatic actuator body 210 and the contact between the automatic actuator body 210 and the operating pin 230 disposed by the elastic means 240. Consists of a configuration including at least one O-ring 260 in each predetermined portion to maintain. Unmanned automatic fire extinguisher according to an embodiment of the present invention, the heat sensing member 250 having a function of detecting a fire is installed in the same direction as the injection nozzle 220, the extinguishing agent 100 is injected, the fire is detected Since the direction in which the extinguishing agent 100 is sprayed coincide with each other, the fire may be initially extinguished without wasting the extinguishing agent 100.

Injection nozzle 220 of the automatic operation device 200 according to an embodiment of the present invention, the injection angle is to be sprayed at an angle of at least 90 degrees or more by spraying a wide range of extinguishing agent 100 of the fire occurrence place It is desirable to be able to extinguish embers smoothly. In addition, the elastic means 140 of the automatic operation device 200 according to an embodiment of the present invention may be used a compression spring having an elastic restoring force, the exhaustion of the extinguishing agent 100 filled in the fire extinguisher body 110 Additional pressure gauges can be attached to check the condition.

A glass bulb may be used as the thermal element 250 of the unmanned automatic fire extinguisher according to the embodiment of the present invention. Thermal element is blocking the device in normal condition, but when the fire reaches a certain temperature due to heat transmitted from the flame, the shape is changed or destroyed and the device is opened and the extinguishing agent contained in the compressed state is automatically opened. The part that is operated to be ejected. Automatic actuators using thermal elements include actuators with thermal sensing only and actuators with pressure and thermal sensing. Thermally open automatic actuators with thermal sensing only have a fusible-link automatic actuator, and thermally open automatic actuators with pressure and thermal sensing have glass-bulb automatic actuators. The fused link is a fusion or assembly of two sheets of metal plates having different melting points in the heat-sensitive body, that is, a fusible metal, as an alloy, and the glass bulb is sealed by inserting a heat-sensitive liquid or the like into the glass sphere. In the case of the fused link, the temperature at which the heat-sensitive body is destroyed may be controlled according to the type of the fusible material and in the case of the glass bulb according to the component and the amount of the liquid to be filled in the glass bulb.

In the case of a fusible link, when a fire occurs, heat is transferred from the flame to the fusible link to raise the surface temperature of the fusible link, and the fusible material starts to melt. When the surface temperature of the fused link reaches a certain temperature determined by the selected fusible material, the fusible material melts away and the device is opened, causing the extinguishing agent contained in the compressed state to be ejected to extinguish the fire. In the case of a glass bulb, when a fire occurs, heat is transferred from the flame to the glass bulb, the surface temperature of the glass bulb rises, and the thermal liquid of the glass bulb expands. When the surface temperature of the glass bulb reaches a specific temperature determined by the selected thermosensitive liquid, the glass bulb is destroyed and released due to the expansion pressure of the thermosensitive liquid, the device is opened, and the extinguishing agent contained in the compressed state is ejected by the fire. Will evolve. As a glass bulb of an unmanned automatic fire extinguisher according to an embodiment of the present invention, a commercially available glass bulb may be used, and 57 ° C., 68 ° C., 79 ° C., 93 ° C., 141 ° C., and 182 depending on the temperature reacting to heat. In the case of ℃, etc., it is possible to select and use the required operating temperature according to the location of the fire extinguisher.

3 is a view showing an operating state of the unmanned automatic fire extinguisher according to an embodiment of the present invention. As shown in Figure 3, the unmanned automatic fire extinguisher according to an embodiment of the present invention, when a fire occurs, heat from the flame is transferred to the glass bulb 250, the surface temperature of the glass bulb 250 rises and The thermal liquid in the glass bulb 250 is expanded. When the surface temperature of the glass bulb 250 reaches a specific temperature determined by the selected thermosensitive liquid, the thermosensitive liquid expands and the glass bulb 250 is destroyed and released. The operating pin 230 disposed by the spring 240 in the passage for supplying the extinguishing agent 100 to the injection nozzle 220 is a space where the glass bulb 250 is separated by the elastic restoring force of the spring 240. Momentarily, the passage blocked by the operation pin 230 is opened so that the extinguishing agent 100, which is accommodated in the compressed state in the fire extinguisher main body 110, is injected through the injection nozzle 220. Unmanned automatic fire extinguisher according to an embodiment of the present invention, by attaching the glass bulb 250, which is a heat-sensitive body to the injection nozzle 220, by matching the direction in which the fire is detected and the direction in which the extinguishing agent 100 is injected, fire By spraying the extinguishing agent 100 in the exact direction in which the fire occurred, it is possible to extinguish the fire quickly and effectively at an early stage, thereby reducing the casualty damage and property loss due to the large fire.

Unmanned automatic fire extinguisher according to an embodiment of the present invention, may be installed by adding a breaking means to the glass bulb 250. When a fire occurs by connecting it to a controller connected to the fire detector, the glass bulb 250 is destroyed by the destructive means in response to a signal from the controller so as to leave. When the glass bulb 250 is destroyed and separated, the operation pin 230 supported by the glass bulb 250 moves to open the passage toward the injection nozzle 220, and the extinguishing agent 100 in the fire extinguisher main body 110 is opened. Is injected through the injection nozzle 220 may be extinguished in the initial generation of fire. As a means of destruction, a heating coil may be used or a disc knife connected to a motor may be used. When the heating coil is used, the glass bulb 250 is destroyed by heating the heat-sensitive liquid in the glass bulb 250, and in the case of a disc knife, the disc knife connected to the motor rotates to make the glass bulb ( 250).

The present invention described above may be variously modified or applied by those skilled in the art, and the scope of the technical idea according to the present invention should be defined by the following claims.

1 is a cross-sectional view of a conventional manual combined automatic fire extinguisher.

Figure 2 is a view showing a cross section of the unmanned automatic fire extinguisher in an embodiment of the present invention.

Figure 3 is a view showing the operating state of the unmanned automatic fire extinguisher according to an embodiment of the present invention.

<Explanation of symbols for main parts of the drawings>

100: extinguishing agent 110: fire extinguisher body

120: handle 130: operating lever

140: spring 150: injection nozzle

160: body 180: plunger

190: shape modifier 200: automatic operation device

210: automatic operating device body 220: injection nozzle

230: operation pin 240: elastic means

250: thermal element 260: O-ring

Claims (7)

In the fire extinguisher body is equipped with a fire extinguisher main body accommodating the extinguishing agent, and an automatic operation device for automatically spraying the extinguishing agent on the upper part of the fire extinguishing agent body, The automatic operation device, An injection nozzle for injecting an extinguishing agent contained in the extinguisher body; And If the ambient temperature corresponds to a predetermined temperature includes a heat sensing member that is operated so that the original nozzle is deformed or destroyed to open the injection nozzle, The thermal element is attached to the injection nozzle to match the direction in which the fire is detected and the direction in which the extinguishing agent is injected, An actuating pin disposed in the passage of the extinguishing agent supply pipe for supplying the extinguishing agent to the injection nozzle; And And at least one o-ring at each contacting portion for maintaining airtightness at the contacting portion between the fire extinguisher body and the supplying pipe, the contacting area between the inner surface of the supplying pipe and the actuating pin. The unmanned automatic fire extinguisher according to claim 1, wherein the thermal element is attached to an end of the fire extinguisher injection nozzle. The unmanned automatic fire extinguisher according to claim 1, wherein the thermal element uses a glass bulb. The unmanned automatic fire extinguisher according to claim 3, wherein the glass bulb can control the temperature at which the glass bulb is broken according to the amount and the amount of the material to be filled in the glass bulb. The unmanned automatic fire extinguisher according to claim 3, wherein the glass bulb is destroyed by a disk knife connected to a heating coil or a motor. delete The unmanned automatic fire extinguisher according to claim 1, wherein said elastic means is a compression spring having elastic restoring force.

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