KR102246200B1 - Fire extinguishing system for suppressing ship fire - Google Patents

Abstract

A fire extinguishing system for suppressing a ship fire is disclosed. The fire extinguishing system for suppressing a ship fire includes: an automatic fire extinguishing device that operates and releases a fire extinguishing agent when heat of a preset temperature is detected by a glass bulb; a fire detector that detects a fire occurring in a ship, and outputs an alarm sound to notify the occurrence of the fire when the fire is detected; a one-touch fire extinguishing button that receives a fire extinguishing device operation command from a user of the ship who hears the alarm sound and recognizes the fire; and a solid aerosol fire extinguishing device that operates and releases a fire extinguishing component in the form of an aerosol when a fire extinguishing device operation command is input through the one-touch fire extinguishing button.

Description

Fire extinguishing system for suppressing ship fire}

The present invention relates to a fire extinguishing system for extinguishing ship fires.

In general, a manual fire extinguisher refers to a device that extinguishes a fire by manually ejecting a fire extinguishing agent (compressed gas, powdered medicine) at a fire place. Powder fire extinguishers, one of the representative fire extinguishers, are classified into Class A (general fires such as wood, fiber, paper, plastic, etc.), Class B (fires such as oil, alcohol, gas, etc.), and Class C (electrical fires such as electrical equipment and appliances). , In general, Class A is mainly used for home use, and Class B or C is sometimes used in factories and workshops.

The types of powder fire extinguishers are divided into accumulator, pressurized, and automatic diffusion fire extinguishers. First, the accumulator type fire extinguisher accumulates the fire extinguishing agent and compressed air or non-combustible gas (nitrogen, carbon dioxide, etc.) inside the container of the fire extinguisher and releases the chemical by the pressure. The pressure is indicated, and it is widely used because it is possible to check the abnormal pressure when the indicator hand of the pressure gauge indicates the red part, and the normal pressure state when the green part indicates.

Second, pressurized fire extinguishers are classified into manual pump type, chemical reaction type, and gas pressure type. In the manual pump type, the extinguishing agent is released by pressurization by the pump, and the chemical reaction type is extinguished by the pressure of the gas generated by the chemical reaction of the extinguishing agent. The extinguishing agent is released, and in the gas pressurized type, a pressurized gas container for discharging the extinguishing agent is separately installed inside or outside the extinguisher, and the extinguishing agent is released by the pressure of the pressurized gas.

Lastly, automatic diffusion fire extinguishers are mainly installed in small spaces such as garages, boiler rooms, electric rooms, etc., and their components are the same as powder A, B, and C class fire extinguishers, but when a certain temperature is detected by a heat-sensitive element such as a glass bulb. Fire extinguishers that operate automatically.

On the other hand, such an automatic diffusion fire extinguisher is installed in an unmanned engine room of a small ship and is used for fire suppression of a small ship.

1 is a view showing the concept of fire suppression using a conventional automatic diffusion fire extinguisher. As shown in FIG. 1, the conventional automatic diffusion fire extinguisher operates when a heat of 93 degrees or more is sensed by a glass bulb and discharges the fire extinguishing agent.

In the fire suppression method using such a conventional automatic diffusion fire extinguisher, fire detection is too late, making it difficult to extinguish, and if it is operated due to a malfunction, the fire extinguishing agent greatly damages the unmanned engine room of a small ship where a number of mechanical devices are installed. There is a problem that can bring about.

Korean Registered Patent Publication No. 10-0943440 (2010.02.19)

The present invention detects faster than the automatic fire extinguishing function and adds a function that can be operated manually to the fire extinguishing system of a ship equipped with an automatic fire extinguishing function. It is to provide a fire extinguishing system for

According to an aspect of the present invention, a fire extinguishing system for extinguishing a ship fire is disclosed.

A fire extinguishing system for extinguishing a ship fire according to an embodiment of the present invention, when heat of a preset temperature is sensed by a glass bulb, an automatic fire extinguishing device that operates to release a fire extinguishing agent, and detects a fire occurring in the ship, When the fire is detected, a fire detector that outputs an alarm sound to notify the occurrence of a fire, a one-touch fire extinguishing button receiving an operation command of a fire extinguishing device from the user of the ship who heard the alarm and recognized the occurrence of the fire, and the one-touch fire extinguishing It includes a solid aerosol fire extinguishing device that, when the command to operate the fire extinguishing device is input through a button, is operated to release the extinguishing component in the form of an aerosol.

The solid aerosol fire extinguishing device includes a battery, a heater that receives power from the battery and generates heat according to an input of an operation command of the fire extinguishing device, and an igniter wrapped around the outside of the heater and exploded by heat generated by the heater. And a solid fire extinguishing agent that is ignited and combusted by the explosion of the igniting agent, and generates the aerosol-type extinguishing component according to the combustion.

The fire detector detects the fire by detecting smoke generated by the fire generated in the ship.

The fire extinguishing system for extinguishing ship fires further includes a monitoring device for monitoring whether the solid aerosol fire extinguishing device is used or not.

The monitoring device includes a sensor that senses at least one of whether the heating wire of the heater is disconnected, whether the operating line of the heater is abnormal, and whether the aerosol-type extinguishing component is used, and extinguishing the solid aerosol according to the sensing result of the sensor. It includes an LED indicator indicating whether the device is used or not.

The fire extinguishing system for extinguishing a ship fire according to an embodiment of the present invention is reliably operated only in case of fire by adding a function capable of detecting and manually operating more quickly than the automatic fire extinguishing function to the fire extinguishing system of a ship equipped with an automatic fire extinguishing function. And extinguish the fire early.

1 is a view showing the concept of fire suppression using a conventional automatic diffusion fire extinguisher.
2 is a view schematically illustrating the configuration of a fire extinguishing system for extinguishing a ship fire according to an embodiment of the present invention.
3 is a view schematically illustrating the configuration of the automatic fire extinguishing device of FIG. 2.
4 is a view schematically illustrating the configuration of the solid aerosol fire extinguishing device of FIG. 2.
5 is a view showing a fire suppression concept using a fire extinguishing system for suppressing ship fires according to an embodiment of the present invention.

Singular expressions used in the present specification include plural expressions unless the context clearly indicates otherwise. In the present specification, terms such as “consisting of” or “comprising” should not be construed as necessarily including all of the various elements or various steps described in the specification, and some of the elements or some steps It may not be included, or it should be interpreted that it may further include additional components or steps. In addition, terms such as "... unit" and "module" described in the specification mean a unit that processes at least one function or operation, which may be implemented as hardware or software or a combination of hardware and software. .

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

FIG. 2 is a view schematically illustrating the configuration of a fire extinguishing system for extinguishing a ship fire according to an embodiment of the present invention, and FIG. 3 is a view schematically illustrating the configuration of the automatic fire extinguishing device of FIG. 2, and FIG. 4 Is a diagram schematically illustrating the configuration of the solid aerosol fire extinguishing device of FIG. 2, and FIG. 5 is a view showing a fire suppression concept using a fire extinguishing system for suppressing ship fires according to an embodiment of the present invention. Hereinafter, with reference to FIG. 2, a fire extinguishing system for extinguishing a ship fire according to an embodiment of the present invention will be described, with reference to FIGS. 3 to 5.

2, the fire extinguishing system 100 for extinguishing a ship fire according to an embodiment of the present invention includes an automatic fire extinguishing device 110, a fire detector 120, a one-touch fire extinguishing button 130, and a solid aerosol fire extinguishing device ( 140).

The automatic fire extinguishing device 110 automatically operates and discharges the fire extinguishing agent when heat of a preset temperature (eg, 93 degrees or more) is detected by the glass bulb.

For example, the automatic fire extinguishing device 110 may include a glass bulb, a spring, a battery, a heater, an igniter, and a solid fire extinguishing agent. That is, the glass bulb and the spring may be fixed and installed in contact with each other, and thus may be configured to function as a switch for supplying power from the battery to the heater. Therefore, when the ambient temperature rises due to a fire, the glass bulb is destroyed by heat of a preset temperature, and the switch is turned on by the destruction of the glass bulb, so that the battery and the heater are electrically connected, so that the heater can generate heat. Then, the igniter with the explosive component wrapped outside the heater explodes by the heat generated from the heater, the solid extinguishing agent is ignited and burned by the explosion of the igniter, and the extinguishing component in the form of an aerosol is generated by the combustion of the solid extinguishing agent. It can be generated and released.

Alternatively, the automatic fire extinguishing device 110, referring to FIG. 3, closes the container 111 containing the extinguishing agent, the nozzle 112 and the nozzle 112 for spraying the extinguishing agent contained in the container 111, and a preset It may be configured to include a glass bulb 113 that is destroyed at temperature to open the nozzle 112. Here, the extinguishing agent may be formed of a powdered drug, and may be accommodated in the container 111 so as to be automatically diffused by nitrogen gas pressure.

The fire detector 120 detects a fire occurring in the ship and, when a fire is detected, outputs an alarm sound to notify the occurrence of the fire.

That is, according to an embodiment of the present invention, a fire may be detected faster through smoke detection than heat detection of 93 degrees or more by the glass bulb of the automatic fire extinguishing device 110.

For example, the fire detector 120 is a single alarm type fire detector that detects smoke generated by a fire generated in a ship, detects a fire, and outputs a sound indicating a fire situation. The independent alarm type fire detector detects a fire independently and detects the fire situation with a built-in sound device, unlike the automatic fire detection facility consisting of a fire detection device, a receiver that receives a fire detection signal from the fire detection device, and an alarm device. It has an alarming feature. Accordingly, the application of a single alarm-type fire detector, which is less expensive and easier to maintain than an automated fire detection facility, which is difficult for the manager of a small ship to handle, is very suitable for a small ship.

According to an embodiment of the present invention, independent alarm-type fire detectors are installed in different areas within a ship, and a plurality of installed independent alarm-type fire detectors may be configured to be interlocked with each other through wired or wireless communication means.

For example, if any one of a plurality of installed single-alarm type fire detectors detects a fire and outputs a fire alarm sound, other single-alarm type fire detectors installed in other areas can be interlocked to output the fire alarm sound. . Through this, the fire situation can be easily recognized throughout the ship.

The one-touch fire extinguishing button 130 is a device in which a user hears an alarm sound according to a fire in the ship, recognizes the fire, and inputs an operation command to the solid aerosol fire extinguishing device 140 for direct fire suppression.

That is, as a command to operate the fire extinguishing device is input from the user through the one-touch fire extinguishing button 130, the solid aerosol fire extinguishing device 140 is operated to extinguish the fire generated in the ship.

For example, at least one one-touch fire extinguishing button 130 may be installed in a position that is easily conspicuous and easily pressed by a user, such as a sailor room or a steering room where most people reside in a ship.

According to an embodiment of the present invention, when a plurality of solid aerosol fire extinguishing devices 140 are installed in a ship, a single fire extinguishing device operation command input through the one-touch fire extinguishing button 130 is used to input a plurality of solid aerosol fire extinguishing devices installed in the ship ( 140) can be configured to work all at once.

The solid aerosol fire extinguishing device 140 is operated when an operation command is inputted from the user through the one-touch fire extinguishing button 130 and discharges the extinguishing component in the form of an aerosol.

For example, the solid aerosol fire extinguishing device 140 may include a battery 141, a heater 142, an igniter 143, and a solid fire extinguishing agent 144, referring to FIG. 4. That is, power of the battery 141 is supplied to the heater 142 according to an operation command input from the user through the one-touch fire extinguishing button 130. Subsequently, the heater 142 generates heat with power supplied from the battery 141. Subsequently, the igniter 143 having an explosive component wrapped outside the heater 142 explodes due to the heat generated by the heater 142. Subsequently, the solid extinguishing agent 144 is ignited and burned by the explosion of the igniting agent 143, and an aerosol-type extinguishing component is generated according to the combustion of the solid extinguishing agent 144.

The fire extinguishing system 100 for extinguishing a ship fire according to an embodiment of the present invention may further include a monitoring device that monitors whether or not the solid aerosol fire extinguishing device 140 is used and whether there is abnormality, although not shown in the drawing. .

For example, the monitoring device may determine whether there is an abnormality such as whether the heating wire of the heater 142 of the solid aerosol fire extinguishing device 140 is disconnected, whether the operating line of the heater 142 is abnormal, whether the solid fire extinguishing agent 144 is burned, etc. It may include a sensor that senses whether the same is used, and an LED indicator that indicates whether the solid aerosol fire extinguishing device 140 is used and whether there is abnormality according to the sensing result of the sensor.

As such, the fire extinguishing system 100 for extinguishing a ship fire according to an embodiment of the present invention may provide both an automatic fire extinguishing function and a manual fire extinguishing function, as shown in FIG. 5. That is, by adding the manual fire extinguishing function, the problem of the automatic fire extinguishing function may be supplemented.

In particular, fire is detected faster through smoke detection than through heat detection of 93 degrees or more by the glass bulb of the automatic fire extinguishing device 110, and accordingly, the user directly uses the one-touch fire extinguishing button 130 to fire the solid aerosol fire extinguishing device 140 ), so the fire can be extinguished at an early stage.

In addition, when a plurality of manually operated solid aerosol fire extinguishing devices 140 are installed, a plurality of solid aerosol fire extinguishing devices 140 are operated at a time to maximize fire extinguishing power.

In addition, the solid fire extinguishing agent 144 that generates an aerosol-type fire extinguishing component is an environmentally friendly fire extinguishing agent that generates particulates such as smoke, and the existing fire extinguishing agent has a carbon dioxide component due to its low residual material and strong extinguishing ability after combustion. Can be substituted for

The above-described embodiments of the present invention are disclosed for the purpose of illustration, and those skilled in the art who have ordinary knowledge of the present invention will be able to make various modifications, changes, and additions within the spirit and scope of the present invention. It should be seen as falling within the scope of the following claims.

100: Fire extinguishing system for extinguishing ship fires
110: automatic fire extinguishing system
120: fire detector
130: One-touch fire extinguishing button
140: solid aerosol fire extinguishing system

Claims (5)

In the fire extinguishing system for extinguishing ship fires,
An automatic fire extinguishing device for discharging a fire extinguishing agent by operating when heat of a preset temperature is sensed by the glass bulb;
The fire is detected by detecting the smoke generated by the fire generated in the ship, and when the fire is detected, an alarm sound to notify the occurrence of the fire is output using a built-in sound device. A plurality of independent alarm-type fire detectors that are installed and configured to interlock with each other through a wired or wireless communication means;
A one-touch fire extinguishing button receiving an operation command of a fire extinguishing device from a user of the ship who hears the alarm sound and recognizes the occurrence of the fire;
A plurality of solid aerosol fire extinguishing devices that are installed for each preset zone in the ship, and operate when a command to operate the fire extinguishing device is input through the one-touch fire extinguishing button to release a extinguishing component in the form of an aerosol; And
Including a monitoring device for monitoring the use of the plurality of solid aerosol fire extinguishing devices and the presence or absence of abnormalities,
The automatic fire extinguishing device,
A container containing the extinguishing agent formed of a powdered drug so as to be automatically diffused by nitrogen gas pressure;
A nozzle for spraying the fire extinguishing agent contained in the container; And
And a glass bulb that closes the nozzle and is broken at a preset temperature to open the nozzle,
When any one of the plurality of independent alarm type fire detectors detects a fire and outputs a fire alarm sound, other independent alarm type fire detectors installed in other areas are also interlocked to output a fire alarm sound,
The plurality of solid aerosol fire extinguishing devices,
battery;
A heater receiving power from the battery and generating heat in response to an input of the fire extinguishing device operation command;
An igniter wrapped outside the heater and exploded by heat generated by the heater; And
It includes a solid fire extinguishing agent that is ignited and combusted by the explosion of the igniting agent, and generates the aerosol-type extinguishing component according to the combustion,
The monitoring device,
A sensor for sensing at least one of whether the heating wire of the heater is disconnected, whether the operating line of the heater is abnormal, and whether or not an extinguishing component in the form of an aerosol is used; And
A fire extinguishing system for extinguishing a ship fire, comprising an LED indicator indicating whether the solid aerosol fire extinguishing device is used or not, according to the sensing result of the sensor. delete delete delete delete

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