KR20220159553A - Battery of ship with fire spread prevention function - Google Patents

Abstract

The present invention relates to a battery for a ship having a function of preventing the spreading of a fire and, more specifically, to a battery for a ship having a function of preventing the spreading of a fire, which provides electrical energy as the main action force for a ship, wherein when a ventilator remains opened in a normal state, heat generated by the battery can be cooled and the ventilator is closed with a gas damper for preventing a fire in case of a fire, thereby preventing a fire occurring in a battery rack from spreading and a ceramic plate or a ceramic coating layer is disposed on an inner surface of the battery rack to prevent the battery rack from being damaged by heat in case of a fire. Furthermore, an extinguishing chemical is sprayed through an extinguishing chemical spraying unit disposed in the battery rack to extinguish the fire.

Description

Ship battery with fire spread prevention function {Battery of ship with fire spread prevention function}

The present invention relates to a battery for a ship having a fire spread prevention function, and more specifically, to provide driving power of a ship as electric energy, to detect the temperature and gas concentration inside a battery rack, and to detect the temperature or gas concentration based on the detected temperature or gas concentration. When it is higher than the set control value, it relates to a battery for ships having a fire spread prevention function capable of preventing the spread of fire by sealing the inside of a battery rack with a fire prevention gas damper.

In general, an internal combustion engine driven by fossil energy is used as a propulsive power of a ship, and electricity is supplied to the ship by turning a generator at normal times, and electricity is supplied to the ship using a battery when a problem occurs in the generator.

Since such a conventional battery is mainly used for navigation communication equipment and lighting with a small load, the battery capacity and voltage do not need to be high, the load applied to the battery is low, and the number of batteries required is small.

On the other hand, electric energy is in the limelight as an alternative energy that can solve the problem of depletion of fossil energy, and research and development on fuel cells, which are a medium for using electric energy, are being actively conducted.

In addition, as exhaust gas environmental regulations become more severe in marine vessels, the number of areas where conventional internal combustion engines cannot be operated in certain areas is gradually increasing.

Accordingly, attempts have been made to use the driving power of marine vessels as electric energy, but when the driving power of the motor required for the main propulsion of the vessel is used as a battery, the input voltage of the inverter connected to the motor must be increased. However, since electricity must be supplied to the navigation communication equipment and lighting used in the ship, the capacity must be increased by using a large number of batteries, and the voltage must be increased by connecting them in series.

As a result, the risk of fire and explosion of the battery may increase. In particular, since fire and explosion in a ship proceed on the sea, the risk of human casualties is very high, and the ship structure is made of a material with very high conductivity, There was a problem that the fire could spread throughout.

The present invention has been made to solve these problems, and an object of the present invention is primarily to provide the driving power of a ship as electrical energy, and to use a sensor that detects the temperature and gas concentration inside the battery rack to measure the temperature A marine battery having a fire spread prevention function capable of preventing the spread of fire by closing the ventilation hole and sealing the inside of the battery rack when the measured gas concentration exceeds a certain temperature or the measured gas concentration exceeds a certain concentration is to provide

In addition, another object of the present invention is to have a fire spread prevention function that can prevent the battery rack from melting by the heat generated from the fire when a ceramic plate or ceramic coating layer is installed on the inner surface of the battery rack, in the event of a fire. It is to provide batteries for ships.

Another object of the present invention is to provide a battery for a ship having a fire spread prevention function capable of extinguishing a fire by spraying an extinguishing agent through a fire extinguishing agent spraying unit when a fire occurs.

The objects of the present invention are not limited to the objects mentioned above, and other objects not mentioned will be clearly understood by those skilled in the art from the description below.

In order to achieve the above object, the present invention provides a ship's driving power with electricity and is a ship battery having a fire spread prevention function, containing at least one battery therein, a first ventilation hole is installed on one side, and the other side A battery rack in which a second ventilation hole is installed, provided in a position adjacent to the battery, provided in a pair with a temperature sensor and the temperature sensor for detecting the temperature inside the battery rack, detecting the gas concentration inside the battery rack A sensor unit including a gas sensor that is installed in the first ventilation hole and the second ventilation hole, respectively, and a gas damper for fire prevention that allows the first ventilation hole and the second ventilation hole to be opened or closed, measured by the temperature sensor When the temperature exceeds a specific temperature or the gas concentration measured by the gas sensor exceeds a specific concentration, an electronic control unit that operates the gas damper for fire prevention so that the first ventilation hole and the second ventilation hole are closed Provided is a battery for ships having a function of preventing fire spread.

In a preferred embodiment, the battery rack is provided with a metal material, and the inner surface of the battery rack is preferably provided with a ceramic plate or ceramic coating layer having a higher melting point than the metal material.

In a preferred embodiment, the ceramic plate is preferably provided by assembling a plurality of unit plates.

In a preferred embodiment, the ceramic coating layer is preferably a thermal spray coating layer.

In a preferred embodiment, it is preferable that the sensor units are provided in a number corresponding to the number of the batteries.

In a preferred embodiment, it is preferable that the inside of the battery rack is provided with a fire extinguishing agent injection unit for spraying the fire extinguishing agent.

In a preferred embodiment, the fire extinguishing agent is preferably carbon dioxide, a halogen compound or an oxygen absorber.

In a preferred embodiment, it is preferable that the injection unit directly injects the extinguishing agent or injects the microcapsules carrying the extinguishing agent.

In a preferred embodiment, the microcapsule includes the core material and a shell surrounding the core material, and the shell is preferably thermally decomposed when a specific temperature is exceeded.

The present invention has the following excellent effects.

According to the ship battery having a fire spread prevention function of the present invention, the driving power of the ship is provided as electric energy, and the ventilation port is kept open at normal times so that the internal air of the battery rack is circulated with the external air of the battery rack, It can cool the heat generated from the battery, and if the temperature measured by the temperature sensor exceeds a certain temperature or the gas concentration measured by the gas sensor exceeds a certain concentration, the ventilation hole is closed with a gas damper for fire prevention. , By sealing the inside of the battery rack, there is an effect of preventing the spread of fire.

In addition, according to the marine battery having a fire spread prevention function of the present invention, a ceramic plate or ceramic coating layer having a higher melting point than the battery rack made of metal is provided on the inner surface of the battery rack, so that in the event of a fire, the fire There is an effect of preventing the battery rack from melting from the high heat generated.

Furthermore, according to the marine battery having a fire spread prevention function of the present invention, the fire extinguishing agent is automatically sprayed when a fire occurs by the fire extinguishing agent spraying unit provided inside the battery rack, and there is an effect of suppressing the fire. .

1 is a perspective view of a battery for a ship having a fire spread prevention function according to the present invention.
2 is a cross-sectional view of a marine battery having a fire spread prevention function according to the present invention.
3 is a view showing an example of a ceramic plate installed in a battery rack of a marine battery having a fire spread prevention function according to the present invention.

The terms used in the present invention have been selected from general terms that are currently widely used as much as possible, but in certain cases, there are terms arbitrarily selected by the applicant. Therefore, its meaning should be understood.

Hereinafter, the technical configuration of the present invention will be described in detail with reference to preferred embodiments shown in the accompanying drawings.

However, the present invention is not limited to the embodiments described herein and may be embodied in other forms. Like reference numbers indicate like elements throughout the specification.

1 is a perspective view of a ship battery having a fire spread prevention function according to the present invention, and FIG. 2 is a cross-sectional view of a ship battery having a fire spread prevention function according to the present invention.

Referring to FIGS. 1 and 2, the ship battery having a fire spread prevention function according to the present invention provides driving power of the ship as electrical energy and is a ship battery for preventing the spread of fire in the event of a fire. It includes a rack 110, a sensor unit 12, a fire prevention gas damper 130, and an electronic control unit 140.

The battery rack 110 is a case for accommodating the battery 10 therein, and a first ventilation hole 110a is provided on one side and a second ventilation hole 110b is provided on the other side.

Here, the battery 10 may be provided in multiple numbers, and may be connected in series to increase the voltage of the battery or in parallel to increase the capacity.

In addition, a fan f may be mounted in the first ventilation hole 110a or the second ventilation hole 110b.

At this time, the fan (f) serves to circulate the internal air of the battery rack 110 and the external air of the battery rack (110).

In addition, the first ventilation hole 110a and the second ventilation hole 110b may be installed in plural numbers.

The sensor unit 120 may be provided at a location adjacent to the battery 10 and includes a temperature sensor 121 and a gas sensor 122 .

In addition, the temperature sensor 121 and the gas sensor 122 may be provided as a pair.

Here, the temperature sensor 121 detects the temperature inside the battery rack 110, and the gas sensor 122 serves to detect the gas concentration inside the battery rack 110.

For example, a differential sensor or a constant temperature sensor may be used as the temperature sensor 121. The differential sensor is activated when a rapid change in temperature is detected, and the constant temperature sensor is operated when the temperature rises to a certain temperature value. works if

In addition, an electrochemical gas sensor or a semiconductor gas sensor may be used as the gas sensor 122, and the electrochemical gas sensor generates electrons generated when a target gas to be measured undergoes an oxidation or reduction reaction by the action of a built-in electrode. Gases that can be detected include hydrogen sulfide, carbon monoxide, hydrogen, nitrogen monoxide, nitrogen dioxide, ammonia, chlorine, and pin chloride. It works by detecting the change in electrical conductivity that occurs, and the gases that can be detected include carbon monoxide, nitrogen dioxide, and alcohol.

However, as long as the temperature sensor 121 detects temperature and the gas sensor 122 is a means capable of detecting gas concentration, it is not limited thereto.

In addition, it is preferable that the sensor unit 120 is provided in a number corresponding to the number of the batteries 10 in order to more precisely detect the presence or absence of an abnormality such as a fire occurring from the batteries 10 .

The fire prevention gas damper 130 is installed in the first ventilation hole 110a and the second ventilation hole 110b, respectively, and maintains the first ventilation hole 110a and the second ventilation hole 110b open at normal times. , By allowing the internal air of the battery rack 110 to circulate with the external air of the battery rack 110, it is possible to cool the heat generated from the battery (10).

In addition, when a fire occurs, the fire prevention gas damper 130 closes the first ventilation hole 110a and the second ventilation hole 110b, and as a result, the inside of the battery rack 110 is sealed, The spread of fire occurring inside the battery rack 110 can be prevented.

In addition, the fire prevention gas damper 130 is not limited as long as it is a means capable of opening or closing the first ventilation hole 110a and the second ventilation hole 110b.

When the temperature measured by the temperature sensor 121 exceeds a specific temperature or the gas concentration measured by the gas sensor 122 exceeds a specific gas concentration, the electronic control unit 140 determines the first The ventilation hole (110a) and the second ventilation hole (110b) is operated so that the fire prevention gas damper 130 is closed, so that the battery rack 110 is sealed.

That is, the battery having the fire spread prevention function of the present invention can open the first ventilation hole 110a and the second ventilation hole 110b at normal times to cool the heat from the battery 10, and in the event of a fire The first ventilation hole (110a) and the second ventilation hole (110b) respectively installed in the fire protection gas damper 130 is operated, the first ventilation hole (110a) and the second ventilation hole (110b) to be closed, the battery rack (110) By sealing the inside, it is possible to prevent the fire generated inside the battery rack 110 from spreading.

In addition, a ceramic plate 150 or a ceramic coating layer 150 may be further provided on the inner surface of the battery rack 110 .

Here, the ceramic plate 150 or the ceramic coating layer 150 has a higher melting point than the metal material, which is the material of the battery rack 110, from the high heat generated by the internal fire of the battery rack 110. ) to prevent melting.

For example, the ceramic plate 150 may include a plurality of unit plates assembled to correspond to the inner surface of the battery rack 110 .

FIG. 3 is a view for explaining an example of the ceramic plate 150. Referring to FIG. 3, the ceramic plate 150 may include a unit plate and a finishing plate.

Here, the unit plate has a plate-shaped first unit plate and a shape corresponding to the first unit plate, integrally extending from an upper portion of one side of the first unit plate, and a second unit plate parallel to the first unit plate. Includes unit plate.

In addition, the plate for finishing is a plate that closes the space between the unit plate and the battery rack, and may be provided in a bar shape, "ㅗ" shape, "ㄱ" shape or "ㄴ" shape.

In addition, the ceramic coating layer 150 may be provided as a sprayed coating layer.

However, the ceramic coating layer 150 is not limited as long as it has durability against thermal shock and heat resistance against high temperatures.

Furthermore, the inside of the battery rack 110 may be provided with a fire extinguishing agent injection unit 160 for spraying the fire extinguishing agent.

This is to suppress the fire inside the battery rack 110 by injecting the extinguishing agent from the extinguishing agent injection unit 160.

Here, if the fire extinguishing agent injection unit 160 can suppress the fire inside the battery rack 110, there is no limit to the location and number.

In addition, the fire extinguishing agent injection unit 160 may be automatically driven by the electronic control unit when a fire is detected by the sensor unit.

In addition, the fire extinguishing agent may include carbon dioxide, a halogen compound, or an oxygen absorber.

For example, the carbon dioxide and the halogen compound are chemicals used to extinguish fires occurring in electrical equipment, have electrical insulation properties, and can extinguish fires by using effects of suffocation, cooling, and suppression extinguishing.

In addition, the oxygen absorber absorbs oxygen inside the battery rack, reduces the oxygen concentration inside the battery rack to 16% or less, which is the minimum oxygen concentration required for combustion, and suppresses the fire.

For example, the oxygen absorber may include a transition metal compound and gallic acid.

As another example, the oxygen absorber may be composed of iron as a main reaction agent.

As another example, the oxygen absorber may include a transition metal compound and activated carbon, and it is preferable that the activated carbon in which the electrolyte is absorbed is used.

In addition, natural zeolite, synthetic zeolite, silica gel, activated clay, activated aluminum oxide, clay, diatomaceous earth, kaolin, talc, bentonite, sepiolite, attapulgite, magnesium oxide, iron oxide, aluminum hydroxide, hydroxide Magnesium, iron hydroxide, magnesium silicate, aluminum silicate, synthetic hydrotalcite or amine-supported porous silica may be used.

In addition, the extinguishing agent spraying unit 160 may directly inject the extinguishing agent or inject the extinguishing agent in the form of a microcapsule containing the extinguishing agent.

Here, the microcapsule includes a core material in which the extinguishing agent is used and a shell surrounding the core material, and the shell is decomposed when a specific temperature is exceeded.

For example, the shell may be a prepolymer based on polyurea or urethane, or polyisoanate, and the shell may be decomposed at 130° C. or higher.

As described above, according to the marine battery having a fire spread prevention function according to the present invention, the first ventilation hole and the second ventilation hole installed with the fire prevention gas damper are maintained open at normal times, so that the internal air of the battery rack It has the advantage of being able to cool the heat generated from the battery by allowing it to circulate with the outside air.

In addition, when a fire occurs, the fire is detected by the sensor unit, and the first ventilation hole and the second ventilation hole are closed by the operation of the fire-fighting gas damper so that the inside of the battery rack is sealed, thereby spreading the fire. has the advantage of preventing

In addition, a ceramic plate or a ceramic coating layer is provided on the inner surface of the battery rack to prevent the battery rack from being melted and damaged by the heat of fire generated inside the battery rack.

Furthermore, through the fire extinguishing agent injection unit, when a fire occurs, the fire extinguishing agent is sprayed to have the advantage of suppressing the fire at an early stage.

As described above, the present invention has been shown and described with preferred embodiments, but is not limited to the above embodiments, and to those skilled in the art within the scope of not departing from the spirit of the present invention Various changes and modifications will be possible.

100: marine battery 110: battery rack
110a: first ventilation hole 110b: second ventilation hole
120: sensor unit 130: gas damper for fire prevention
140: electronic control unit 150: ceramic plate or ceramic coating layer
160: fire extinguishing agent injection unit 10: battery
f : fan

Claims (9)

As a ship battery that provides the driving power of the ship with electricity and has a fire spread prevention function,
A battery rack that accommodates at least one battery therein, has a first ventilation hole installed on one side, and has a second ventilation hole installed on the other side;
A sensor unit provided at a position adjacent to the battery, including a temperature sensor and a pair of the temperature sensor for detecting a temperature inside the battery rack, and a gas sensor for detecting a gas concentration inside the battery rack;
a gas damper for fire prevention installed in the first ventilation hole and the second ventilation hole, respectively, to open or close the first ventilation hole and the second ventilation hole;
When the temperature measured by the temperature sensor exceeds a specific temperature or the gas concentration measured by the gas sensor exceeds a specific concentration, the first ventilation hole and the second ventilation hole are closed, the gas damper for fire protection. An electronic control unit (ECU) that operates a ship battery having a fire spread prevention function including a.
According to claim 1,
The battery rack is provided with a metal material, the inner surface of the battery rack is a marine battery having a fire spread prevention function, characterized in that a ceramic plate or ceramic coating layer having a higher melting point than the metal material is provided.
According to claim 2,
The ceramic plate is a marine battery having a fire spread prevention function, characterized in that a plurality of unit plates are assembled and provided.
According to claim 2,
The ceramic coating layer is a marine battery having a fire prevention function, characterized in that the thermal spray coating layer.
According to claim 1,
The sensor unit is a marine battery having a fire spread prevention function, characterized in that provided with a number corresponding to the number of the battery.
According to claim 1,
A marine battery having a fire spread prevention function, characterized in that the inside of the battery rack is provided with a fire extinguishing agent injection unit for injecting fire extinguishing agent.
According to claim 6,
The fire extinguishing agent is a marine battery having a fire prevention function, characterized in that carbon dioxide, halogen compounds or oxygen absorbers.
According to claim 6,
The fire extinguishing agent injection unit directly injects the extinguishing agent, or the extinguishing agent is a ship battery having a fire prevention function, characterized in that injecting the microcapsules supported as a core material.
According to claim 6,
The microcapsule includes the core material and a shell surrounding the core material, wherein the shell is thermally decomposed when exceeding a specific temperature.

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