KR20240074522A - Fire extinguishing material for battery - Google Patents

Abstract

The extinguishing material for extinguishing battery fires of the present invention is manufactured by foaming powdered glass and is in the form of granules with a certain size, a first extinguishing material having a plurality of pores, and the plurality of pores of the first extinguishing material are filled and in the form of powder. It is composed of a second fire extinguishing material with a lower melting temperature than the first fire extinguishing material, which can increase the storage amount of fire extinguishing material per same area, and can improve battery fire extinguishing performance by having different types of fire extinguishing materials sequentially act on the battery. there is.

Description

{FIRE EXTINGUISHING MATERIAL FOR BATTERY}

The present invention relates to a fire extinguishing material for extinguishing battery fires, which is composed of different types of fire extinguishing materials and acts sequentially over time to improve the fire extinguishing performance of lithium ion batteries.

Currently, lithium-ion batteries are used in various fields such as electric vehicles, energy storage devices, and emergency power devices.

Lithium-ion batteries can generate heat in the vehicle body due to various internal chemical reactions, and if damaged by external physical shock, etc., a short circuit may occur inside the battery and a fire may occur. If a fire occurs in the battery, it must be extinguished. Various fire extinguishing devices are being developed for this purpose.

As a conventional battery fire extinguishing device is disclosed in Korean Patent No. 10-2303096 (September 10, 2021), the first fire extinguishing agent is in the form of a powder containing monobasic ammonium phosphate and stone dust, and the second fire extinguishing agent is a powder. It is formed in the form of granules manufactured by foaming glass and is mounted on separate internal members.

However, in such a conventional battery fire extinguishing device, the first fire extinguishing agent and the second fire extinguishing agent are each sealed in separate internal members and are sequentially supplied to the battery as the internal members burst, so the size of the fire extinguishing device increases. There is.

In addition, ammonium phosphate is composed of three types of fire extinguishing agents, so there is a problem of low cooling effect for battery extinguishing.

Korean registered patent 10-2303096 (September 10, 2021)

Therefore, the purpose of the present invention is to fill the pores of the granular first fire extinguishing material, which is manufactured by foaming glass powder and forming a plurality of pores, with a second fire extinguishing material in the form of powder, thereby achieving both a suffocation effect and a cooling effect simultaneously in the battery. The goal is to provide fire extinguishing materials for batteries that can improve fire extinguishing performance.

Another object of the present invention is to provide a fire extinguishing material for batteries that is manufactured by filling the pores of the first fire extinguishing material with a second fire extinguishing material, so that the storage capacity of the fire extinguishing material per same area can be maximized and the size of the fire extinguishing device can be reduced. .

Another object of the present invention is to provide a fire extinguishing material for a battery that is composed of three types of fire extinguishing materials and can improve battery fire extinguishing performance by supplying the three types of fire extinguishing materials to the battery sequentially with a time difference.

In order to achieve the above object, the fire extinguishing material for batteries of the present invention is manufactured by foaming powdered glass and is in the form of granules having a certain size, a first fire extinguishing material having a plurality of pores, and a plurality of pores of the first fire extinguishing material. It is filled in and is in powder form and contains a second fire extinguishing material that has a lower melting temperature than the first fire extinguishing material.

The first extinguishing material has a diameter of 0.1 to 4.0 mm, a pore size of 100 nm to 1000 nm, and a porosity of 60 to 90%.

The second extinguishing material is mainly composed of sodium bicarbonate (NaHCO ₃ ) and potassium bicarbonate (KHCO ₃ ), and a material in which the sodium bicarbonate (NaHCO ₃ ) and potassium bicarbonate (KHCO ₃ ) are mixed at a certain ratio can be used. You can.

The fire extinguishing material for batteries of the present invention is in the form of particles with a certain size by foaming glass powder, a first fire extinguishing material in which a plurality of pores are formed, and a powder form filled in the plurality of pores of the first fire extinguishing material, and It may include a second fire extinguishing material having a lower melting temperature than the first fire extinguishing material, and a third fire extinguishing material arranged to be wrapped around the outer surface of the first fire extinguishing material and having a lower melting temperature than the second fire extinguishing material.

As described above, the fire extinguishing material for batteries of the present invention is manufactured by foaming glass powder, and the pores of the granular first fire extinguishing material in which a plurality of pores are formed are filled with the second fire extinguishing material in the form of powder to provide a suffocation effect and cooling. The goal is to provide a fire extinguishing material for batteries that can simultaneously improve battery fire extinguishing performance.

Another object of the present invention is to provide an extinguishing material for extinguishing battery fires that is manufactured by filling the pores of the first extinguishing material with a second extinguishing material, so that the storage capacity of the extinguishing material per same area can be maximized and the size of the fire extinguishing device can be reduced. It is done.

Another object of the present invention is to provide an extinguishing material for extinguishing battery fires that is composed of three types of extinguishing materials and can improve battery fire extinguishing performance by supplying the three types of extinguishing materials to the battery sequentially at intervals.

1 is an enlarged cross-sectional view of an extinguishing material according to a first embodiment of the present invention.
Figure 2 is an enlarged cross-sectional view of the fire extinguishing material according to the second embodiment of the present invention.
Figure 3 is an enlarged photograph showing the pores of the first fire extinguishing material according to the first embodiment of the present invention.
Figure 4 is an enlarged photograph showing a second extinguishing material filled in the pores of the first extinguishing material according to the first embodiment of the present invention.

Hereinafter, an embodiment according to the present invention will be described in detail with reference to the attached drawings. In this process, the size or shape of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. Additionally, terms specifically defined in consideration of the configuration and operation of the present invention may vary depending on the intention or custom of the user or operator. Definitions of these terms should be made based on the content throughout this specification.

Figure 1 is a cross-sectional view of an extinguishing material for extinguishing a battery fire according to a first embodiment of the present invention.

The fire extinguishing material according to the first embodiment is a first fire extinguishing agent in which waste glass is pulverized into powder form, and the waste glass in powder form is foamed to form granules of a certain size and a plurality of pores 12 are formed. It is filled in the plurality of pores of the material 10 and the first fire extinguishing material 10 and is in powder form, and melts at a lower temperature than the first fire extinguishing material 10 when a battery fire occurs, thereby maximizing the suffocation and cooling effects. Contains extinguishing substances (20).

The waste glass of the first fire extinguishing material (10) uses waste glass generated from end-of-life vehicles to maximize recycling of end-of-life vehicles.

The first extinguishing material (10) is a mixture of 70-75% SiO ₂ , 10-15% Na ₂ O, 7-11% CaO, 0.5-5% Al ₂ O ₃ , 1-5% MgO, and 1-4% K2O. It consists of a composition made up of

This first fire extinguishing material 10 is light in weight and has a small specific gravity, so it is easy to handle, transport, and store, and is resistant to external environmental factors such as moisture, heat, corrosion, and organic solvents.

The first fire extinguishing material 10 is non-flammable, can be stored for a long time, is environmentally friendly, can be easily removed after extinguishing a fire, and unmelted fire extinguishing material can be reused.

The first fire extinguishing agent (10) is non-toxic, non-reactive to fabric solvents, odorless, non-allegic, and radiologically harmless, so it does not affect the user when used.

The first fire extinguishing material 10 is formed to have a diameter of 0.1 to 4.0 mm, and the pore size is formed to be 100 nm to 1000 nm, which is a size that can be sufficiently filled with the second fire extinguishing material 20. The porosity can be set to 60-90%.

That is, the first fire extinguishing material 10 is manufactured in the form of particles by foaming glass powder. At this time, the foaming rate is adjusted to change the pore size and porosity so that the second fire extinguishing material is sufficiently filled, and the first fire extinguishing material 10 is Ensure that the amount of the second fire extinguishing material (20) is sufficient.

The melting temperature of the first fire extinguishing material (10) is 760°C, and when the temperature rises above 760°C in the event of a battery fire, it melts and adheres to the surface of the battery, blocking the fire battery from the outside and supplying oxygen to the battery. It performs a fire extinguishing function by blocking the fire and prevents the battery fire from spreading to other areas or other batteries.

To explain the fire extinguishing principle of the first fire extinguishing material 10, when a fire occurs in the battery, it is melted by the temperature of the battery, and in the process of melting, melted energy is absorbed from the fire of the battery to perform a cooling effect on the fire and melt. The material attaches to the surface of the battery and forms a film layer, thereby blocking the supply of oxygen to the battery and performing a fire extinguishing function.

The second fire extinguishing material 20 is in powder form, and its main ingredients are sodium bicarbonate (NaHCO ₃ ) and potassium hydrogen carbonate (KHCO ₃ ), and a mixture of sodium bicarbonate and potassium bicarbonate in a certain ratio is used.

Here, the thermal decomposition reaction equation of sodium bicarbonate (270℃, 850℃) is

2NaHCO ₃ → Na ₂ CO ₃ + H ₂ O↑ + CO ₂ ↑ - 30.3kcal

2NaHCO ₃ → Na ₂ O + H ₂ O↑ + 2CO ₂ ↑ - 104.4 kcal,

The thermal decomposition reaction formula of potassium bicarbonate (190℃, 590℃) is

2KHCO ₃ → K ₂ CO ₃ + H ₂ O↑ + CO ₂ ↑ - Qkcal

2KHCO ₃ → K ₂ O + H ₂ O↑ + 2CO ₂ ↑ - Qkcal.

The second fire extinguishing material 20 has a lower melting temperature than the first fire extinguishing material 10, so when a battery fire occurs, it melts earlier than the first fire extinguishing material 10 and acts on the surface of the battery to perform the primary fire extinguishing action. .

In other words, the second fire extinguishing material 20 exerts a smothering effect and a cooling effect. The smothering effect is that the powder itself melts in heat to form a coating to block oxygen, and the limit due to thermal decomposition products is It is diluted below the oxygen concentration and exerts a fire extinguishing effect by lowering the oxygen concentration by generating carbon dioxide and water vapor.

As for the cooling effect, as shown in the thermal decomposition equation above, sodium bicarbonate shows an endothermic reaction of 15.15 kcal (270 ℃) and 52.2 kcal (850 ℃), and potassium bicarbonate shows an endothermic reaction of 14.9 kcal (190 ℃) and 63.55 kcal (590 ℃). It exhibits an endothermic reaction of ℃) and can exert cooling performance.

As described above, the fire extinguishing material according to the first embodiment of the present invention is manufactured by filling the pores 12 formed in the first fire extinguishing material 10 with the second fire extinguishing material 20, so that the storage amount of the fire extinguishing material per the same area is can be increased and the size of the fire extinguishing device can be reduced.

In addition, when a fire occurs in the battery, the second fire extinguishing material 20 performs a primary fire extinguishing action, and the first fire extinguishing material 10 performs a secondary fire extinguishing action, thereby improving battery fire extinguishing performance.

As shown in Figure 2, the fire extinguishing material according to the second embodiment is in the form of granules with a certain size by crushing waste glass into powder form and then foaming the waste glass in powder form, and has a plurality of pores ( 12) is formed, the first fire extinguishing material 10, and the second fire extinguishing material 20, which is in the form of a powder filled in a plurality of pores of the first fire extinguishing material 10 and has a lower melting point than the first fire extinguishing material 10. ) and a third extinguishing material (30) that is disposed to be wrapped around the outer surface of the first extinguishing material (10) and has a lower melting point than the second extinguishing material (20).

The first fire extinguishing material 10 according to the second embodiment uses the same fire extinguishing material as that described in the first embodiment, and the porosity of the pores 12 may be 40 to 60%.

The second extinguishing material 20 is mainly composed of sodium bicarbonate (NaHCO ₃ ) in powder form, and the third extinguishing material 30 is hydrogen carbonate containing a binder so that it can be wrapped around the outer surface of the first extinguishing material 10. Potassium (KHCO ₃ ) is the main ingredient.

In the fire extinguishing material according to the second embodiment, since the melting temperature of the third fire extinguishing material 30 wrapped around the outer surface of the first fire extinguishing material 10 is the lowest, when a battery fire occurs, it melts first by the heat of the battery and melts first. The extinguishing action is performed, and then the second extinguishing material (20) filled in the pores (12) of the first extinguishing material (10) is melted to perform a secondary fire extinguishing action, and finally, the first extinguishing material (10) is melted. ) is melted and performs tertiary digestion. Therefore, the fire extinguishing material according to the second embodiment can improve the fire extinguishing performance of the battery by sequentially acting on the battery with different types of fire extinguishing materials.

Figure 3 is an enlarged photograph of the first fire extinguishing material according to the first embodiment of the present invention. By foaming waste glass, expanded glass with pores of a sufficient size to be filled with the second fire extinguishing material can be manufactured.

And, as shown in FIG. 4, it can be confirmed that the second fire extinguishing material in powder form is filled into the plurality of pores of the first fire extinguishing material.

In the above, the present invention has been shown and described by taking specific preferred embodiments as examples, but the present invention is not limited to the above-described embodiments and is within the scope of the spirit of the present invention and is within the scope of common knowledge in the technical field to which the invention pertains. Various changes and modifications will be possible by those who have it.

10: First extinguishing substance 12: Pores
20: Second fire extinguishing material 30: Third fire extinguishing material

Claims (9)

A first fire extinguishing material manufactured by foaming powdered glass, in the form of particles with a certain size, and having a plurality of pores; and
An extinguishing material for extinguishing a battery fire, which is filled in a plurality of pores of the first extinguishing material, is in powder form, and includes a second extinguishing material having a lower melting temperature than the first extinguishing material. According to paragraph 1,
The powdered glass is an extinguishing material for extinguishing battery fires using glass from scrap cars. According to paragraph 1,
The first extinguishing material is an extinguishing material for extinguishing battery fires with a diameter of 0.1 to 4.0 mm, a pore size of 100 nm to 1000 nm, and a porosity of 60 to 90%. According to paragraph 1,
The second fire extinguishing material is a battery whose main components are sodium bicarbonate (NaHCO ₃ ) and potassium bicarbonate (KHCO ₃ ), and is a mixture of sodium bicarbonate (NaHCO ₃ ) and potassium bicarbonate (KHCO ₃ ) in a certain ratio. Extinguishing material for fire suppression. A first fire extinguishing material in the form of particles with a certain size made by foaming glass powder and in which a plurality of pores are formed;
a second fire extinguishing material that is filled in the plurality of pores of the first fire extinguishing material and has a lower melting temperature than the first fire extinguishing material; and
An extinguishing material for extinguishing a battery fire, which is disposed around the outer surface of the first extinguishing material and includes a third extinguishing material having a lower melting temperature than the second extinguishing material. According to clause 5,
When a battery fire occurs and the first temperature is reached, the third fire extinguishing material melts and acts on the surface of the battery to perform a primary fire extinguishing effect. When the second temperature is reached, the second fire extinguishing material melts and acts on the battery surface. An extinguishing material for extinguishing battery fires that acts on the surface of the battery to perform a secondary fire extinguishing effect, and when the third temperature is reached, the first fire extinguishing material melts and acts on the surface of the battery to perform a tertiary fire extinguishing action. According to clause 5,
The first extinguishing material is an extinguishing material for extinguishing battery fires with a diameter of 0.1 to 4.0 mm, a pore size of 100 nm to 1000 nm, and a porosity of 40 to 60%. According to clause 5,
The second fire extinguishing material is an extinguishing material for extinguishing battery fires whose main ingredient is sodium bicarbonate (NaHCO ₃ ) in powder form. According to clause 5,
The third extinguishing material is an extinguishing material for extinguishing battery fires whose main ingredient is potassium hydrogen carbonate (KHCO ₃ ) containing a binder.

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