KR20230125399A - Housing containing fire-extinguishing chemicals - Google Patents

Abstract

The present invention relates to a housing for accommodating a fire extinguishing agent, including: an internal unit having an accommodation unit for accommodating a battery therein; an external unit positioned externally to be spaced apart from the internal unit at a predetermined distance; a reinforcing layer formed on the inner surface facing the internal unit from the external unit; and a fire extinguishing agent accommodated in a space spaced between the reinforcing layer and the internal unit, wherein the internal unit includes an opening unit that opens so that the fire extinguishing agent can be moved to a battery side when a predetermined condition is met.

Description

Housing for accommodating fire extinguishing agents {HOUSING CONTAINING FIRE-EXTINGUISHING CHEMICALS}

The present invention relates to a housing containing a fire extinguishing agent.

Recently, as the demand for electric vehicles gradually increases, interest in batteries applied to vehicles is rapidly increasing. A battery applied to a vehicle may have a pouch type or a cylindrical shape. In the case of a cylindrical shape, a configuration in which a plurality of batteries are arranged adjacently is generally applied. At this time, the battery included in the battery module may explode due to a defect or lead to a fire when the temperature is increased to a high temperature. Therefore, research is being conducted on a technology for preparing a configuration for preventing fire in a vehicle or device to which a battery is applied. Among them, a method for reducing damage by extinguishing a fire that occurred after an explosion of a battery or preventing a secondary accident has been applied to vehicles, but applying means for effectively extinguishing a fire that occurs during an explosion is through a conventional method. has difficulties In addition, since a cylindrical battery application model in which a plurality of batteries are arranged adjacently can cause a chain explosion, it is important to intensively prevent fire or extinguish fire through fire extinguishing agent for the part where the reaction occurs.

Republic of Korea Patent Publication No. 10-2013-0032963 (2013. 04. 03)

An object of one embodiment of the present invention is to prevent or extinguish a fire by partially injecting an extinguishing agent by detecting signs of a fire occurring from a battery in a housing accommodating the battery.

The present invention relates to a housing for accommodating a fire extinguishing agent, comprising: a built-in unit for providing an accommodation unit for accommodating a battery therein; an exterior part located outside so as to be spaced apart from the interior part by a predetermined distance; a reinforcing layer formed on an inner surface facing the interior portion from the exterior portion; and a fire extinguishing agent accommodated in the space spaced apart between the reinforcing layer and the interior unit, wherein the interior unit includes an opening that is opened so that the fire extinguishing agent can be moved to the battery side when predetermined conditions are satisfied, a housing for accommodating the fire extinguishing agent. provides

In addition, the fire extinguishing agent may be accommodated in the receiving unit at a pressure higher than atmospheric pressure.

In addition, a plurality of openings are formed in the internal portion, but may be formed on different opposing surfaces with respect to the battery so that the fire extinguishing agent can be moved from a plurality of directions with respect to the battery side.

In addition, the predetermined condition is a temperature range of 65 degrees or more, and the opening may be opened through at least one of fracture and melting when the predetermined condition is satisfied.

In addition, the batteries may be arranged on an XY plane, and openings may be formed in the Z direction corresponding to each battery.

In addition, when the exterior part is made of the same material as the interior part, it is formed to be thicker than the interior part, and when the interior part is made of a different material, the exterior part may be formed with higher strength than the interior part.

In addition, since the opening portion of the interior portion is formed to have lower strength including heat resistance than the area excluding the opening portion, opening by an external force including a temperature increase may be induced.

In addition, a sensor unit for sensing the pressure of the fire extinguishing agent may be further included.

In addition, a calculation unit for converting the pressure detected by the sensor unit into a temperature according to the expansion rate of the fire extinguishing agent may be further included.

According to one embodiment of the present invention, a housing accommodating a fire extinguishing agent for preventing or suppressing a fire by partially injecting a fire extinguishing agent by detecting signs of fire occurring from the battery may be provided.

1 is a view showing the lower part of a vehicle equipped with a housing accommodating a battery according to an embodiment of the present invention.
2 is a perspective view of a housing accommodating a battery according to an embodiment of the present invention.
3 is a view showing an opening formed in a housing according to an embodiment of the present invention.
4 is an enlarged view of a portion of a cross-section of a housing according to an embodiment of the present invention.
5 is a view showing that the fire extinguishing agent according to an embodiment of the present invention is sprayed through an opening.

Hereinafter, specific embodiments of the present invention will be described with reference to the drawings. However, this is only an example and the present invention is not limited thereto.

In describing the present invention, if it is determined that a detailed description of the known technology related to the present invention may unnecessarily obscure the subject matter of the present invention, the detailed description will be omitted. In addition, terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to the intention or custom of a user or operator. Therefore, the definition should be made based on the contents throughout this specification.

The technical spirit of the present invention is determined by the claims, and the following examples are only one means for efficiently explaining the technical spirit of the present invention to those skilled in the art to which the present invention belongs.

1 is a view showing the lower part of a vehicle equipped with a battery housing 100 in which a battery 1 is accommodated according to an embodiment of the present invention.

Referring to FIG. 1, a battery module applied to the lower part of a vehicle is generally provided with a base 10 connected to wheels 20 of a vehicle, and a battery 1 is placed on the base 10. can Of course, the battery 1 may be seated on the base 10 or positioned within the base 10 as shown, and the battery 1 may be positioned within the battery housing 100 . The battery housing 100 divides internal and external spaces and may accommodate the battery 1 in the accommodating portion 100a formed therein.

2 is a perspective view of a battery housing 100 accommodating a battery 1 according to an embodiment of the present invention.

Referring to FIG. 2 , as described above, a plurality of batteries 1 accommodated in the battery housing 100 may be horizontally arranged in a predetermined arrangement. Horizontal arrangement means that they are not stacked on each other but arranged to be adjacent to each other, but is not limited thereto, and will be described as an embodiment only when the cylindrical battery 1 is applied.

The battery 1 may be accommodated in the battery housing 100 and may be separated from an external space of the battery housing 100 . The batteries 1 disposed in this state may explode or increase in temperature among the batteries 1 accommodated due to an electrical defect or an external force. This increase in temperature leads to an explosion of the battery housing 100 and may cause a chain of explosions of adjacent batteries 1 . Therefore, it is desirable to detect an explosion or increased temperature and to carry out a corresponding fire extinguishing.

However, when a plurality of batteries 1 are accommodated, it is not possible to predict which battery 1 will cause temperature increase or explosion, so it is preferable to be able to fire extinguishing toward all the batteries 1 disposed. Therefore, the present invention can prevent explosion or fire by spraying the fire extinguishing agent 105 from the battery housing 100 surrounding the battery 1 in all directions.

To do this, the battery housing 100 may contain the fire extinguishing agent 105 and may also form an open hole through which the fire extinguishing agent 105 may be sprayed. Hereinafter, the extinguishing agent 105 is accommodated in the drug storage unit 100b and the opening will be described.

3 is a view showing an opening formed in the battery housing 100 according to an embodiment of the present invention.

Referring to FIG. 3 , the battery housing 100 includes an interior part 120 and an exterior part 110 . The internal part 120 may form an accommodating part 100a accommodating the battery 1 therein, and may be spaced apart from the external part 110 . The exterior part 110 may be disposed spaced apart from the interior part 120 on the outside of the interior part 120 . The interior part 120 and the exterior part 110 may maintain a predetermined distance by a spacer (not shown) connecting each other. A space is formed between the interior part 120 and the exterior part 110 by the predetermined distance, and it can function as a medicine storage part 100b.

The medicine storage unit 100b may be a space for storing the fire extinguishing agent 105. That is, the fire extinguishing agent 105 is stored in the space between the interior part 120 and the exterior part 110 and can be injected toward the battery 1 when a predetermined condition is satisfied. Here, as a configuration formed for spraying, an opening provided in the internal part 120 may be formed. A plurality of openings are formed in the internal part 120, but may be formed on different opposing surfaces with respect to the battery 1 so that the fire extinguishing agent 105 can be moved from a plurality of directions with respect to the battery 1 side.

As shown, the plurality of directions include the first opening 121 formed in the Z direction, the second opening 122 formed in the X direction, and the third opening 122 formed in the Y direction in the battery housing 100 configured in the form of a hexahedron. This means the direction in which the fire extinguishing agent 105 flows into the battery 1 through the opening 123. Of course, in this example, it has the shape of a hexahedron, so it is limited to this, but it is possible to change the design according to the shape of the battery housing 100.

In addition, the batteries 1 may be arranged on an XY plane, and first openings 121 may be formed in the Z direction corresponding to each of the batteries 1 . The batteries 1 arranged on the XY plane can be extinguished by spraying the fire extinguishing agent 105 through the first opening 121 formed in the Z direction to correspond to the heating (explosion) point of each battery 1 there is. This means that, in the case of the cylindrical battery 1, since the contact area formed at one end is highly likely to be exposed to electrical coupling, intensive fire extinguishing can be performed thereon.

In addition, the openings including the first opening 121, the second opening 122, and the third opening 123 are formed to be vulnerable to heat and pressure, so that the fire extinguishing agent 105 is stored in the medicine storage unit 100b. However, when a predetermined condition is satisfied, the opening may be opened so that the fire extinguishing agent 105 is ejected. In this regard, it will be described with reference to FIGS. 4 and 5 below.

4 is an enlarged view of a portion of the cross-section of the battery housing 100 according to an embodiment of the present invention.

Referring to FIG. 4, the battery housing 100 accommodating the fire extinguishing agent 105 of the present invention includes an internal part 120 providing an accommodating part 100a for accommodating the battery 1 therein, and an internal part 120 ) and a predetermined distance apart from the exterior part 110, a reinforcing layer formed on the inner surface facing the interior part 120 from the exterior part 110, and a space spaced between the reinforcing layer and the interior part 120. It may include a fire extinguishing agent 105 accommodated in.

The internal part 120 includes an opening that is opened so that the fire extinguishing agent 105 can be moved to the side of the battery 1 when a predetermined condition is satisfied, and the fire extinguishing agent 105 is contained in the receiving part 100a at a pressure higher than atmospheric pressure. ) can be accommodated. The above-described predetermined condition for opening the opening may be a temperature range of 65 degrees or higher. That is, the opening may be opened through at least one of fracture and melting such that the opening is opened by the temperature.

Meanwhile, the internal pressure of the drug storage unit 100b may be maintained until the opening unit is opened, and the opening unit may be pre-opened by heat and pressure. As an example, the exterior part 110 is formed thicker than the interior part 120 when it is made of the same material as the interior part 120, and the exterior part 110 is built in when the interior part 120 is made of different materials. By being formed with a higher strength than the portion 120, the fire extinguishing agent 105 can be ejected through the opening without being ejected due to damage to the area except for the open portion of the exterior portion 110 or the interior portion 120. Through this configuration, the fire extinguishing agent 105 can be ejected through an opening adjacent to the battery 1 that has been affected by heat, that is, has a problem.

In this way, in order to promote line opening of the opening, a reinforcing layer 111 is provided on the inner surface of the exterior unit 110 to further increase the strength of the exterior unit 110 . The reinforcing layer 111 is a chemical composition, maintains airtightness of the surface, and may be applied to the inner surface of the exterior part 110 in a liquid form.

Here, the fire extinguishing agent 105 may be a composition composed by combining a plurality of compositions. Also, the opening may be made of the same material as the interior part 120, but may be preferentially damaged according to the design of the structure and thickness of the opening. For example, since the opening portion has a lower strength such as heat resistance than an area of the internal portion 120 except for the opening portion, the opening portion may be pre-opened by an external force including a temperature rise.

Meanwhile, a sensor unit 150 for sensing the pressure of the fire extinguishing agent 105 may be further included, and the sensor unit may be located on the inner surface of the exterior unit 110. By being attached to the inner surface of the exterior part 110, at least a part of the sensor unit 150 is exposed to the fire extinguishing agent 105 and can sense the pressure of the fire extinguishing agent 105. Here, since the fire extinguishing agent 105 is satisfied with the fire extinguishing agent 105 in a fluid state that is easy to extinguish by those skilled in the art, the expansion rate versus temperature varies depending on the type of the fire extinguishing agent 105, the type of the fire extinguishing agent 105, In consideration of the volume of the drug storage unit 100b, the material of the internal unit 120 and the exterior unit 110, the temperature of the drug storage unit 100b is converted and calculated through the pressure sensed by the sensor unit 150. can A calculation unit (not shown) that converts this can receive information through the wire 151 connected to the sensor unit 150, and manage and control the pressure information transmitted from the plurality of battery housings 100, respectively. do.

5 is a view showing that the fire extinguishing agent 105 according to an embodiment of the present invention is sprayed through an opening.

Referring to FIG. 5, according to the above-described opening, when a predetermined fire point E occurs, the temperature of the fire point E is formed to be the highest, so the effect of the increased temperature further affects the nearest opening. As the temperature condition, which is the predetermined condition, is satisfied, the opening part is opened, and intensive fire extinguishing can be performed on the fire point (E). According to the design of this example, since the first opening 121 is likely to be the closest opening, the fire extinguishing agent 105 can be ejected by the opening of the first opening 121, and the battery 1 According to the arrangement, with respect to the fire generated from the battery 1 disposed at the edge, the opening of at least one of the first spraying direction 121A, as well as the second spraying direction 121B and the third spraying direction 121C, Fire extinguishing agent 105 may be sprayed.

Although representative embodiments of the present invention have been described in detail above, those skilled in the art will understand that various modifications are possible to the above-described embodiments without departing from the scope of the present invention. . Therefore, the scope of the present invention should not be limited to the described embodiments and should not be defined, and should be defined by not only the claims to be described later, but also those equivalent to these claims.

1: battery
10: base
20: wheel
100: battery housing
100a: receiving part
100b: drug storage unit
105: fire extinguishing agent
110: exterior part
111: reinforcement layer
120: internal part
121: first opening
121A: first injection direction
122: second opening
122B: second spraying direction
123: third opening
123C: 3rd injection direction
150: sensor unit
151: wire
E: fire point

Claims (9)

A built-in unit for providing a receiving unit for accommodating a battery therein;
an exterior part located outside to be spaced apart from the interior part by a predetermined distance;
a reinforcing layer formed on an inner surface facing the interior part from the exterior part; and
Including; a fire extinguishing agent accommodated in a space spaced apart between the reinforcing layer and the interior part,
The internal part includes a housing for accommodating the fire extinguishing agent, including an opening that is opened so that the fire extinguishing agent can be moved to the battery side when a predetermined condition is satisfied.

The method of claim 1,
A housing for accommodating the fire extinguishing agent, wherein the fire extinguishing agent is accommodated in the receiving portion at a pressure higher than atmospheric pressure.
The method of claim 2,
the opening,
A housing accommodating a fire extinguishing agent formed in a plurality of pieces in the internal part and formed on different opposing surfaces with respect to the battery so that the fire extinguishing agent can be moved from a plurality of directions with respect to the battery side.
The method of claim 3,
The predetermined condition is a temperature range of 65 degrees or higher, and the opening is opened through at least one of fracture and melting when the predetermined condition is satisfied.
The method of claim 4,
The battery is arranged on the XY plane, and the opening is formed in the Z direction corresponding to each of the batteries, a housing for accommodating the fire extinguishing agent.
The method of claim 5,
The exterior part is formed thicker than the interior part when the material is the same as the interior part,
The housing for accommodating the fire extinguishing agent, wherein the exterior portion is formed with a higher strength than the interior portion when the interior portion is made of a different material.
The method of claim 8,
the internal part,
A housing for accommodating a fire extinguishing agent, wherein the opening portion is formed to have a lower strength including heat resistance than an area excluding the opening portion, so that opening is induced by an external force including a temperature rise.
The method of claim 1,
A housing for accommodating the fire extinguishing agent, further comprising a sensor unit for sensing the pressure of the fire extinguishing agent.
The method of claim 8,
A housing accommodating the fire extinguishing agent further comprising a calculation unit for converting the pressure sensed by the sensor unit into a temperature according to the expansion rate of the fire extinguishing agent.