KR20190112580A - engine discharge structure for guarantee at safety of short circuit and Battery pack including the same - Google Patents

Abstract

The present invention relates to an energy discharge structure capable of securing safety during short circuits and a battery pack including the same. One or more energy outlets in the center of an injection cover are installed to discharge energy to the outside in order to prevent damage to a battery cell and fire by excessive amount of a specter generated when a short-circuit induction busbar is broken by high voltage current, thereby increasing safety during short circuits and improving economics compared to an application of additional fuses.

Description

Energy discharge structure and battery pack including same to ensure safety in case of short circuit {engine discharge structure for guarantee at safety of short circuit and Battery pack including the same}

The present invention relates to an energy discharging structure capable of ensuring safety during a short circuit and a battery pack including the same, and more particularly, to short-circuit that ensures stability by discharging energy to the outside of the battery pack during short-circuit of high energy and high capacity battery pack. The present invention relates to an energy discharging structure capable of ensuring safety and a battery pack including the same.

In general, secondary batteries, unlike primary batteries, can be charged and discharged and applied to various fields such as digital cameras, mobile phones, laptops, and electric vehicles, and active research is being conducted. Examples of secondary batteries include nickel-cadmium batteries, nickel-metal hydride batteries, nickel-hydrogen batteries, and lithium secondary batteries.

Lithium ion batteries and lithium ion polymer batteries have the same structure except that they differ only in the properties of the electrolyte (liquid / solid). In addition, depending on the battery, the material of the electrolyte or the electrode may be slightly different. In the case of other secondary batteries, the materials used as electrodes or electrolytes are different, and the basic principles and structures are the same.

Recently, a battery pack capable of charging and discharging has been widely used as an energy source for wireless mobile devices, and has been proposed as a solution for air pollution of conventional gasoline vehicles and diesel vehicles using fossil fuels. It is also attracting attention as a power source for EVs, hybrid electric vehicles (HEVs), and electric bicycles (EBIKEs).

Conventionally, as shown in FIG. 1, a lithium secondary battery is mainly used as a power source of an electric vehicle or a hybrid vehicle, and requires a large power, such as a motor drive, so that a battery module electrically connecting a plurality of high output battery cells ( It is common to use a large capacity battery pack 10 configured by connecting 10) in series or in parallel again.

That is, due to the necessity of high output and large capacity for medium and large devices such as electric vehicles and electric bicycles, first, a plurality of high output battery cells are electrically connected to form a battery module 10, and the plurality of battery modules 10 is again The battery pack 20 of high energy and high capacity is configured by using an electrical connection according to the requirements.

So, in order to prevent this, the short-circuit induction bus bar 30 is formed in the connection terminal between the battery modules 10 to form a bottleneck 32 to induce a break in the short circuit as shown in Figure 2, as shown in FIG. Insulation was ensured by covering the separate injection cover 40.

However, the structure as described above causes an excessive amount of specter when the bottleneck 32 of the short circuit induction busbar 30 between the battery modules 210 is disconnected by the instantaneously flowing high voltage current. Energy is blocked by the injection cover 40 is not discharged to the outside due to stagnation not only seriously damage the battery cells inside the battery pack 20 but also has a problem that acts as a cause of fire, such as ignition and explosion depending on the degree of damage .

Korean Patent Publication No. 2017-0111590 (2017.10.12)

An object of the present invention is to solve the problem in consideration of the existing problems, the energy to prevent the damage and fire of the battery cell by the excessive amount of specter generated when the short-circuit induction busbar is broken by high voltage current The present invention provides an energy discharging structure and a battery pack including the same, which increase safety in a short circuit by discharging externally and secure safety in a short circuit that can improve economics compared to an additional fuse.

An energy discharging structure capable of securing safety during a short circuit according to an embodiment of the present invention for solving the technical problem is connected to a battery module electrically connecting a plurality of high output battery cells, and disconnected when the short circuit is connected to the battery module connection terminal. Short-circuit induction busbar formed with a bottleneck to induce a, and an injection cover to insulate the short-circuit induction busbar, and installed in the injection cover to discharge the energy due to excessive amount of sputter during the short circuit to the outside of the injection cover It characterized in that it comprises an energy outlet.

In another embodiment, the energy outlet of the present invention is characterized in that one or more installed in the center of the injection cover.

In another embodiment, the energy outlet of the present invention is configured to conform to the bottleneck.

In another embodiment, the energy outlet of the present invention, the opening formed in the center of the injection cover, the opening and closing plate for opening and closing the hole, the opening and closing plate is formed on one side of the opening and closing plate when the short circuit is opened by the energy pressure. It is characterized by consisting of a cutting line to guide so that.

In another embodiment, the hole of the present invention is characterized in that formed in a parallelogram.

In another embodiment, the opening and closing plate of the present invention is characterized by consisting of a flame retardant film.

In another embodiment, the opening and closing plate of the present invention is formed to be wider than the area of the hole is characterized in that bonded to the inner edge of the hole on the inner surface of the injection cover.

In another embodiment, the cutting line of the present invention is characterized in that the other three sides are cut except for one side of the cover portion coinciding with the edge of the hole.

In another embodiment, the three sides of the cutting line of the present invention is characterized in that the lower side and the left and right.

On the other hand, the battery pack according to an embodiment of the present invention for solving the technical problem is characterized in that a plurality of battery modules are connected and implemented.

The energy discharging structure and the battery pack including the same that can ensure safety during a short circuit according to the present invention, by installing at least one energy outlet in the center of the injection cover of the excessive amount generated when the short-circuit induction busbar is broken by a high voltage current Energy can be discharged to the outside to prevent damage and fire of the battery cell by the specter, thereby improving safety during a short circuit and improving economics compared to the application of additional fuses.

1 is a conceptual diagram illustrating a battery pack connected to a plurality of battery modules according to the related art;
FIG. 2 is a perspective view illustrating a short circuit induction bus bar applied to FIG. 1; FIG.
3 is a conceptual view illustrating a state in which a short-circuit induction bus bar of a battery pack according to the related art is covered with an injection cover;
4 is a conceptual diagram illustrating a state in which a shorting induction bus bar of the battery pack according to the present invention is covered with an injection cover provided with an energy outlet;
5A and 5B are conceptual views illustrating a closed state and an open state of an opening and closing plate of an energy outlet according to the present invention.

In order to fully understand the present invention, preferred embodiments of the present invention will be described with reference to the accompanying drawings. Embodiment of the present invention may be modified in various forms, the scope of the invention should not be construed as limited to the embodiments described in detail below. This embodiment is provided to more completely explain the present invention to those skilled in the art. Therefore, the shape of the elements in the drawings and the like may be exaggerated to emphasize a more clear description. It should be noted that the same configuration in each drawing is shown with the same reference numerals. Detailed descriptions of well-known functions and configurations that are determined to unnecessarily obscure the subject matter of the present invention are omitted.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to FIGS. 4 and 5.

4 is a conceptual diagram illustrating a state in which a short-circuit induction bus bar of the battery pack according to the present invention is covered with an injection cover provided with an energy outlet, and FIGS. 5A and 5B are closed and open states of an energy outlet according to the present invention. A conceptual diagram showing the.

About the structure of this invention, the same code | symbol and same name are attached | subjected about the structure similar to the conventional structure, and the overlapping description is abbreviate | omitted.

As shown in the figure, the present invention, a battery module 10 for electrically connecting a plurality of high-power battery cells, a battery pack 20 for electrically connecting a plurality of the battery module 10, and the battery A short circuit induction bus bar 30 and a bottleneck part 32 are formed to be connected to each of the connection terminals between the modules 10 so as to induce a break in a short circuit. Including an injection cover 40 and an energy outlet 50 installed at the center of the injection cover 40 to discharge energy due to excessive amount of sputter during the short circuit to the outside of the injection cover 40. .

In this case, one or more energy outlets 50 are installed at the center of the injection cover 40, and are configured to coincide with the bottleneck part 32 of the short circuit guide busbars 30.

The energy discharge port 50, opening and closing plate 54 made of a hole 52, which is cut out at regular intervals at one center of the injection cover 40, and a flame-retardant film for opening and closing the hole 52, One side of the opening and closing plate 54 is formed to match the edge of the hole 52 is composed of a cutting line 56 to guide the opening and closing plate 54 to open by energy pressure in the event of a short circuit.

At this time, the hole 52 is preferably formed in a parallelogram.

The opening and closing plate 54 is preferably formed wider than the area of the hole 52 is bonded to the inner edge of the hole 52 in the inner surface of the injection cover 40.

The cutting line 56 is a cut of the remaining three sides except for one side of the cover portion 54, these three sides are preferably the lower side, left and right.

As described above, the energy discharging structure and the battery pack including the same that ensure safety in a short circuit according to the present invention have an excessive amount when the bottleneck 32 of the short circuit induction busbar 30 is interrupted by a high voltage current flowing momentarily. The specter is generated, and the sudden energy accumulated during the short circuit is concentrated around the one or more energy outlets 50 installed in the center of the injection cover 40, thereby applying pressure to the closed opening and closing plate 54 as illustrated in FIG. 5A. .

At this time, the opening and closing plate 54 opens the opening 52 formed in the injection cover 40 by opening and closing as shown in FIG. 5B while the cutting line 56 is opened by a sudden energy pressure applied thereto. Energy accumulated during a short circuit is discharged to the outside of the battery pack 20 at a high speed through the open hole 52 to increase safety during a short circuit.

That is, the energy outlet 50 installed in the injection cover 40 discharges the energy to the outside of the battery pack 20 when an excessive amount of specter is generated in a short circuit, thereby damaging the battery cell inside the battery module 10 and It will increase the stability to prevent fire in advance.

Therefore, the present invention provides an excessive amount of excessive amount generated when the bottleneck 32 of the short circuit induction busbar 30 is cut off by a high voltage current by providing at least one energy outlet 50 in the center of the injection cover 40. Energy can be discharged to the outside to prevent damage and fire of the battery cell by the specter, which has the advantage of increasing safety in case of short circuit and improving economics compared to the application of additional fuses.

On the other hand, the present invention is not limited only to the above-described embodiment, but can be modified and modified within the scope not departing from the gist of the present invention, the technical idea to which such modifications and variations are also applied to the claims Must see

10: battery module 20: battery pack
30: short circuit induction busbar 32: bottleneck
40: injection cover 50: energy outlet
52: hole 54: opening and closing plate
56: cutting line

Claims (10)

A battery module electrically connecting a plurality of high power battery cells,
A short circuit induction bus bar connected to the battery module connection terminal and formed with a bottleneck to induce a break in a short circuit;
An injection cover for insulatingly covering the short circuit induction busbar,
An energy discharging structure capable of securing safety during short circuiting is installed on the injection cover and includes an energy outlet for discharging energy due to an excessive amount of sputter generation to the outside of the injection cover. The method according to claim 1,
The energy discharging structure is an energy discharging structure capable of ensuring safety during a short circuit, characterized in that one or more is installed in the center of the injection cover. The method according to claim 1,
The energy discharge structure is capable of ensuring safety during short circuiting, characterized in that the energy outlet is configured to match the bottleneck. The method according to claim 1,
The energy outlet,
A hole formed in the center of the injection cover and cut;
An opening and closing plate for opening and closing the hole;
An energy discharging structure capable of securing safety during short circuiting, characterized in that it is formed on one side of the opening and closing plate to form a cutting line that induces the opening and closing plate to open by energy pressure during a short circuit. The method according to claim 4,
The hole is an energy discharging structure capable of ensuring safety during short circuiting, characterized in that formed in a parallelogram. The method according to claim 4,
The opening and closing plate is an energy discharging structure capable of ensuring safety during a short circuit, characterized in that consisting of a flame retardant film. The method according to claim 4,
The opening and closing plate is formed to be wider than the area of the hole is an energy discharging structure capable of ensuring safety during short circuiting, characterized in that bonded to the inner edge of the hole in the inner surface of the injection cover. The method according to claim 4,
The cutting line is an energy discharging structure capable of ensuring safety during short circuiting, characterized in that the three sides are cut except for one side of the cover portion coinciding with the edge of the hole. The method according to claim 8,
Three sides of the cutting line is a lower side and left and right, characterized in that the energy discharging structure capable of ensuring safety during a short circuit. A battery pack, characterized in that a plurality of battery modules according to any one of claims 1 to 9 are connected and implemented.

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