KR20240085624A - Battery pack - Google Patents

Abstract

The battery pack of the present invention includes a pack housing that accommodates a battery module, wherein the pack housing includes a lower case that accommodates the battery module and has an open top; an upper case having a coupling portion formed to surround the open upper part of the lower case; and a gasket disposed between the upper part of the lower case and the coupling portion of the upper case, wherein the upper end of the gasket is provided so as not to contact the ceiling surface of the upper case.

Description

Battery pack {BATTERY PACK}

The present invention relates to a battery pack having a structure that can prevent a gasket from being directly exposed to venting gas and flame during thermal runaway.

In general, secondary batteries refer to batteries that can be charged and discharged, unlike primary batteries that cannot be recharged, and are widely used in electronic devices such as mobile phones, laptop computers, camcorders, and electric vehicles.

Additionally, secondary batteries may be classified according to their structure. For example, the secondary battery can be classified into a cylindrical secondary battery and a pouch-type secondary battery.

That is, the cylindrical secondary battery is manufactured by winding a long sheet-shaped electrode unit multiple times in the form of a large jelly roll with a separator sheet interposed thereto to manufacture an electrode assembly, and storing the manufactured electrode assembly in a cylindrical can, etc. do. The pouch-type secondary battery is manufactured by stacking and folding electrode units of a predetermined size with a separator sheet interposed between them to manufacture an electrode assembly, and storing the manufactured electrode assembly in a pouch.

Meanwhile, secondary batteries are proposed as a solution to air pollution from existing gasoline and diesel vehicles that use fossil fuels, such as electric vehicles (EV), hybrid electric vehicles (HEV), and plug-in hybrid electric vehicles. It is also attracting attention as a power source for (Plug-In HEV). In other words, these secondary batteries are used in the form of a battery pack containing a plurality of battery modules.

For example, the battery pack includes a battery module in which a plurality of secondary batteries are connected in series or parallel, and a pack housing that accommodates the battery module.

However, the conventional battery pack had a problem in that during thermal runaway, the gasket was directly exposed to venting gas and flame at close range, resulting in significant damage to the gasket. In particular, in conventional battery packs, accidents in which flames erupt to the outside may occur due to damage to the gasket.

Patent Publication No. 2017-0057759.

The present invention improves the fastening structure of the pack housing to prevent the gasket from being directly exposed to venting gas and flame in the event of thermal runaway, and as a result, a battery pack that improves safety by preventing accidents where flames erupt to the outside. The task is to provide.

The battery pack of the present invention includes a pack housing that accommodates a battery module, wherein the pack housing includes a lower case that accommodates the battery module and has an open top; an upper case having a coupling portion formed to surround the open upper part of the lower case; and a gasket disposed between the upper part of the lower case and the coupling portion of the upper case, and the upper end of the gasket may be provided so as not to contact the ceiling surface of the upper case.

The lower end of the gasket and the lower end of the coupling portion may be located on the same horizontal line when viewed from the bottom of the lower case.

The lower end of the gasket and the lower end of the coupling portion may be positioned to correspond.

One or more insertion grooves into which a portion of the gasket is inserted may be formed in the lower case.

One or more pressing protrusions that pressurize the gasket may be formed on the rear surface of the coupling portion.

The pressing protrusion may be formed on the back surface of the coupling portion, which is formed on the lower case and corresponds to an insertion groove into which a portion of the gasket is inserted.

The tip of the pressing protrusion may be inserted into the insertion groove together with the gasket.

The tip of the pressing protrusion may have a curved surface.

The insertion groove may be formed along the outer peripheral surface of the lower case and have a structure in which both ends are connected, and the pressing protrusion may be formed along the inner peripheral surface of the coupling portion and have a structure in which both ends are connected.

Two or more insertion grooves may be formed in the lower case, and two or more pressing protrusions may be formed in the coupling portion.

Two or more of the insertion grooves may be formed to be disposed at equal intervals in the lower case.

The battery pack of the present invention includes a lower case, an upper case coupled in a form that surrounds the open upper part of the lower case, and a gasket disposed between the joining surfaces of the lower and upper cases, so that the gasket is protected from venting gas and flame during thermal runaway. Direct exposure can be prevented, and as a result, safety can be improved by preventing accidents in which flames erupt to the outside.

Figure 1 is an exploded perspective view showing a battery pack according to a first embodiment of the present invention.
Figure 2 is a cross-sectional view along line AA shown in Figure 1.
Figure 3 is a cross-sectional view taken along line BB shown in Figure 1.
Figure 4 is an enlarged view of portion "C" of Figure 2.
Figure 5 is a partial cross-sectional view showing a battery pack according to a second embodiment of the present invention.

Hereinafter, with reference to the attached drawings, embodiments of the present invention will be described in detail so that those skilled in the art can easily implement the present invention. However, the present invention may be implemented in many different forms and is not limited to the embodiments described herein. In order to clearly explain the present invention in the drawings, parts unrelated to the description are omitted, and similar parts are given similar reference numerals throughout the specification.

[Battery pack according to the first embodiment of the present invention]

The battery pack 1 according to the first embodiment of the present invention includes a battery module 10 and a pack housing 20 for accommodating the battery module 10, as shown in FIGS. 1 to 3. .

Battery module

The battery module 10 has a structure in which a plurality of battery cells are connected in series or parallel. Here, the battery cell includes an electrode assembly and a case in which the electrode assembly is accommodated, and the electrode assembly has a structure in which electrodes and separators are alternately arranged. Meanwhile, the electrode may be an anode and a cathode.

Meanwhile, the battery module 10 may further include a sensing unit and electrical components.

The sensing unit serves to transmit sensing information about electrical characteristics, such as the voltage of a battery cell, to a device such as a BMS. BMS can control battery cells based on voltage information transmitted from the sensing unit. And the sensing unit can be mounted on the frame to be electrically connected to the electrode lead of the battery cell.

The electrical equipment may include at least one of a BMS, a current sensor, a relay, and a fuse. The BMS (Battery Management System) refers to a secondary battery management device that generally controls the charging and discharging operations of the battery cell. Meanwhile, the top of an insulating member, which will be described later, is attached to the top of the electrical equipment, thereby fixing the top of the insulating member. The current sensor is a component that senses the charge/discharge current of the battery cell, and the relay is a switching component that selectively opens and closes the charge/discharge path through which the charge/discharge current of the battery cell flows. A fuse is a component that blocks the flow of charging and discharging current when an abnormality occurs in a battery cell.

pack housing

The pack housing 20 has a structure that can accommodate one or more battery modules 10, preferably two or more battery modules 10. Here, the pack housing 20 serves as an exterior material for the battery pack and protects the battery module 10 from external shock.

Here, the pack housing 20 has a structure that prevents the gasket from being directly exposed to venting gas and flame in the event of thermal runaway.

For example, the pack housing 20 includes a lower case 21, an upper case 22, and a gasket 23.

The lower case 21 accommodates the battery module 10 and has an open top. For example, the lower case 21 has a square box shape. That is, the lower case 21 consists of a bottom portion 211 on which the battery module 10 is disposed, and a wall portion 212 provided along the edge of the bottom portion 211 and surrounding the side of the battery module 10. .

The upper case 22 is combined in a shape that surrounds the open upper part of the lower case 21 and seals the open upper part of the lower case 21. That is, the upper case 22 has a box shape with an open lower part corresponding to the lower case 21. That is, the upper case 22 is coupled to a cover part 221 disposed on the upper part of the lower case 21, and is provided along the edge of the cover part 221 to surround the open upper part of the lower case 21. It consists of a coupling portion 222 that becomes.

In summary, the joining surface of the lower case 21 and the upper case 22 is formed in a vertical direction, as shown in FIG. 2.

The gasket 23 is disposed between the wall portion 212 of the lower case 21 and the coupling portion 222 of the upper case 22 and seals between the lower case 21 and the upper case 22.

In particular, the exposure of the gasket 23 to the inside of the pack housing 20 is minimized, and as a result, even if thermal runaway occurs inside the pack housing 20 and venting gas and flame are generated, the wall portion 212 of the lower case 21 is not exposed to the gasket 23. Damage can be prevented because it is not directly exposed.

Therefore, the battery pack 1 according to the first embodiment of the present invention is improved in such a way that the lower case 21 and the upper case 22 are coupled in the vertical direction, and a gasket 23 is placed between them to prevent thermal runaway. It is possible to prevent the gasket 23 from being directly exposed to venting gas and flame, and as a result, an accident in which flame erupts to the outside can be prevented.

Meanwhile, in the battery pack 1 according to the first embodiment of the present invention, the lower end of the gasket 23 and the lower end of the coupling portion 222 may be positioned to correspond. More preferably, referring to FIG. 4, the lower end of the gasket 23 and the lower end of the coupling portion 222 are aligned on the same horizontal line (“X” shown in FIG. 4) when viewed from the bottom of the lower case 21. It can be located on the "line". Accordingly, by increasing the length of the gasket 23, the sealing force can be increased, and the coupling force between the wall portion 212 and the coupling portion 222 can be increased. In particular, it is possible to block foreign substances from entering between the wall portion 212 and the coupling portion 222.

Meanwhile, in the battery pack 1 according to the first embodiment of the present invention, the upper end of the gasket 23 is provided so as not to contact the ceiling surface of the upper case 22. That is, the top of the gasket may be located at the “Y” horizontal line shown in FIG. 4. Accordingly, when combining the lower case and the upper case, the top of the gasket can be prevented from contacting or being pressed against the ceiling surface of the upper case, thereby preventing damage to the top of the gasket, and as a result, the lower case and the upper case can be prevented from being damaged. It can prevent the sealing force between them from weakening.

Meanwhile, the lower and upper surfaces of the gasket 23 may be coated with an insulating layer having higher insulation properties than the gasket 23.

Meanwhile, in the battery pack 1 according to the first embodiment of the present invention, one or more insertion grooves 213 into which a part of the gasket 23 is inserted may be formed in the lower case 21. That is, the insertion groove 213 is formed along the outer peripheral surface of the lower case 21 and has a structure in which both ends are connected. Accordingly, the gasket 23 can be stably fixed or placed on the surface of the lower case 21, and in particular, the contact area between the lower case 21 and the gasket 23 can be increased to increase the sealing force. Here, two or more insertion grooves 213 may be formed in the lower case 21, and the two or more insertion grooves 213 are spaced at equal intervals along the vertical direction of the lower case 21 as seen in FIG. 2. can be formed. This allows for more stable fixation and placement of the gasket 23.

Meanwhile, on the back side of the coupling portion 222 facing the gasket 23 in the battery pack 1 according to the first embodiment of the present invention (the inner surface of the coupling portion as seen in FIG. 1), the gasket 23 is installed. One or more pressing protrusions 223 may be formed. That is, the pressing protrusion 223 is formed along the back surface of the coupling portion 222 and is formed so that both ends are connected. In particular, as seen in FIG. 4, two or more pressing protrusions 223 are formed on the back surface of the coupling portion 222 at equal intervals along the vertical direction. Accordingly, the gasket 23 disposed between the lower case 21 and the upper case 22 can be more effectively pressed, and as a result, the sealing force can be increased.

Here, the pressing protrusion 223 may be formed on the back of the coupling portion 222, which is formed on the lower case 21 and corresponds to the insertion groove 213 into which a part of the gasket 23 is inserted. That is, the pressing protrusion 223 and the insertion groove 213 may be formed to face each other with respect to the gasket 23. In particular, the tip of the pressing protrusion 223 may be inserted into the insertion groove 213 together with the gasket 23. Accordingly, the lower case 21 and the upper case 22 can be coupled without separation without coupling means such as bolts and nuts, and as a result, the coupling force can be increased. In particular, the sealing force can be increased by increasing the contact surface between the gasket and the lower case or the gasket and the upper case.

Hereinafter, in describing other embodiments of the present invention, the same reference numerals are used for components having the same configuration as the above-described embodiments, and overlapping descriptions are omitted.

[Battery pack according to the second embodiment of the present invention]

As shown in FIG. 5, the battery pack 1 according to the second embodiment of the present invention includes a lower case 21, an upper case 22, and a gasket 23.

Meanwhile, the lower case 21, upper case 22, and gasket 23 have the same configuration and function as the lower case 21, upper case 22, and gasket 23 described above, and accordingly, overlapping descriptions are provided. is omitted.

A pressing protrusion 223 is formed on the coupling portion 222 of the upper case 22, and the tip of the pressing protrusion 223 is inserted with the gasket 23 into the insertion groove 213 formed in the lower case 21. is inserted.

Here, the tip of the pressing protrusion 223 may have a curved surface 2231 or a semicircular shape. Accordingly, damage to the gasket 23 due to the pressing protrusion 223 can be prevented, and adhesion between the gasket 23 and the pressing protrusion 223 can be increased.

Additionally, the bottom surface of the insertion groove 213 may have the same curved surface or semicircular shape as the tip of the pressing protrusion 223. Accordingly, the adhesion between the insertion groove 213 and the pressing protrusion 223 via the gasket 23 can be increased.

Although the present invention has been described with reference to the illustrative drawings as described above, the present invention is not limited to the embodiments and drawings described above, and those skilled in the art in the technical field to which the present invention pertains within the scope of the patent claims. Various implementations are possible.

1: Battery pack
10: Battery module
20: pack housing
21: lower case
211: bottom part
212: Wall part
123: Insertion groove
22: upper case
221: cover part
222: coupling part
223: Pressure protrusion
2231: Curved surface
23: gasket

Claims (11)

Includes a pack housing that accommodates the battery module,
The pack housing is,
a lower case that accommodates the battery module and has an open top;
an upper case having a coupling portion formed to surround the open upper part of the lower case; and
It includes a gasket disposed between the upper part of the lower case and the coupling part of the upper case,
A battery pack in which the top of the gasket is provided so as not to contact the ceiling surface of the upper case. In claim 1,
The lower end of the gasket and the lower end of the coupling portion are positioned on the same horizontal line when viewed from the bottom of the lower case. In claim 1,
The lower end of the gasket and the lower end of the coupling portion are positioned to correspond to each other in the battery pack. In claim 3,
A battery pack in which one or more insertion grooves are formed in the lower case into which a portion of the gasket is inserted. In claim 1 or claim 4,
A battery pack in which one or more pressing protrusions that pressurize the gasket are formed on the rear surface of the coupling portion. In claim 5,
The pressing protrusion is formed on the lower case and is formed on the back surface of the coupling portion corresponding to an insertion groove into which a part of the gasket is inserted. In claim 6,
The tip of the pressing protrusion is a battery pack that is inserted into the insertion groove together with the gasket. In claim 6,
The tip of the pressing protrusion is a battery pack having a curved surface. In claim 6,
The insertion groove is formed along the outer peripheral surface of the lower case and has a structure in which both ends are connected,
The pressing protrusion is formed along the inner peripheral surface of the coupling portion and has a structure in which both ends are connected. In claim 9,
Two or more insertion grooves are formed in the lower case,
A battery pack in which two or more pressing protrusions are formed on the coupling portion. In claim 10,
A battery pack in which the two or more insertion grooves are arranged at equal intervals in the lower case.

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