KR101866369B1 - Battery case - Google Patents

Abstract

The present invention relates to a battery case, and more particularly, to a battery case in which a plurality of sub-battery modules formed by wrapping a battery cell in a pouch-shaped case are stacked and arranged in parallel, And a first side housing and a second side housing coupled to both side surfaces of the sub battery module by being hinged to both side ends of the lower housing to rotate, To a battery case that can reduce the number of additional components required to reduce cost and weight, and can improve assembly and productivity of the module due to simple and quick assembly.

Description

Battery Case {BATTERY CASE}

The present invention relates to a battery case, and more particularly, to a battery case in which a plurality of sub-battery modules formed by wrapping a battery cell in a pouch-shaped case are stacked and arranged in parallel, And a first side housing and a second side housing coupled to both side surfaces of the sub battery module by being hinged to both side ends of the lower housing to rotate, To a battery case that can reduce the number of additional components required to reduce cost and weight, and can improve assembly and productivity of the module due to simple and quick assembly.

2. Description of the Related Art Unlike a primary battery, a secondary battery capable of charging and discharging is under active research due to development of advanced fields such as a digital camera, a cellular phone, a notebook computer, and a hybrid vehicle. Examples of the secondary battery include a nickel-cadmium battery, a nickel-metal hydride battery, a nickel-hydrogen battery, and a lithium secondary battery.

Among them, the lithium secondary battery has a working voltage of 3.6 V or more and is used as a power source for portable electronic devices, or a series of several batteries are used in a high-output hybrid vehicle. In a nickel-cadmium battery or a nickel-metal hydride battery The operating voltage is three times higher and the energy density per unit weight is also excellent. Thus, the use thereof is rapidly increasing.

The lithium secondary battery can be manufactured in various forms. Typical examples of the lithium secondary battery include a cylinder type and a prismatic type, which are mainly used in a lithium ion battery. In recent years, a lithium polymer battery has been manufactured in a pouch type having flexibility and its shape is relatively free. In addition, the lithium polymer battery is excellent in safety and light in weight, which is advantageous for slimmer and lighter weight of portable electronic devices.

A patent for such a pouch type secondary battery is known from Korean Patent No. 10-0472504.

1 is a view showing the structure of a conventional pouch type lithium secondary battery 10 in which a conventional pouch type lithium secondary battery 10 has a battery unit 2 and a space in which the battery unit 2 is accommodated And a case (3) for providing the liquid.

On the other hand, when a high output lithium battery such as a hybrid automobile is required, several tens to several hundred pouches shown in FIG. 1 are stacked and connected in series or parallel to obtain a high voltage.

As described above, when a middle- or large-sized battery module is constructed using a plurality of pouch-type lithium secondary batteries, a large number of members are generally required for mechanical fastening and electrical connection thereof. Therefore, Do. Furthermore, a space is required for the joining of a plurality of members for mechanical fastening and electrical connection, welding, soldering, and the like, thereby increasing the overall size of the system. This increase in size is undesirable in terms of the space limitations of the device or device in which the middle- or large-sized battery module is mounted.

Therefore, in order to be efficiently installed in a limited internal space such as a vehicle, a plurality of pouch type lithium secondary batteries can be laminated more stably and stably, and a middle- or large-sized battery case with a more compact structure is required.

To solve such a problem, a development of a middle-sized battery case with a more compact structure has been developed. The middle- or large-sized battery module of Korean Patent No. 10-0948002 shows a more compact structure.

However, when defects occur in some of the pouch-type lithium secondary cells constituting the middle- or large-sized battery module, a lot of time and processes are required in the disassembling and assembling process for replacing them. Therefore, There is a high need for cases.

Korean Registered Patent No. 10-0472504 (Registered: Feb., 2005, entitled: Pouch-type secondary battery with improved reinforcement structure) Korean Registered Patent No. 10-0948002 (Registered Date: March 10, 2010, name: middle & large battery module)

SUMMARY OF THE INVENTION The present invention is conceived to solve the above-mentioned problems, and it is an object of the present invention to provide a battery pack having a lower housing in which a lower side opposite to a portion where the electrode tab of the sub- The first side housing and the second side housing coupled to both side surfaces of the sub-battery module by being hinged to both side ends of the sub-battery module, thereby reducing the number of additional components required for assembly, And a battery case capable of improving the assembly and productivity of the module due to the simple and quick assembly.

 The battery case of the present invention includes at least one plate-shaped battery cell; An electrode tab extending from each battery cell in one direction; And a pouch type case (23) formed of an aluminum laminate sheet to cover the surfaces of the battery cell (21) other than the surface on which the electrode tab (22) is provided. Wherein at least two or more of the sub-battery modules (20) are formed in the same plane as the electrode tabs (22) A lower housing on which a lower surface opposite to the formed portion is seated; A first side housing and a second side housing coupled to both sides of the sub battery module in the longitudinal direction; And an upper housing extending vertically at an end of the first side housing or the second side housing and coupled to an upper side of the sub battery module by rotation of the first side housing or the second side housing, The upper housing includes a first upper housing extending vertically at an end of the first side housing; And a second upper housing extending vertically at an end of the second side housing, wherein the first upper housing and the second upper housing are coupled to each other to cover the entire upper surface of the sub-battery module, Each of the first side housing including the first upper housing and the second side housing including the second upper housing are hingedly coupled to both ends of the housing in the lengthwise direction to hinge about the hinge, The case includes a first side housing including the first upper housing and a second side housing including the second upper housing, the first side housing including a first upper housing and a second side housing, And the upper surface and the side surface of the battery module are both opened.

The battery case may have a partition wall formed on at least one inner surface of the lower housing, the first side housing or the second side housing so as to be divided into a plurality of compartments for mounting the sub battery modules, respectively .

In addition, the battery case may include a lower side surface of the sub battery module mounted on the lower housing, and then the first side housing and the second side housing may be rotated to be coupled to both sides of the sub battery module. do.

The upper housing may include a first upper housing extending vertically at an end of the first side housing and a second upper housing extending vertically at an end of the second side housing, And the second upper housing are coupled to each other to cover the entire upper surface of the sub-battery module.

The first upper housing and the second upper housing may be formed so that predetermined regions of the first and second upper housings overlap each other, and each of the first and second upper housings is formed with a fastening portion corresponding to each of the overlapping regions, And the upper housing and the second upper housing are coupled and fixed to each other.

The upper housing is formed to protrude from a side surface of the plurality of sub-battery modules where the electrode tabs are located, and is formed so as to cover a sensing assembly for extracting voltage, current, or resistance signals.

In addition, an air flow portion formed in a predetermined region is formed on an outer side surface of the battery case to allow outside air to flow.

The battery case of the present invention includes a lower housing on which a lower side opposite to a portion where the electrode tabs of the sub battery module are formed is seated, and a lower housing coupled to both side surfaces of the sub battery module by being hinged to both side ends of the lower housing, The first side housing and the second side housing can reduce the number of additional components required for assembly, thereby reducing cost and weight, and can improve assembly and productivity of modules due to simple and quick assembly There are advantages.

The battery case of the present invention is formed so as to surround the outer circumferential surface of the sub-battery module of the pouch-type type enclosed by the case formed of the aluminum laminate sheet, so that the battery case can compensate the rigidity and occupy a minimum space.

Further, since the battery case of the present invention is formed by connecting the upper housing, the first side housing, the second side housing, and the lower housing, as compared with the conventional battery case formed through the coupling of the upper case and the lower case, There is an advantage that it is simple.

In addition, the battery case of the present invention may be configured such that the side surface and the upper surface of the sub battery module are covered only by a simple operation of rotating the first side housing and the second side housing after the sub battery module is mounted on the lower housing There are advantages.

In addition, the battery case of the present invention has an advantage that the pouch type sub battery module can be removed more easily than a conventional battery case when a correction operation or an assembling problem in a production process occurs in the development stage.

1 is a plan view of a conventional pouch type lithium secondary battery.
2 is an exploded perspective view showing a conventional battery case;
3 is a perspective view of a battery pack with a battery case according to the present invention.
4 is a perspective view showing a state before assembly of the battery case according to the present invention.
5 is a perspective view illustrating a state after assembly of the battery case according to the present invention.
6 is an exploded perspective view showing a battery case and a battery module according to the present invention.
7 is a perspective view illustrating a battery case and a battery module according to the present invention.

Hereinafter, a battery case of the present invention having the above-described characteristics will be described in detail with reference to the accompanying drawings.

FIG. 1 is a plan view of a conventional pouch type lithium secondary battery, FIG. 2 is an exploded perspective view showing a conventional battery case, FIG. 3 is a perspective view showing a battery pack equipped with the battery case according to the present invention, FIG. 5 is a perspective view showing a state after assembling the battery case according to the present invention, FIG. 6 is an exploded perspective view showing the battery case and the battery module according to the present invention, FIG. And FIG. 7 is a perspective view illustrating a battery case and a battery module according to the present invention.

The battery case 1 of the present invention includes at least one plate-shaped battery cell 210; An electrode tab 220 extending in one direction from each battery cell 210; And a pouch type case 230 formed of an aluminum laminate sheet to cover the surfaces of the battery cell 210 except the surface on which the electrode tab 220 is formed. The sub-battery modules 200 are formed so that at least two or more of the sub-battery modules 200 have the same surface on which the electrode tabs 220 are formed.

The electrode tabs 220 of the sub-battery module 200 may be welded to the electrode tabs 220 of the adjacent sub-battery modules 200. The electrode tabs 220 of the same sub- The polarity electrode tabs 220 can be coupled to each other.

The sub-battery modules 200 are coupled to each other, and a plurality of the sub-battery modules 200 are stacked and arranged in parallel to form one battery module 100. The battery module 100 is combined with the battery case 1 to form a battery pack do.

4 and 5, the battery case 1 of the present invention includes a lower housing 300, a first side housing 410, a first side housing 420, and an upper housing 500 do.

The lower housing 300 is formed so that a lower side opposite to a portion where the electrode tab 220 of the sub battery module 200 is formed is seated.

The first side housing 410 and the first side housing 420 are hinged to both ends of the lower housing 300 so as to be pivotable about the hinge 310 and rotate to rotate the sub- (200).

The upper housing 500 extends vertically at an end of the first side housing 410 or the first side housing 420 and is pivotally connected to the first side housing 410 or the first side housing 420 And is coupled to the upper side of the sub battery module 200.

7, the battery case 1 according to the present invention is configured such that the lower side of the sub-battery module 200 is fixed to the lower housing 300 and then fixed to the first side housing 410 and / The first side housing 420 may be rotated to be coupled to both sides of the sub-battery module 200.

The battery case 13 of the conventional battery case 10 shown in FIG. 2 is firstly inserted into the lower case 12 in the upward and downward direction and then the upper case 11 is separately inserted It is the way it is combined.

In contrast, the battery case 1 of the present invention has a lower side of the battery module 100 including a plurality of sub-battery modules 200, that is, a side opposite to a side where the electrode tabs 220 are formed, The first side housing 410 and the first side housing 420, which are hinged to both ends of the lower housing to be swing-type, are pivoted by being fixed to the lower housing 300, Can be easily coupled to both sides of the sub-battery module 200 without a separate assembly operation in the longitudinal direction of the module 200. [

The upper housing 500 includes a first upper housing 510 extending vertically from an end of the first side housing 410 and a second upper housing 510 extending vertically from the end of the first side housing 420. [ 2 upper housing 520. The first upper housing 510 and the second upper housing 520 may be coupled to each other to cover the entire upper surface of the sub battery module 200. [

At this time, the first upper housing 510 and the second upper housing 520 are formed such that predetermined regions of the end portions overlap each other, and fastening portions 710 are formed at positions corresponding to the overlapping regions, The coupling means 720 may be assembled to the coupling portion 710 so that the first upper housing 510 and the second upper housing 520 are coupled and fixed to each other.

As shown in FIG. 5, when the coupling means 720 is a bolt, in the overlapping process of the fastening portions 710 formed in the first upper housing 510 and the second upper housing 520, The fastening portion 710 is formed in a cylindrical shape so that the bolt can be inserted and fixed, and a thread may be formed on the inner circumferential surface. In addition, the upper portion of the coupling portion 710 in the overlapping process of the coupling portions 710 formed in the first upper housing 510 and the second upper housing 520 may include a lower coupling portion 710 So that the bolt can be inserted into the hole in a predetermined region.

Accordingly, the coupling means 720, which is a bolt, may be inserted into the coupling portion 710 formed in the first upper housing 510 and the second upper housing 520, and then screwed and fixed.

The coupling means 720 and the fastening portion 710 are not limited to the bolt connection type as described above, and may be modified in various forms.

As described above, the upper housing 500 of the battery case 1 of the present invention is formed to extend vertically at the ends of the first side housing 410 or the first side housing 420, Since the side surface and the upper surface of the sub battery module 200 can be covered at the same time by only the simple operation of rotating the housing 410 or the first side housing 420, the speed of the operation is increased, .

The battery case 1 includes the lower housing 300, the first side housing 410 and the first side housing 420 so as to be divided into a plurality of compartments for mounting the sub battery modules 200, The barrier ribs 610 may be formed on at least one of the inner surfaces of the barrier ribs 610.

When the plurality of sub-battery modules 200 are stacked in parallel to the battery case 1, the gap between the sub-battery modules 200 can be maintained constant, So that they can be arranged parallel to each other without inclinations to either side.

The partition 610 may be formed on the lower housing 300, the first side housing 410 and the first side housing 420, or may be formed on one or both of the inner side surfaces of the first and second side housings 420 and 420 .

The battery case 1 of the present invention is hollowed in a predetermined region so that external air can flow to the outer surface of the battery case 1 in order to enhance the heat radiation effect of the sub- It is preferable that an air flow portion 900 is formed.

5, the air flow unit 900 may be formed in the first side housing 410 or the first side housing 420, and may be formed in a plurality of spaces spaced apart from each other by a predetermined distance in the width direction, The present invention is not limited to a specific shape.

Particularly, it is preferable that the air flow portion 900 is formed in a space between the partition portions 610, through which the air from the outside flows into the spaces between the partition portions 610, And may be directly introduced into the battery module 200.

6, the battery module 100, which is formed by stacking a plurality of the sub-battery modules 200 in parallel, is disposed in a space between the electrode tabs 220 formed of a cathode or an anode, A sensing assembly 800 connected to the electrode tab 220 of the sensor assembly 210 to extract a voltage, current, or resistance signal is protruded from the upper housing 210. The upper housing may be formed to correspond to the sensing assembly 800 .

Accordingly, the battery case of the present invention has the advantage that the number of additional components required for assembly can be reduced, cost and weight can be reduced, and assembly and productivity of the module can be improved due to simple and quick assembly.

The battery case of the present invention is formed so as to surround the outer circumferential surface of the sub-battery module of the pouch-type type enclosed by the case formed of the aluminum laminate sheet, so that the battery case can compensate the rigidity and occupy a minimum space.

Further, since the battery case of the present invention is formed by connecting the upper housing, the first side housing, the second side housing, and the lower housing, as compared with the conventional battery case formed through the coupling of the upper case and the lower case, There is an advantage that it is simple.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. It goes without saying that various modifications can be made.

1: Battery case
100: Battery module
200: Sub battery module
210: battery cell 220: electrode tab
230: Pouch type case
300: Lower housing
410: first side housing 420: second side housing
500: upper housing
510: first upper housing 520: second upper housing
610:
710: fastening portion 720: engaging means
800: sensing assembly
900: air flow

Claims (7)

At least one plate-shaped battery cell; An electrode tab extending from each battery cell in one direction; And a pouch type case formed of an aluminum laminate sheet surrounding the surfaces of the battery cell other than the surface on which the electrode tabs are formed; Wherein at least two or more of the sub-battery modules are disposed so as to have the same surface on which the electrode tabs are formed,
A lower housing on which a lower surface opposite to a portion where the electrode tab is formed is seated;
A first side housing and a second side housing coupled to both sides of the sub battery module in the longitudinal direction; And
And an upper housing extending vertically from an end of the first side housing or the second side housing and coupled to an upper side of the sub battery module by rotation of the first side housing or the second side housing ,
The upper housing includes a first upper housing extending vertically at an end of the first side housing; And a second upper housing extending vertically at an end of the second side housing,
The first upper housing and the second upper housing are coupled to each other to cover the entire upper surface of the sub-battery module,
The first side housing including the first upper housing and the second side housing including the second upper housing are hingedly coupled to both end portions of the lower housing in the longitudinal direction thereof about the hinge,
The battery case includes a first side housing including the first upper housing and a second side housing including the first upper housing and the second side housing, Wherein both the upper surface and the side surface of the sub-battery module are opened.
The method according to claim 1,
The battery case
A first side housing and a second side housing so that the sub-battery module is divided into a plurality of compartments for mounting the sub-battery modules, respectively.
The method according to claim 1,
The battery case
The lower side surface of the sub battery module is mounted and fixed to the lower housing and then the first side housing and the second side housing are rotated to be coupled to both sides in the longitudinal direction of the sub battery module. .
delete The method according to claim 1,
The first and second upper housings
The end regions are formed so as to overlap with each other,
The fastening portions are formed at positions corresponding to each other in the overlapping regions,
And the coupling means is assembled to the coupling portion, so that the first upper housing and the second upper housing are coupled and fixed to each other.
The method according to claim 1,
The upper housing
Wherein the plurality of sub-battery modules are protruded from a side surface on which the electrode tabs of the plurality of sub-battery modules are positioned, and the sensing assembly is formed to cover the sensing assembly for extracting voltage, current, or resistance signals.
The method according to claim 1,
On the outer surface of the battery case
And an air flow portion formed to be hollow and formed in a predetermined region to flow outside air is formed.

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