KR20130008136A - Battery case - Google Patents

Abstract

The present invention relates to a battery case, and more particularly, a battery case in which a plurality of sub battery modules formed by stacking battery cells wrapped in a pouch type case and arranged side by side is formed with the electrode tab of the sub battery module. A lower housing on which the opposite lower side is seated, and a first side housing and a second side housing coupled to both sides of the sub-battery module by being hinged to and rotated at both ends of the lower housing. The cost and weight can be reduced by reducing the number of additional parts required, and the battery case can be improved by assembling and increasing productivity due to simple and quick assembly.

Description

Battery case {BATTERY CASE}

The present invention relates to a battery case, and more particularly, a battery case in which a plurality of sub battery modules formed by stacking battery cells wrapped in a pouch type case and arranged side by side is formed with the electrode tab of the sub battery module. A lower housing on which the opposite lower side is seated, and a first side housing and a second side housing coupled to both sides of the sub-battery module by being hinged to and rotated at both ends of the lower housing. The cost and weight can be reduced by reducing the number of additional parts required, and the battery case can be improved by assembling and increasing productivity due to simple and quick assembly.

In general, unlike primary batteries, rechargeable batteries that are capable of charging and discharging are being actively researched due to the development of high-tech fields such as digital cameras, cellular phones, notebook computers, and hybrid automobiles. Examples of secondary batteries include nickel-cadmium batteries, nickel-metal hydride batteries, nickel-hydrogen batteries, and lithium secondary batteries.

Among these, lithium secondary batteries are used as power sources for portable electronic devices with an operating voltage of 3.6 V or more, or used in high-power hybrid vehicles by connecting several in series, and used in nickel-cadmium batteries or nickel-metal hydride batteries. Compared with the three times higher operating voltage and excellent energy density per unit weight, the use is increasing rapidly.

The lithium secondary battery may be manufactured in various forms, and typical shapes include cylindrical and prismatic types that are mainly used in lithium ion batteries. Lithium polymer batteries, which are in the spotlight in recent years, have been manufactured in a flexible pouched type, and their shapes are relatively free. In addition, the lithium polymer battery has excellent safety and light weight, which is advantageous for slimmer and lighter portable electronic devices.

Patents for such pouch-type secondary batteries can be known with reference to Korea Patent Registration No. 10-0472504.

1 is a view showing the structure of a conventional pouch-type lithium secondary battery 10, the conventional pouch-type lithium secondary battery 10 is a battery unit 2, the space in which the battery unit 2 is accommodated It includes a case (3) to provide.

On the other hand, when a high power lithium battery such as a hybrid vehicle is required, a plurality of pouches shown in FIG.

As described above, in the case of constructing a medium-large battery module using a large number of pouch-type lithium secondary batteries, the process of assembling these members is very complicated because many members are generally required for their mechanical fastening and electrical connection. Do. Moreover, space is required for joining, welding, soldering, etc. a plurality of members for mechanical fastening and electrical connection, thereby increasing the size of the entire system. This increase in size is undesirable in view of the space limitations of the device or device on which the medium to large battery module is mounted.

Therefore, in order to be efficiently mounted in a limited interior space such as a vehicle, a plurality of pouch-type lithium secondary batteries can be stacked more robustly and stably, and a medium-to-large battery case having a more compact structure is required.

In order to solve such a problem, the development of a medium-large battery case having a more compact structure has been made, and the medium-large battery module of Korean Patent No. 10-0948002 shows a more compact structure.

However, when some of the pouch-type lithium secondary batteries constituting the medium-large battery module are defective, a battery is easy to assemble and disassemble with a simple structure because many times and processes are required during disassembly and assembly to replace them. There is a high need for a case.

Domestic Patent No. 10-0472504 (Registration Date: 2005.02.07, Name: Pouch type secondary battery with improved reinforcement structure) Domestic Patent No. 10-0948002 (Registration Date: 2010.03.10, Name: Medium and large battery module)

The present invention has been made in view of the above-described problems, an object of the present invention is a battery case is a lower housing which is mounted on the lower side opposite to the portion where the electrode tab of the sub battery module is formed, and the lower housing The first side housing and the second side housing are coupled to both ends of the sub-battery module by hinges coupled to both end portions of the sub battery module, thereby reducing the number of additional parts required for assembly, thereby reducing cost and weight. And, it is related to a battery case that can improve the assembly and productivity of the module due to simple and quick assembly.

 The battery case of the present invention comprises at least one plate-shaped battery cell; An electrode tab extending from one battery cell in one direction; And a pouch-shaped case 23 formed of an aluminum laminate sheet surrounding the surfaces of the battery cell 21 except for the surface with the electrode tab 22. In the battery case 10 in which at least two or more sub-battery modules 20 including the electrode tabs 22 are stacked and arranged side by side such that the surfaces of the electrode tabs 22 are the same, the electrode tabs of the sub-battery modules may be A lower housing in which a lower side opposite to the portion to be formed is seated; First and second side housings which are hinged to both end portions in the longitudinal direction of the lower housing and are rotatable about the hinge, and are rotatably coupled to both sides in the longitudinal direction of the sub battery module; And an upper housing formed vertically at an end of the first side housing or the second side housing and coupled to the upper side of the sub battery module by the rotation of the first side housing or the second side housing. And the second electrode is formed.

In addition, the battery case is characterized in that the partition is formed on at least one inner surface selected from the lower housing, the first side housing or the second side housing to be divided into a plurality of compartments for each of the sub-battery module is mounted. It is done.

In addition, the battery case is characterized in that the lower side of the sub battery module is mounted and fixed to the lower housing, the first side housing and the second side housing is rotated and coupled to both sides of the sub battery module. do.

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

In addition, the first upper housing and the second upper housing are formed so that end portions of the upper region overlap each other, and fastening portions are formed at positions corresponding to each other of the overlapping regions. The upper housing and the second upper housing is characterized in that the coupling is fixed to each other.

In addition, the upper housing may be formed to protrude on a side surface on which the electrode tabs of the plurality of sub battery modules are positioned, and may be formed to cover a sensing assembly that extracts a voltage, current, or resistance signal.

In addition, the outer surface of the battery case is characterized in that the air flow is formed to be hollow in a predetermined area so that the outside air flows.

The battery case of the present invention is coupled to both sides of the sub-battery module by pivoting a lower housing on which a lower side opposite to a portion where the electrode tab of the sub-battery module is formed and hinged to both end portions of the lower housing. Since the first side housing and the second side housing are formed, the number of additional parts required for assembly can be reduced, and the cost and weight can be reduced, and the assembly and productivity of the module can be improved due to simple and quick assembly. There is an advantage.

In addition, the battery case of the present invention is formed so as to surround the outer peripheral surface of the pouch-type sub-battery module wrapped with a case formed of an aluminum laminate sheet, there is an advantage that can occupy a minimum space while compensating for rigidity.

In addition, the battery case of the present invention, compared to the conventional battery case formed through the combination of the upper case and the lower case, the upper housing, the first side housing, the second side housing, the lower housing is formed by connecting all the management, It has the advantage of simplicity.

In addition, the battery case of the present invention may be such that the side and the upper surface of the sub battery module is covered by a simple operation of mounting the sub battery module in the lower housing and then rotating the first side housing and the second side housing. There is an advantage.

In addition, the battery case of the present invention has the advantage that the pouch-type sub-battery module can be easily removed in comparison with a conventional battery case when a modification or development problem occurs during the production stage.

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

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

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

The battery case 1 of the present invention is at least one plate-shaped battery cell 210; Electrode tabs 220 extending in one direction from each battery cell 210; And a pouch-shaped case 230 formed of an aluminum laminate sheet surrounding the surfaces of the battery cell 210 except for the surface of the electrode tab 220. The sub-battery module 200 including the at least two electrode batteries 220 is formed to be stacked side by side so as to have the same surface with the electrode tab 220.

In this case, the electrode tab 220 of the sub battery module 200 may be welded to and coupled to the electrode tab 220 of the neighboring sub battery module 200, and the electrode tab 220 having the same polarity or different from each other. Polarity electrode tabs 220 may be coupled to each other.

The sub-battery modules 200 are coupled to each other to be stacked side by side to form one battery module 100, the battery module 100 is coupled to the battery case 1 to form a battery pack do.

As shown in FIG. 4 and FIG. 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 such 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 end portions of the lower housing 300 so as to be rotatable about the hinge 310, and rotate to rotate the sub battery module. It is coupled to both sides of the (200).

The upper housing 500 extends vertically from an end of the first side housing 410 or the first side housing 420, and is rotated by the first side housing 410 or the first side housing 420. It is coupled to the upper side of the sub battery module 200 by.

As shown in FIG. 7, in the battery case 1 of the present invention, a lower side of the sub battery module 200 is mounted and fixed to the lower housing 300, and then the first side housing 410 and The first side housing 420 may be rotated to be coupled to both side surfaces of the sub battery module 200.

In the conventional battery case 10 illustrated in FIG. 2, a battery module 13 including a plurality of sub-battery modules is first inserted into the lower case 12 in an up and down direction, and then the upper case 11 is separately provided. 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 the side on which the electrode tab 220 is formed. Seated and fixed to the lower housing 300, the first side housing 410 and the first side housing 420, which are hinged to both ends of the lower housing and formed in a swing type, are rotated, so that the sub battery The module 200 may be easily coupled to both side surfaces of the sub battery module 200 without a separate assembly work.

Meanwhile, the upper housing 500 may include a first upper housing 510 extending vertically from an end of the first side housing 410 and a vertical extension extending from an end of the first side housing 420. It may be configured as a two 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 side of the sub-battery module 200.

In this case, the first upper housing 510 and the second upper housing 520 are formed such that end portions of the upper and lower housings 520 overlap each other, and fastening portions 710 are respectively formed at positions corresponding to each other in the overlapping regions. Coupling means 720 is assembled to the fastening portion 710 may be formed so that the first upper housing 510 and the second upper housing 520 is coupled to each other.

As illustrated in FIG. 5, when the coupling unit 720 is a bolt, the coupling unit 720 may be formed in the first upper housing 510 and the second upper housing 520. The fastening part 710 positioned at is formed in a cylindrical shape so that the bolt can be inserted and fixed, and a thread can be formed on the inner circumferential surface thereof. In addition, among the fastening parts 710 formed in the first upper housing 510 and the second upper housing 520, the fastening part 710 positioned upward is a fastening part 710 positioned below. It may be formed in the shape of a hole is hollow in a predetermined area so that the bolt can penetrate at a position corresponding to the).

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

The coupling means 720 and the fastening part 710 is not limited to the bolt coupling form as described above, it can be changed to any number of forms.

As described above, the upper housing 500 of the battery case 1 of the present invention extends vertically from an end of the first side housing 410 or the first side housing 420, thereby providing the first side surface. Since only the simple operation of rotating the housing 410 or the first side housing 420 can be made to cover the side and the top surface of the sub-battery module 200 at the same time, the work speed is increased and the assembly performance can be greatly improved. Can be.

On the other hand, the battery case 1 is divided into a plurality of compartments for each of the sub-battery module 200, the lower housing 300, the first side housing 410 and the first side housing 420 The partition wall portion 610 may be formed on at least one inner surface selected from among them.

When the plurality of sub battery modules 200 are stacked side by side on the battery case 1, the partition 610 may maintain a constant gap between the sub battery modules 200 to provide a heat dissipation effect. So that they can be placed parallel to each other without tilting to either side.

The partition 610 may be formed on all of the lower housing 300, the first side housing 410, and the first side housing 420, and may be formed on any one or two inner surfaces thereof. .

In addition, the battery case 1 of the present invention is hollowed in a predetermined area so that external air can flow to the outer surface of the battery case 1 in order to increase the heat dissipation effect of the sub-battery module 200 which is mounted inside and packaged. It is preferable that the air flow unit 900 is formed.

As illustrated in FIG. 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 spaced distances in a width direction. It is not limited to a specific shape in.

In particular, the air flow unit 900 is preferably formed in the space between the partition wall portion 610, through which the air from the outside is mounted in the space between the partition wall portion 610 through the flow portion It may be introduced directly into the battery module 200.

As illustrated in FIG. 6, the battery module 100 formed by stacking the plurality of sub battery modules 200 side by side is positioned in a space between electrode tabs 220 formed of a negative electrode or a positive electrode, and each battery cell ( The sensing assembly 800 is connected to the electrode tab 220 of the 210 to extract a voltage, current, or resistance signal. The upper housing may be formed to correspond to the sensing assembly 800. .

Accordingly, the battery case of the present invention can be reduced in cost and weight by reducing the number of additional parts required for assembly, there is an advantage that the assembly and productivity of the module can be improved due to simple and quick assembly.

In addition, the battery case of the present invention is formed so as to surround the outer peripheral surface of the pouch-type sub-battery module wrapped with a case formed of an aluminum laminate sheet, there is an advantage that can occupy a minimum space while compensating for rigidity.

In addition, the battery case of the present invention, compared to the conventional battery case formed through the combination of the upper case and the lower case, the upper housing, the first side housing, the second side housing, the lower housing is formed by connecting all the management, It has the advantage of simplicity.

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: partition wall
710: fastening portion 720: coupling means
800: sensing assembly
900: air flow

Claims (7)

At least one plate-shaped battery cell; An electrode tab extending from one battery cell in one direction; And a pouch-type case formed of an aluminum laminate sheet surrounding the surfaces of the battery cell except for the electrode tab. In the battery case that is formed to include at least two or more side-by-side stacked so that the same side with the electrode tab is formed in a battery case,
A lower housing in which a lower side opposite to a portion in which the electrode tab of the sub battery module is formed is seated;
First and second side housings which are hinged to both end portions in the longitudinal direction of the lower housing and are rotatable about the hinge, and are rotatably coupled to both sides in the longitudinal direction of the sub battery module; And
An upper housing formed vertically at an end of the first side housing or the second side housing and coupled to the upper side of the sub battery module by the rotation of the first side housing or the second side housing; Battery case characterized in that it is formed, including.
The method of claim 1,
The battery case
And a partition wall formed on at least one inner surface selected from the lower housing, the first side housing, and the second side housing so that each of the sub battery modules is divided into a plurality of compartments for mounting.
The method of claim 1,
The battery case
A lower case 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. .
The method of claim 1,
The upper housing
A first upper housing extending vertically from an end of the first side housing and a second upper housing extending vertically from an end of the second side housing;
And the first upper housing and the second upper housing are coupled to each other to cover the entire upper side of the sub battery module.
5. The method of claim 4,
The first upper housing and the second upper housing
End regions are formed to overlap each other,
Fastening portions are formed at positions corresponding to each other in the overlapping regions,
The coupling means is assembled to the fastening portion, the battery case, characterized in that the first upper housing and the second upper housing is fixed to each other.
5. The method of claim 4,
The upper housing
And a plurality of electrode tabs protruding from the side surfaces of the plurality of sub-battery modules and correspondingly formed to cover a sensing assembly for extracting a voltage, current, or resistance signal.
6. The method according to any one of claims 1 to 6,
On the outer surface of the battery case
Battery module case, characterized in that the air flow is formed in a predetermined area hollow so that the outside air flows.

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