BATTERY PACK
A battery module includes a first end plate and a second end plate, each of the end plates including at least one flange; a plurality of battery units arranged along a first direction between the end plates; a first guide plate on a first side of the plurality of battery units, extending in the first direction and coupled to the flanges of the first and second end plates; and a second guide plate on a second side of the plurality of battery units opposite the first side, extending in the first direction and coupled to the flanges of the first and second end plates.
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This application is a divisional of U.S. patent application Ser. No. 12/814,372, filed on Jun. 11, 2010, which claims priority to and the benefit of U.S. Provisional Application No. 61/258,558, filed on Nov. 5, 2009, in the United States Patent and Trademark Office, the entire content of each of which is incorporated herein by reference.
BACKGROUND1. Field
One or more embodiments of the present invention relate to a battery pack in which a plurality of stacked battery modules are connected to each other.
2. Description of the Related Art
In general, unlike primary batteries that are not intended to be rechargeable, secondary batteries are rechargeable and dischargeable. Secondary batteries are used as energy sources for mobile devices, electric vehicles, hybrid electric vehicles, electric bicycles, uninterruptible power supplies, etc.
Small devices, such as the mobile devices, use a small number of battery cells. On the other hand, medium or large devices, such as electric vehicles and hybrid electric vehicles, require high power and large capacity, and thus use a battery pack in which a plurality of battery cells are electrically connected to each other.
A plurality of battery cells are generally connected in series or in parallel so as to be included in a battery unit. A plurality of battery units are connected to form a battery module. A plurality of battery modules are connected to form a battery pack in order to provide higher power and larger capacity.
SUMMARY OF THE INVENTIONAn aspect of an embodiment of the present invention is directed toward a battery pack formed of a plurality of stacked battery modules connected to each other.
An embodiment of the present invention provides a battery module including a first end plate and a second end plate, each of the end plates including at least one flange; a plurality of battery units arranged along a first direction between the end plates; a first guide plate on a first side of the plurality of battery units, extending in the first direction and coupled to the flanges of the first and second end plates; and a second guide plate on a second side of the plurality of battery units opposite the first side, extending in the first direction and coupled to the flanges of the first and second end plates.
A distance between the first and second guide plates in a second direction perpendicular to the first direction may be greater than or equal to a width in the second direction of the end plates.
The battery module may further include: a first reinforcement plate on a third side of the plurality of battery units, extending in the first direction and coupled to the first and second end plates; and a second reinforcement plate on a fourth side of the plurality of battery units opposite the third side, extending in the first direction and coupled to the first and second end plates.
The first reinforcement plate may include a first contact plate on the third side of the plurality of battery units and first bent portions on each side of the first contact plate extending away from the plurality of battery units, and the second reinforcement plate may include a second contact plate on the fourth side of the plurality of battery units and second bent portions on each side of the second contact plate extending away from the plurality of battery units.
Each of the end plates may further include a base plate adjacent to the plurality of battery units, wherein the at least one flange may include: first and second flanges extending respectively from the first and second sides of the base plate away from the plurality of battery units; a third flange extending from a third side of the base plate away from the plurality of battery units; and a fourth flange extending from a fourth side of the base plate away from the plurality of battery units, the fourth side being opposite to the third side.
Each of the flanges may have openings.
The battery module may further include: a first reinforcement plate on a third side of the plurality of battery units extending in the first direction and coupled to the first and second end plates; and a second reinforcement plate on a fourth side of the plurality of battery units opposite the third side, extending in the first direction and coupled to the first and second end plates, wherein the first reinforcement plate attaches to the third flange and the second reinforcement plate attaches to the fourth flange.
The battery module may further include a first insulation plate between the first reinforcement plate and the third side of the plurality of battery units; and a second insulation plate between the second reinforcement plate and the fourth side of the plurality of battery units.
The third flange may include a low portion having a lower height than other portions of the third side of the base plate, and wherein the low portion receives the first reinforcement plate.
The first and second guide plates may have openings.
Another embodiment of the present invention provides a battery pack including a plurality of battery modules, each of the plurality of battery modules including: a first end plate and a second end plate, each of the end plates including at least one flange; a plurality of battery units arranged along a first direction between the end plates; a first guide plate on a first side of the plurality of battery units, extending in the first direction and coupled to the flanges of the first and second end plates; and a second guide plate on a second side of the plurality of battery units opposite the first side, extending in the first direction and coupled to the flanges of the first and second end plates.
The plurality of battery modules may be adjacent one another in at least one of the second direction or a third direction perpendicular to the first and second directions.
Each of the plurality of battery modules may further include: a first reinforcement plate on a third side of the plurality of battery units, extending in the first direction and coupled to the first and second end plates; and a second reinforcement plate on a fourth side of the plurality of battery units opposite to the third side, extending in the first direction and coupled to the first and second end plates.
When the battery modules are adjacent one another in a third direction perpendicular to the first and second directions, the first reinforcement plate of one of the battery modules and the second reinforcement plate of another one of the battery modules may form a gas discharge opening.
The first reinforcement plate may include a first contact plate on the third side of the plurality of battery units and first bent portions on each side of the first contact plate extending away from the plurality of battery units, and the second reinforcement plate may include a second contact plate on the fourth side of the plurality of battery units and second bent portions on each side of the second contact plate extending away from the plurality of battery units.
Each of the end plates may further include a base plate adjacent to the plurality of battery units, wherein the at least one flange may include: first and second flanges extending respectively from the first and second sides of the base plate away from the plurality of battery units; a third flange extending from a third side of the base plate away from the plurality of battery units; and a fourth flange extending from a fourth side of the base plate away from the plurality of battery units, the fourth side being opposite to the third side.
At least a portion of the at least one flange of one of the end plates of one of the battery modules may contact at least a portion of the at least one flange of one of the end plates of an adjacent one of the battery modules in at least one of the second direction or a third direction perpendicular to the first and second directions.
Each of the end plates may have openings, and the first end plates of adjacent ones of the battery modules may be attached to each other with fasteners through respective ones of the openings and the second end plates of adjacent ones of the battery modules may be attached to each other with fasteners through respective ones of the openings.
The flanges of the first end plates of adjacent ones of the battery modules may be welded together and the flanges of the second end plates of adjacent ones of the battery modules may be welded together.
The accompanying drawings, together with the specification, illustrate exemplary embodiments of the present invention, and, together with the description, serve to explain the principles of the present invention.
In the following detailed description, only certain exemplary embodiments of the present invention have been shown and described, simply by way of illustration. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention. Accordingly, the drawings and description are to be regarded as illustrative in nature and not restrictive. Like reference numerals designate like elements throughout the specification.
When a battery pack is assembled by using a plurality of battery modules, the battery modules should be firmly connected to each other so as to achieve a stable structure for the battery pack.
Referring to
Although not shown in
A secondary battery, such as a conventional lithium secondary battery, may be used as a battery cell. For example, the battery cell may be a cylindrical secondary battery, an angular secondary battery, or a polymer secondary battery, and is not limited to any one type of secondary battery. The battery cells are electrically connected by using positive and negative electrode tabs that are, respectively, electrically connected to positive and negative terminals 103 and 104 that protrude from the case 102. For example, the battery cells may be connected in parallel, in series, or in parallel and series, and the connection method of the battery cells is not limited to any one connection method.
The battery units 101 are arranged so that polarities of neighboring battery units 101 are opposite to each other. The positive terminal 103 of one battery unit 101 is connected to the negative terminal 104 of a neighboring battery unit 101 by using a bus bar 105.
As such, the battery units 101 are sequentially connected to form one battery module 100. The number of battery units 101 may be determined by considering charge and discharge capacities required to design the battery module 100.
A pair of end plates 108 are separately mounted at outermost sides of the battery module 100. The end plates 108 include a first end plate 106 mounted at one end of the battery module 100 and a second end plate 107 mounted at the other end of the battery module 100.
One surface of the first end plate 106 and one surface of the second end plate 107 separately contact outer surfaces of the battery units 101 arranged at the outermost sides of the battery module 100.
The first and second end plates 106 and 107 are combined by using guide plates 109. The guide plates 109 extend along side walls of the battery units 101. Each of the guide plates 109 is a strip-type plate of which one end is attached to (e.g., screw-combined with) the first end plate 106 and the other end is attached to (e.g., screw-combined with) the second end plate 107. As such, the battery units 101 are fixed in (e.g., may not be moved from) their sequentially arranged positions in the horizontal direction, unless the battery module 100 is disassembled.
Heat radiating holes 110 are formed in the guide plates 109. The heat radiating holes 110 are arranged at uniform intervals along a length direction of the guide plates 109. The heat radiating holes 110 are formed to rapidly radiate to the outside heat generated from the battery units 101 during operation.
Referring to
The flange unit 112 is bent from edges of the base plate 111 in a direction opposite to the direction in which the battery units 101 are arranged. The flange unit 112 may be bent in various formations, according to a combination method with other elements. For example, the flange unit 112 may have one bent portion from the base plate 111 without a cut at each of left, right, and bottom edges of the base plate 111, and may have a plurality of bent portions having different heights by cutting a portion of the base plate 111 at a top edge of the base plate 111.
Further, a plurality of combination holes 113 are formed in the flange unit 112.
In
Referring to
In this case, the battery modules 100 stacked in the horizontal and vertical directions are connected to each other. As described above in relation to
For example, an upper battery module 120 and a lower battery module 130 arranged under the upper battery module 120 are combined as described below.
An upper end plate 140 is disposed at an outermost end of the upper battery module 120. The upper end plate 140 includes an upper base plate 141 and an upper flange unit 142 bent from edges of the upper base plate 141. A lower end plate 150 is disposed at an outermost end of the lower battery module 130. The lower end plate 150 includes a lower base plate 151 and a lower flange unit 152 bent from edges of the lower base plate 151.
The upper and lower end plates 140 and 150 are disposed at the same position in the vertical direction. At least a portion of the upper flange unit 142 bent from a bottom edge of the upper base plate 141 contacts the lower flange unit 152 cut and bent from a top edge of the lower base plate 151.
Here, combination holes formed in the upper and lower flange units 142 and 152 are aligned (e.g., matched to each other) and bolts 143 are inserted into the combination holes so as to be screwed into nuts 144.
As such, the upper and lower end plates 140 and 150 are combined with each other. The upper and lower battery modules 120 and 130 supported by the upper and lower end plates 140 and 150 are fixed (e.g., may not be rearranged) unless the battery module 100 is disassembled. In this manner, the battery modules 100 stacked in the horizontal and vertical directions are firmly fixed to each other.
Although a combination method using fasteners such as the bolts 143 and the nuts 144 is described above, the combination method is not limited to any one combination method as long as the upper end plate 140 is attached to (or combined with) the lower end plate 150. For example, a welding combination method may be used instead of or in addition to using the fasteners.
Furthermore, reinforcement plates 401 for structurally reinforcing and supporting the battery modules 100 are further mounted on the battery modules 100. The reinforcement plates 401 include upper and lower reinforcement plates 402 and 403.
Referring to
An upper reinforcement plate 402 is mounted on a top surface of a battery module 100 and a lower reinforcement plate 403 is mounted on a bottom surface of the battery module 100. The upper reinforcement plate 402 includes an upper base plate 404 located on the top surface of the battery module 100 along a length direction of the battery module 100, and upper bent portions 405 bent upward in a vertical direction from two side edges of the upper base plate 404. The lower reinforcement plate 403 includes a lower base plate 406 located on the bottom surface of the battery module 100 along the length direction of the battery module 100, and lower bent portions 407 bent downward in the vertical direction from two side edges of the lower base plate 406.
An end of the upper base plate 404 is firmly fixed to the upper flange unit 112a at the low portion (e.g., the low portion receives the upper base plate 404) by using fasteners, such as a bolt 143 and a nut 144. Also, an end of the lower base plate 406 is combined with the lower flange unit 112b by using fasteners, such as bolts 143 and nuts 144.
As such, the upper and lower reinforcement plates 402 and 403 prevent (or substantially prevent) the battery module 100 from being deformed downward (or reduce the likelihood the battery module 100 will be deformed downward) due to the weight of a plurality of battery units 101.
Furthermore, insulation plates 408 formed of an insulating material, such as polymer resin, may be further mounted on a bottom surface of the upper base plate 404 facing the top surface of the battery module 100 and/or on a top surface of the lower base plate 406 facing the bottom surface of the battery module 100 in order to prevent (or reduce the likelihood of) shorts caused by a drop of the battery units 101 stacked in the vertical direction. The insulation plates 408 are attached on the upper and lower base plates 404 and 406 along length directions of the upper and lower base plates 404 and 406.
Alternatively, if the upper and lower reinforcement plates 402 and 403 are formed of an insulating material having a desired strength instead of a metallic material, due to their own insulation properties, the insulation plates 408 are not additionally required. The insulation method between the battery units 101 and the upper and lower reinforcement plates 402 and 403 is not limited to any one insulation method as long as the battery units 101 are insulated from the upper and lower reinforcement plates 402 and 403.
Referring back to
As such, as illustrated in
As described above, according to the one or more of the above embodiments of the present invention, a battery pack may have one or more features described below.
First, as stacked battery modules are connected to each other by using end plates, the battery modules may be firmly fixed to each other without an additional connection frame.
Second, as the additional connection frame is not required, the weight of a battery pack may be reduced.
Third, the structure of the stacked battery modules may be simplified.
Fourth, as the stacked battery modules have the same connection structure, manufacturing costs may be reduced.
Fifth, as reinforcement plates are mounted between the stacked battery modules, a plurality of battery units may be supported.
Sixth, as the reinforcement plates are mounted, a gas discharge passage may be formed between neighboring battery modules.
While the present invention has been described in connection with certain exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims, and equivalents thereof.
Claims
1. A battery pack comprising a plurality of battery modules, each of the plurality of battery modules comprising:
- a first end plate and a second end plate, each of the end plates comprising at least one flange;
- a plurality of battery units arranged along a first direction between the end plates;
- a first guide plate on a first side of the plurality of battery units, extending in the first direction and coupled to the flanges of the first and second end plates; and
- a second guide plate on a second side of the plurality of battery units opposite the first side, extending in the first direction and coupled to the flanges of the first and second end plates.
2. The battery pack of claim 1, wherein the plurality of battery modules are adjacent one another in at least one of the second direction or a third direction perpendicular to the first and second directions.
3. The battery pack of claim 1, wherein each of the plurality of battery modules further comprises:
- a first reinforcement plate on a third side of the plurality of battery units, extending in the first direction and coupled to the first and second end plates; and
- a second reinforcement plate on a fourth side of the plurality of battery units opposite to the third side, extending in the first direction and coupled to the first and second end plates.
4. The battery pack of claim 3, wherein when the battery modules are adjacent one another in a third direction perpendicular to the first and second directions, the first reinforcement plate of one of the battery modules and the second reinforcement plate of another one of the battery modules form a gas discharge opening.
5. The battery pack of claim 3, wherein the first reinforcement plate comprises a first base plate on the third side of the plurality of battery units and first bent portions on each side of the first base plate extending away from the plurality of battery units, and
- wherein the second reinforcement plate comprises a second base plate on the fourth side of the plurality of battery units and second bent portions on each side of the second base plate extending away from the plurality of battery units.
6. The battery pack of claim 1, wherein each of the end plates further comprises a base plate adjacent to the plurality of battery units, wherein the at least one flange comprises:
- first and second flanges extending respectively from the first and second sides of the base plate away from the plurality of battery units;
- a third flange extending from a third side of the base plate away from the plurality of battery units; and
- a fourth flange extending from a fourth side of the base plate away from the plurality of battery units, the fourth side being opposite to the third side.
7. The battery pack of claim 6, wherein at least a portion of the at least one flange of one of the end plates of one of the battery modules contacts at least a portion of the at least one flange of one of the end plates of an adjacent one of the battery modules in at least one of the second direction or a third direction perpendicular to the first and second directions.
8. The battery pack of claim 1, wherein each of the end plates has openings, and wherein the first end plates of adjacent ones of the battery modules are attached to each other with fasteners through respective ones of the openings and the second end plates of adjacent ones of the battery modules are attached to each other with fasteners through respective ones of the openings.
9. The battery pack of claim 1, wherein the flanges of the first end plates of adjacent ones of the battery modules are welded together and the flanges of the second end plates of adjacent ones of the battery modules are welded together.
Type: Application
Filed: Apr 15, 2014
Publication Date: Aug 14, 2014
Applicants: SAMSUNG SDI CO., LTD. (Yongin-si), ROBERT BOSCH GMBH (Stuttgart)
Inventors: Myung-Chul Kim (Yongin-si), Hyun-Ye Lee (Yongin-si)
Application Number: 14/253,774
International Classification: H01M 2/10 (20060101); H01M 2/12 (20060101);