A lithium ion battery module includes a battery cell stack disposed within a housing of the battery module. The stack includes a first battery cell, a second battery cell positioned adjacent to the first battery cell, and a battery cell separator fitted over the first battery cell. The battery cell
A lithium ion battery module includes a battery cell stack disposed within a housing of the battery module. The stack includes a first battery cell, a second battery cell positioned adjacent to the first battery cell, and a battery cell separator fitted over the first battery cell. The battery cell separator includes a plurality of walls formed from a continuous material and defining a pocket in which the first battery cell is disposed. The plurality of walls is configured to electrically insulate the first cell from the second cell. The separator also includes a projection extending from a wall of the plurality of walls, the projection is positioned between a terminal of the first battery cell and a terminal of the second battery cell and is configured to electrically insulate the terminals from one another.
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1. A battery module, comprising: a battery cell stack disposed within a housing of the battery module; a first battery cell of the battery cell stack comprising a first casing and a first terminal; anda second battery cell of the battery cell stack positioned adjacent to the first battery cell and c
1. A battery module, comprising: a battery cell stack disposed within a housing of the battery module; a first battery cell of the battery cell stack comprising a first casing and a first terminal; anda second battery cell of the battery cell stack positioned adjacent to the first battery cell and comprising a second casing and a second terminal;a battery cell separator fitted over the first battery cell, wherein the battery cell separator comprises a plurality of walls and a projection extending from a wall of the plurality of walls: wherein the plurality of walls is formed from a continuous material and defines a pocket in which the first battery cell is disposed, and the plurality of walls is configured to electrically insulate the first casing from the second casing;wherein the plurality of walls of the battery cell separator comprises a first wall, a second wall, and a third wall connecting the first and second walls, wherein the second wall is disposed opposite to the first wall, wherein the third wall is disposed over a terminal side of the first battery cell, the first terminal extending from the terminal side;wherein the first wall of the battery cell separator is disposed between a face of the first casing of the battery cell and a face of the second casing of the second battery cell and separates the face of the first casing from the face of the second casing; andwherein the projection is positioned between the first and second terminals and is configured to electrically insulate the first terminal from the second terminal. 2. The battery module of claim 1, wherein the projection extends from the first wall and comprises a cutout of the third wall. 3. The battery module of claim 1, wherein the third wall comprises an opening corresponding to a position of a vent disposed on the terminal side of the first casing of the first battery cell. 4. The battery module of claim 1, wherein the battery cell stack comprises a third battery cell disposed adjacent to the first battery cell and comprising a third casing and a third terminal, and wherein the second wall of the battery cell separator is disposed against another face of the first casing of the first battery cell and a face of the third casing of the third battery cell. 5. The battery module of claim 4, wherein the first battery cell comprises a fourth terminal extending from the top of the first casing, wherein the battery cell separator comprises an additional projection extending from the second wall and comprising an additional cutout of the third wall, and the additional projection electrically isolates the fourth terminal from the third terminal. 6. The battery module of claim 5, wherein the projections extending from the first and second walls are disposed at opposite sides of the third wall. 7. The battery module of claim 5, wherein the third terminal is electrically connected to the first terminal, the second battery cell comprises a fifth terminal, and the fourth terminal is electrically connected to the fifth terminal. 8. The battery module of claim 1, wherein the battery cell stack comprises a third battery cell disposed adjacent to the first battery cell such that the first battery cell is disposed between the second and third battery cells, and the battery cell separator has a poka-yoke configuration that causes only one electrical configuration to be allowed when the first, second, and third battery cells are electrically connected to one another using co-planar connectors. 9. The battery module of claim 1, wherein the wall of the plurality of walls and the projection extending from the wall have a first combined length that is greater than a second combined length of the first battery cell, the second combined length being a length as measured from a bottom of the first battery cell and to a tip of a terminal pad of the first terminal. 10. The battery module of claim 9, comprising a bus bar electrically connecting the first terminal of the first battery cell to a terminal of another battery cell, and the first combined length is at least as long as a third combined length corresponding to the second combined length and a thickness of the bus bar. 11. The battery module of claim 1, wherein the first and second casings are metallic prismatic casings, and the battery cell separator is polymeric and is a dielectric relative to the first and second casings. 12. The battery module of claim 1, wherein the battery cell separator comprises an adhesive disposed on the first wall and coupled to a face of the second battery cell. 13. The battery module of claim 1, wherein the plurality of walls of the battery cell separator do not cover a bottom of the first battery cell, and the bottom of the first battery cell is disposed against a thermal transfer medium, the thermal transfer medium being disposed against an interior surface of the battery module, and the bottom is positioned substantially opposite of the terminal side. 14. The battery module of claim 13, wherein the thermal transfer medium comprises a thermally conductive adhesive. 15. The battery module of claim 1, wherein the battery cell separator is coupled to the first casing of the first battery cell with an adhesive. 16. A battery cell separator for a prismatic lithium ion battery cell, the battery cell separator comprising: a continuous structure, comprising: a first wall comprising a first projection;a second wall comprising a second projection, the first and second projections being disposed on opposing sides of the battery cell separator; anda third wall connecting the first and second walls, wherein the first projection comprises a first cutout from the third wall and the second projection comprises a second cutout from the third wall, and the first and second cutouts correspond to first and second openings configured to receive first and second terminals of the prismatic lithium ion battery cell;wherein the first, second, and third walls form a pocket configured to receive the prismatic lithium ion battery cell, and the first and second projections are such that the battery cell separator has a poka-yoke configuration that only allows one direction of planar electrical connection to be made without interference for each of the first and second terminals of the prismatic lithium ion battery cell; andwherein the second wall is disposed opposite to the first wall, wherein the first wall is configured to be disposed between a face of the prismatic lithium ion battery cell and a face of an adjacent prismatic lithium ion battery cell and separate the face of the prismatic lithium ion battery cell from the face of the adjacent prismatic lithium ion battery cell. 17. The battery cell separator of claim 16, wherein the third wall is oriented substantially orthogonal to the first and second walls. 18. The battery cell separator of claim 16, wherein the third wall comprises an opening positioned between the first and second cutouts and corresponding to a position of a vent positioned at a top of the prismatic lithium ion battery cell. 19. The battery cell separator of claim 16, wherein the third wall is dimensioned to correspond to a top of a casing of the prismatic lithium ion battery cell. 20. The battery cell separator of claim 16, wherein a terminus of the first cutout and a terminus of the second cutout correspond to positions of first and second folds, respectively, the first and second folds cause the third wall to be oriented crosswise relative to the first and second walls. 21. The battery cell separator of claim 16, wherein the continuous structure comprises a single sheet of poly(ethylene terephthalate). 22. The battery module of claim 12, wherein the plurality of walls of the battery cell separator does not cover a bottom of the first battery cell, wherein the bottom is disposed opposite to the top of the first battery cell. 23. The battery module of claim 5, wherein a terminus of the cutout of the third wall and a terminus of the additional cutout of the third wall correspond to positions of first and second folds, respectively, the first and second folds cause the third wall to be oriented crosswise relative to the first and second walls.
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이 특허에 인용된 특허 (27)
Lee, Soo-Jung; Hyun, Sang-Min; Kim, Dae-Joung; Kim, Hae-Jin, Battery.
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