The present disclosure relates to a battery module having a housing and a stack of battery cells disposed in a receptacle area of the housing, where each battery cell has a top having a battery cell terminal and a bottom, where the top of the battery cells face outwardly away from the receptacle are
The present disclosure relates to a battery module having a housing and a stack of battery cells disposed in a receptacle area of the housing, where each battery cell has a top having a battery cell terminal and a bottom, where the top of the battery cells face outwardly away from the receptacle area. The battery module includes an integrated sensing and bus bar subassembly positioned against the stack of battery cells and has a carrier, a bus bar integrated onto the carrier, and a biasing member integrated onto the carrier. The bus bar electrically couples battery cells in an electrical arrangement, and the biasing member is between the top of each battery cell and the carrier, where the biasing member has a first material, more compliant than a second material of the carrier, and the biasing member biases the stack of battery cells inwardly toward the housing.
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1. A battery module, comprising: a housing;a stack of battery cells disposed in a receptacle area of the housing, each battery cell of the stack of battery cells having a top comprising a battery cell terminal and a bottom opposite the top, wherein the stack of battery cells is positioned such that
1. A battery module, comprising: a housing;a stack of battery cells disposed in a receptacle area of the housing, each battery cell of the stack of battery cells having a top comprising a battery cell terminal and a bottom opposite the top, wherein the stack of battery cells is positioned such that the top of each battery cell faces outwardly away from the receptacle area; andan integrated sensing and bus bar subassembly positioned against the stack of battery cells, wherein the integrated sensing and bus bar subassembly comprises a carrier, a bus bar integrated onto the carrier, and a biasing member integrated onto the carrier;wherein the bus bar is configured to electrically couple battery cells of the stack of battery cells in an electrical arrangement; andwherein the biasing member is positioned directly between the top of each battery cell of the stack of battery cells and the carrier, wherein the biasing member comprises a first material that is more compliant than a second material of the carrier, wherein the biasing member biases the stack of battery cells inwardly toward the housing, wherein the biasing member is integrated onto the carrier via a friction fit created by a projection of the carrier positioned within a corresponding recess of the biasing member, and wherein the recess of the biasing member comprises an indentation configured to conform around the projection of the carrier to contact opposing surfaces of the projection. 2. The battery module of claim 1, wherein the projection comprises a cutout configured to accommodate a battery cell sleeve disposed about one battery cell of the stack of battery cells. 3. The battery module of claim 2, wherein the cutout comprises a depth and a width corresponding to an increased height and an increased width of the battery cell caused by the battery cell sleeve. 4. The battery module of claim 2, wherein the stack of battery cells comprises a first battery cell, a second battery cell having the battery cell sleeve, and a third battery cell, the second battery cell is positioned between the first battery cell and the third battery cell, and the cutout is in a position on the projection corresponding to the second battery cell. 5. The battery module of claim 1, wherein the projection comprises a lip configured to secure the biasing member on the projection. 6. The battery module of claim 1, wherein the biasing member is integrated onto the carrier via an adhesive. 7. The battery module of claim 1, comprising a thermal transfer layer disposed between an interior surface of the housing and the bottoms of the battery cells of the stack of battery cells, wherein the thermal transfer layer is configured to facilitate thermal transfer from the stack of battery cells to a thermal management feature disposed on an exterior surface of the housing, and the thermal transfer layer comprises a compliant material. 8. The battery module of claim 7, wherein the thermal management feature comprises a heat sink, a heat fin, or another device configured to receive thermal energy. 9. The battery module of claim 1, comprising an additional biasing member, wherein the biasing member and the additional biasing member are configured to abut the top of each battery cell such that a vent of each battery cell is positioned between the biasing member and the additional biasing member. 10. The battery module of claim 1, wherein the biasing member comprises a Shore A Hardness value of between 40 and 60. 11. The battery module of claim 1, wherein the biasing member comprises an elastomer, a polyolefin, a mixture of an elastomer and another polymer, a polyester, or any combination thereof. 12. The battery module of claim 11, wherein the biasing member further comprises a filler material configured to provide structural reinforcement. 13. The battery module of claim 1, wherein the battery module does not comprise an actuatable compression mechanism. 14. The battery module of claim 1, wherein a width of the recess of the biasing member is less than a thickness of the projection. 15. The battery module of claim 1, wherein the biasing member directly contacts the top of each battery cell of the stack of battery cells and the carrier.
Chino Shinji,JPX ; Satoh Nobuyuki,JPX ; Matsukawa Koji,JPX ; Okada Akihiko,JPX, Battery jar material for sealed secondary battery and battery jar for sealed secondary battery using the same.
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