System and method for roller interconnection of battery cells

The invention claimed is: 1. A battery module, comprising: a power assembly comprising a first battery cell and a second battery cell in a stacked orientation relative to each other, wherein the first battery cell comprises a first tab electrode extending therefrom, and wherein the second battery cell comprises a second tab electrode extending therefrom; and an interconnect assembly configured to facilitate electrically coupling the first tab electrode with the second tab electrode, wherein the interconnect assembly comprises: a roller housing structure about which the first and second tab electrodes at least partially conform such that the first and second tab electrodes are positioned in an opening defined by the roller housing structure; and a roller disposed in the opening of the roller housing structure such that the first and second tab electrodes are secured in electrical communication. 2. The battery module of claim 1 , wherein one or both of the roller housing structure and the roller are electrically conductive. 3. The battery module of claim 1 , wherein the roller is nonconductive and the first and second tab electrodes are in electrical communication via direct contact or via the roller housing structure. 4. The battery module of claim 1 , wherein the opening in the roller housing structure has a substantially semi-circular cross section. 5. The battery module of claim 4 , wherein a diameter of the opening is less than or equal to an outer diameter of the roller configured to be received in the opening. 6. The battery module of claim 1 , wherein the roller comprises a substantially cylindrical bar that is hollow. 7. The battery module of claim 1 , wherein an outer surface of the roller, an inner surface of the opening in the roller housing structure, or both, comprise teeth for gripping the first and second tab electrodes between the roller and the roller housing structure. 8. The battery module of claim 1 , wherein the roller housing structure comprises two separate structures, wherein a separation between the structures defines the opening defined by the roller housing structure. 9. The battery module of claim 1 , wherein the interconnect assembly comprises: a cell interconnect board having a plurality of roller housing structures disposed as rungs coupled between opposite edges of the cell interconnect board; and a plurality of rollers configured to be disposed in respective ones of the plurality of roller housing structures of the cell interconnect board. 10. The battery module of claim 9 , comprising two cell interconnect boards disposed on opposite sides of a stack of battery cells, wherein the two cell interconnect board and the plurality of rollers are configured to couple tab electrodes extending from either end of the battery cells such that the battery cells are electrically coupled in series. 11. A battery cell interconnect assembly for use in a battery module, comprising: a roller housing structure configured to receive a first tab electrode and a second tab electrode in a conforming orientation with respect to the roller housing structure such that the first and second tab electrodes are positioned in an opening defined by the roller housing structure, wherein the first tab electrode extends from a first battery cell of the battery module and the second tab electrode extends from a second battery cell of the battery module; and a roller configured to be disposed in the opening of the roller housing structure to secure the first and second tab electrodes between the roller and the roller housing structure. 12. The battery cell interconnect assembly of claim 11 , wherein the roller is configured to be removed manually from the opening in the roller housing structure. 13. The battery cell interconnect assembly of claim 11 , wherein the roller housing structure is configured to be elastically deformed to receive the roller in the opening. 14. The battery module of claim 11 , wherein one or both of the roller housing structure and the roller are electrically conductive. 15. The battery module of claim 11 , wherein an outer surface of the roller, an inner surface of the roller housing structure, or both, comprise teeth for gripping the first and second tab electrodes between the roller and the roller housing structure. 16. The battery module of claim 11 , wherein the roller housing structure comprises two separate structures, wherein a separation between the structures defines the opening of the roller housing structure. 17. The battery module of claim 16 , wherein each of the two separate structures comprise an interior prong and an exterior prong coupled together, wherein the exterior prongs are configured to receive the first and second tab electrodes in a conformed orientation with respect to the roller housing structure, and wherein the interior prongs define the opening of the roller housing structure. 18. A battery cell interconnect assembly for use in a battery module, comprising: a roller housing structure comprising a first structure and a second structure that are separated from each other to define an opening in the roller housing structure, wherein: the first structure is configured to receive a first tab electrode extending from a first battery cell in a conforming orientation with respect to the first structure such that the first tab electrode is disposed in the opening of the roller housing structure; and the second structure is configured to receive a second tab electrode extending from a second battery cell in a conforming orientation with respect to the second structure such that the second tab electrode is disposed in the opening of the roller housing structure; and a roller configured to be disposed in the opening to facilitate electrically coupling the first and second tab electrodes and to secure the first and second tab electrodes between the roller and the roller housing structure. 19. The battery cell interconnect assembly of claim 18 , wherein the first structure comprises a first interior prong and a first exterior prong, the second structure comprises a second interior prong and a second exterior prong, and the first and second interior prongs define the opening, wherein the roller housing structure is configured to receive the first and second tab electrodes in a conforming orientation about an outer edge of the first and second exterior prongs, respectively. 20. The battery cell interconnect assembly of claim 19 , wherein the first and second interior prongs are curved to define a substantially semi-circular opening. 21. The battery cell interconnect assembly of claim 19 , wherein the first and second interior prongs are configured to be elastically deformed when the roller is disposed in the opening. 22. The battery cell interconnect assembly of claim 19 , comprising: the first tab electrode extending along an exterior surface and an interior surface of the first structure such that a distal end of the first tab electrode terminates in the opening; and the second tab electrode extending along an exterior surface and an interior surface of the second structure such that a distal end of the second tab electrode terminates in the opening.