System for assembling a battery module

What is claimed is: 1. A system for assembling a battery module from a plurality of individual battery cells, the system comprising: a conveyor comprising a plurality of conveyor belts such that a first cell and fin combination defining a first tab orientation is conveyed along a first conveyor belt of the plurality of conveyor belts while a second cell and fin combination defining a second tab orientation is conveyed along a second conveyor belt of the plurality of conveyor belts; a plurality of lifters configured to adjust the orientation of at least one individual battery cell of the plurality of individual battery cells along each of the first and second conveyor belts; at least one cam cooperative with at least one of the first and second conveyor belts and the plurality of lifters such that upon contact between at least one of the plurality of lifters and the at least one cam, the at least one of the plurality of lifters contacts a respective first or second of the cell and fin combinations to effect a change in orientation thereof; at least one stationary guide cooperative with at least one of the first and second conveyor belts to promote an alternating aligned placement of the first and second cell and fin combinations into a stack while the alternatingly aligned first and second cell and fin combinations are in a vertical orientation; a receiving device to receive the stack from the conveyor; a compressing device to compress the stack once the stack has been delivered to the device to receive; a placing device to place a support frame onto the stack while the stack is in its compressed state; and a securing device to secure at least one electrical component to the supported stack. 2. The system of claim 1 , wherein the first and second conveyor belts are arranged parallel to one another. 3. The system of claim 1 , further comprising a stack-rotating device to rotate the stack about its horizontal axis prior to subjecting the stack to the compressing device. 4. The system of claim 1 , wherein spacing between the plurality of lifters along a dimension of the conveyor is such that upon placement of at least one of the first and second cell and fin combinations into the vertical orientation by an adjacent pair of the plurality of lifters, any leaning deviation of the at least one of the first and second cell and fin combination is eliminated at least until the stack is formed on the receiving device. 5. The system of claim 4 , wherein the receiving device defines a box-like structure comprising vertically upstanding members on a plurality of sides and a movable upstanding structure on at least one side such that upon movement of the movable upstanding structure against at least one end of the stack, the stack becomes compressed in the box-like structure. 6. The system of claim 1 , further comprising a mechanical arm configured to index a group of the alternatingly aligned first and second cell and fin combinations into position to capture an end of the group that is remote from the receiving device and pull the group toward the receiving device. 7. The system of claim 6 , wherein motion of the mechanical arm is faster than a travel speed imparted to the group by the conveyor. 8. A system comprising: a first conveyor configured to convey a plurality of first cell and fin combinations in a first tab orientation; a second conveyor configured to convey a plurality of second cell and fin combinations in a second tab orientation; a plurality of lifters cooperatively coupled to the first conveyor and the second conveyor, each of the plurality of lifters configured to adjust an orientation of a respective one of the plurality of first cell and fin combinations and the plurality of second cell and fin combinations; at least one cam cooperative with the first conveyor and the plurality of lifters such that each of the plurality of lifters contacts a respective one of the plurality of first cell and fin combinations to effect a change in orientation to a vertical orientation upon contact between the respective lifter and the at least one cam; at least one guide cooperative with a respective one of the first conveyor and the second conveyor to promote an alternating aligned placement of the plurality of first cell and fin combinations and the plurality of second cell and fin combinations into a stack while the plurality of first cell and fin combinations and the plurality of second cell and fin combinations are in the vertical orientation, the guide being stationary relative to the respective one of the first conveyor and the second conveyor; an outfeed carrier configured to receive the stack from the conveyor; a movable holding tool configured to assist in compression of the stack after the stack is disposed within the outfeed carrier; a support frame configured to be placed onto the stack while the stack is in a compressed state and maintain the compressed state; and at least one electrical component configured to be secured to the support frame and the stack. 9. The system of claim 8 , wherein the stack defines a horizontal axis and is rotated about the horizontal axis prior to entering the compressed state. 10. The system of claim 8 , wherein spacing between the plurality of lifters along a dimension of the conveyor is such that upon placement of at least one of the first and second cell and fin combinations into the vertical orientation by an adjacent pair of the plurality of lifters, any leaning deviation of the at least one of the first and second cell and fin combination is eliminated at least until the stack is formed on the outfeed carrier. 11. The system of claim 8 , further comprising a mechanical arm configured to index a group of the alternatingly aligned first and second cell and fin combinations into position to capture an end of the group that is remote from the outfeed carrier and pull the group toward the outfeed carrier. 12. The system of claim 11 , wherein motion of the mechanical arm is faster than a travel speed imparted to the group by the conveyor.