Battery cell assembly support structure

What is claimed is: 1. A support structure for a battery cell assembly, comprising: a thermal exchange plate; and a plurality of support fins, a first and a second fin within the plurality of support fins providing a cavity to receive at least one battery cell assembly that is press-fit between the first and second fins, the plurality of support fins extending directly from the thermal exchange plate, wherein the cavity has a height and the at least one battery cell has a height that is the same as the cavity height. 2. The battery cell support structure of claim 1 , further comprising a plurality of coolant fins extending in a direction from a side of the thermal exchange plate, wherein the plurality of support fins extend from an opposite side of the thermal exchange plate, the plurality of support fins and the thermal exchange plate providing a plurality of fluid channels that open in the direction. 3. The battery cell support structure of claim 2 , wherein the thermal exchange plate provides a conduit configured to communicate a coolant. 4. A method of supporting a battery cell assemblies within a battery pack, comprising: positioning at least one battery cell assembly within a cavity provided by a plurality of support fins extending directly from a thermal exchange plate; and press-fitting the at least one battery cell assembly into the cavity during the positioning, wherein the cavity has a height and the at least one battery cell has a battery cell height that corresponds to the cavity height. 5. The method of claim 4 , wherein the cavity has a first width, and the at least one battery cell assembly has a second width greater than the first width prior to the positioning. 6. The battery cell support structure of claim 1 comprising a conductive paste or thermal grease that facilitates insertion of the at least one battery cell assembly into the cavity. 7. The battery cell support structure of claim 1 , wherein the first and second fins each have a thickness that is nominally constant from the thermal exchange plate to a tip portion of the respective fin. 8. The battery cell support structure of claim 1 , further comprising a compression band that compresses the first and second fins axially against the at least one battery cell assembly, wherein the first and second fins are compressed axially against opposing axially facing sides of the at least one battery cell, and opposing laterally facing sides of the at least one battery cell are uncompressed, wherein the compression band circumferentially surrounds the plurality of support fins. 9. The method of claim 4 , further comprising facilitating the press-fitting of the at least one battery cell into the cavity using a conductive paste or thermal grease. 10. The method of claim 4 , wherein each of the plurality of support fins has a thickness that is constant from the thermal exchange plate to a tip portion of the respective support fin. 11. The method of claim 4 , further comprising press-fitting by compressing the at least one battery cell axially without compressing laterally facing sides of the at least one battery cell. 12. The battery cell support structure of claim 1 , wherein, when the battery cell is press-fit between the first and second fins, the first and second fin each extend from the thermal exchange plate to a position that is aligned with a surface of the at least one battery cell assembly, wherein terminals of the at least one battery cell assembly extend through the surface. 13. The battery cell support structure of claim 1 , wherein the cavity has a first width, and the at least one battery cell assembly has a second width greater than the first width prior to the at least one battery cell assembly being press-fit between the first and second fins. 14. The battery cell support structure of claim 2 , wherein axial positions of the coolant fins are axially aligned with axial positions of the support fins. 15. The method of claim 4 , wherein the cavity height and the battery cell height are in a direction D, wherein the plurality of support fins extend directly from the thermal exchange plate in the direction D. 16. A battery array assembly, comprising: a plurality of battery cells disposed along an axis; a thermal exchange plate; and a plurality of support fins, each of the support fins axially spaced from the other support fins to provide a plurality of cavities, at least one of the plurality of battery cells press-fit within each of the cavities, the support fins extending directly from thermal exchange plate in a direction D plate at least as far as a surface of the at least one of the plurality of battery cells, the plurality of battery cells each including at least one terminal extending through the surface in the direction D. 17. The battery array assembly of claim 16 , wherein the support fins extend from a first side of the thermal exchange plate in the direction D, wherein a height of the plurality of cavities in the direction D corresponds to a height of the plurality of battery cells in the direction D. 18. The battery array assembly of claim 17 , further comprising a plurality of coolant fins extending from an opposite second side of the thermal exchange plate, the plurality of support fins and the thermal exchange plate providing a plurality of fluid channels, wherein axial positions of the coolant fins are axially aligned with axial positions of the support fins.