Supporting element for a housing of a vehicle traction battery

What is claimed is: 1. A supporting element for a housing for a vehicle traction battery constructed of a number of power storage modules, the supporting element comprising: a module supporting element and at least one metal plate closing element, wherein the module supporting element has a number of module fastening elements to which the number of power storage modules are fastened such that the number of power storage modules are supported over the closing element, and wherein the module supporting element further has at least one recess which is closed by the plate-shaped closing element such that the number of power storage modules are not supported by the closing element. 2. The supporting element according to claim 1 , wherein the recess is essentially arranged below at least one fastened power storage module. 3. The supporting element according to claim 1 , wherein the number of module fastening elements are arranged such that the fastened power storage modules are arranged in a number of power storage module rows, the recess and the plate-shaped closing element each being constructed such that, with respect to their dimensions, they essentially correspond to an area which is covered by a row of power storage modules. 4. The supporting element according to claim 1 , wherein the number of module fastening elements are arranged such that the fastened power storage modules are arranged in a plurality of power storage module rows, a recess being arranged below each power storage module row. 5. The supporting element according to claim 3 , wherein the number of module fastening elements are arranged such that the fastened power storage modules are arranged in a plurality of power storage module rows, a recess being arranged below each power storage module row. 6. The supporting element according to claim 1 , wherein the module supporting element further has a receiving element encompassing the recess, the receiving element having a bearing area and a receiving area offset with respect to the bearing area, the closing element being glued to the module supporting element by way of an adhesive arranged in the receiving area. 7. The supporting element according to claim 3 , wherein the module supporting element further has a receiving element encompassing the recess, the receiving element having a bearing area and a receiving area offset with respect to the bearing area, the closing element being glued to the module supporting element by way of an adhesive arranged in the receiving area. 8. The supporting element according to claim 4 , wherein the module supporting element further has a receiving element encompassing the recess, the receiving element having a bearing area and a receiving area offset with respect to the bearing area, the closing element being glued to the module supporting element by way of an adhesive arranged in the receiving area. 9. The supporting element according to claim 1 , wherein the bearing area has a number of element fastening holes, by way of which the closing element is screwed to the module supporting element. 10. The supporting element according to claim 4 , wherein the bearing area has a number of element fastening holes, by way of which the closing element is screwed to the module supporting element. 11. The supporting element according to claim 6 , wherein the bearing area has a number of element fastening holes, by way of which the closing element is screwed to the module supporting element. 12. A housing for a vehicle traction battery, wherein the housing has a supporting element according to claim 1 and a covering element. 13. A process of producing a supporting element for a housing for a vehicle traction battery, the vehicle traction battery being constructed of a number of power storage modules, the process comprising the acts of: providing a module supporting element produced by a die casting process, which has a number of module fastening elements and at least one recess; providing at least one plate-shaped closing element that comprises a metal plate; and closing the recess by means of the plate-shaped closing element such that, when the power storage modules are supported over the closing element by the module supporting element, the power storage modules are not supported by the closing element. 14. A process of producing a vehicle traction battery, comprising the acts of: providing a supporting element that is constructed of a module supporting element and at least one plate-shaped closing element, wherein the module supporting element is produced by a die casting process and the plate-shaped closing element is a metal plate, the module supporting element having a number of module fastening elements and at least one recess which is closed by the plate-shaped closing element; providing a number of power storage modules; fastening the power storage modules to the module fastening elements; and connecting the supporting element with a covering element such that, when the power storage modules are supported over the closing element by the module supporting element, the power storage modules are not supported by the closing element.