Clamping device for battery cells as well as battery module, battery, battery system, vehicle and method for producing a battery module

The invention claimed is: 1. A battery module comprising: a housing having opposed walls; at least two battery cells arranged between the opposed walls of the housing; and a clamping device ( 300 ) for compressing the plurality of battery cells ( 100 ), the entirety of the clamping device being positioned between the opposed walls of the housing; and the clamping device and the at least two battery cells arranged in a row between the opposed walls such that each of the at least two battery cells is compressed between the clamping device and one of the opposed walls, wherein the clamping device comprises a closed receptacle that comprises a space ( 310 ) with a variable volume containing a fluid such that the receptacle compresses the battery cells, and wherein the clamping device comprises a carrier element having an internal cavity that has a constant volume, that has an opening on one side and that forms a first part of the space with the variable volume, and wherein a flexible membrane covers the opening and is bowed away from the opening when the clamping device is in an uncompressed state so that the flexible membrane defines an internal space that forms a second part of the space with the variable volume. 2. The battery module as claimed in claim 1 , wherein; the receptacle contains the fluid, or the fluid comprises a liquid, water, silicone oil, gas, inert gas, nitrogen, noble gas, argon, krypton or gel, the fluid is compressible, or the fluid is non-compressible. 3. A battery system, comprising: the battery module as claimed in claim 1 . 4. A vehicle, comprising: the battery module as claimed in claim 1 . 5. The battery module as claimed in claim 1 , wherein the flexible membrane ( 320 ) comprises a foil/film ( 330 ), a synthetic material film, a metallized film or a metal foil or fabric. 6. The battery module as claimed in claim 1 , wherein the flexible membrane is embodied in an electrically conductive manner. 7. The battery module as claimed in claim 1 , wherein the flexible membrane comprises an electrically conductive material, aluminum, copper or carbon. 8. The battery module as claimed in claim 1 , wherein the flexible membrane is embodied in an electrically non-conductive manner. 9. The battery module as claimed in claim 1 , wherein the carrier element comprises a metal, aluminum or a synthetic material. 10. The battery module as claimed in claim 1 , wherein the carrier element is an end plate ( 210 ′). 11. The battery module as claimed in claim 1 , wherein the receptacle comprises a closure ( 395 ), a valve, a safety valve or an excess pressure valve. 12. The battery module as claimed in claim 1 , wherein the receptacle comprises a seam, adhesive seam or weld seam. 13. The battery module as claimed in claim 1 , wherein both of the at least two battery cells are compressed between the clamping device and one of the opposed walls. 14. The battery module as claimed in claim 13 , wherein the at least two battery cells includes a third battery cell, wherein the third battery cell is compressed between the clamping device and the other of the opposed walls. 15. The battery module as claimed in claim 1 , wherein the battery cells are prismatic battery cells. 16. A method for producing a battery module ( 20 ; 30 ; 40 ; 50 ; 60 ), comprising: providing a housing having opposed walls, providing at least two battery cells, providing a clamping device for compressing the battery cells, the clamping device comprising a receptacle that comprises a space ( 310 ) having a variable volume for receiving a fluid and a carrier element having an internal cavity that has a constant volume, that has an opening on one side and that forms a first part of the space with the variable volume, and wherein a flexible membrane covers the opening and is bowed away from the opening when the clamping device is in an uncompressed state so that the flexible membrane defines an internal space that forms a second part of the space with the variable volume, arranging the entirety of the clamping device ( 300 ) and the at least two battery cells ( 100 ) in a row in the housing between the opposed walls, after arranging the clamping device and the at least two battery cells in the housing, filling the space of the clamping device ( 300 ) with the fluid, thereby compressing each of the at least two battery cells between the clamping device and one of the opposed walls, and thereafter closing the space of the clamping device. 17. The method as claimed in claim 16 , wherein: the procedure of filling the space of the clamping device ( 300 ) includes closing the receptacle. 18. The method as claimed in claim 17 , furthermore comprising: closing the receptacle, and cooling or liquefying the fluid, wherein: the procedure of filling the space of the clamping device ( 300 ) includes: warming the fluid in the receptacle or allowing the re-warming of the fluid in the receptacle. 19. The method as claimed in claim 16 , furthermore comprising: checking a pressure of the fluid in the receptacle, or adjusting the pressure. 20. A battery module comprising: a housing having opposed walls; at least two battery cells arranged between the opposed walls of the housing; and a clamping device ( 300 ) for compressing the plurality of battery cells ( 100 ), the clamping device and the at least two battery cells arranged in a row between the opposed walls such that each of the at least two battery cells is compressed between the clamping device and one of the opposed walls, wherein the clamping device comprises a closed receptacle defining a space ( 310 ) having a variable volume containing a fluid such that the receptacle compresses the battery cells, and wherein the space is subdivided into a multiplicity of chambers, wherein the clamping device comprises a carrier element having an internal cavity that has a constant volume, that has an opening on one side and that forms a first part of the space with the variable volume, and wherein a flexible membrane covers the opening and is bowed away from the opening when the clamping device is in an uncompressed state so that the flexible membrane defines an internal space that forms a second part of the space with the variable volume.