Battery module

The invention claimed is: 1. A housing-cell assembly comprising: a) an electrochemical cell comprising a cylindrical container and two current output terminals arranged on a wall of one of the ends of the container, the two current output terminals being each electrically connected to an electrical connection bar; b) a housing having the form of a tube wherein the electrochemical cell is housed, the housing electrically insulating the electrochemical cell and having one or more foolproof positioning devices; c) a housing cover provided with a means for causing the electrochemical cell to rotate about its longitudinal axis, wherein the means to cause the electrochemical cell to rotate causes rotation of the two electrical connection bars and connection of each electrical connection bar to an electrically conductive track, wherein the housing cover comprises two orifices for the passage of the current output terminals. 2. The assembly as claimed in claim 1 , wherein a thermal insulation material is arranged around the container of the electrochemical cell. 3. The assembly as claimed in claim 1 , wherein the foolproof positioning device consists of one or more lugs. 4. The assembly as claimed in claim 3 , wherein the foolproof positioning device consists of two lugs located on the circumference of the housing. 5. The assembly as claimed in claim 1 , wherein the foolproof positioning device consists of a flange with one or more hollows. 6. The assembly as claimed in claim 1 , wherein one of the ends of the container of the cell is closed by a cover and the electrical connection bars are attached directly onto the cover of the cell. 7. The assembly as claimed in claim 1 , wherein each electrical connection bar is flat. 8. The assembly as claimed in claim 1 , wherein the profile of each electrical connection bar is bent, the bend delimiting two parts, a first part flat and electrically connected to a current output terminal, a second part forming an arc of a circle. 9. The assembly of claim 8 , wherein each electrical connection bar is bent forming an angle of about 90°. 10. The assembly as claimed in claim 1 , wherein the container has one end closed by a wall having a thinning suitable for bursting under overpressure inside the container. 11. The assembly as claimed in claim 1 , wherein the electrochemical cell is of the lithium-ion type. 12. A battery module including a casing including a plurality of cavities each receiving a housing-cell assembly as claimed in claim 1 . 13. The module as claimed in claim 12 , wherein each cavity has a wall comprising one or more grooves into which a foolproof positioning device of the housing is inserted. 14. The module as claimed in claim 12 , wherein the casing has a face for inserting the housing-cell assemblies, said insertion face including a support on which electrically conductive tracks are arranged, each electrical connection bar being in contact with an electrically conductive track. 15. The module as claimed in claim 14 , wherein the profile of each electrical connection bar forms an angle of about 90° thus delimiting two parts, a first part being flat and electrically connected to a current output terminal of the electrochemical cell, a second part in the shape of an arc of a circle and held in contact with an electrically conductive track. 16. The module as claimed in claim 15 , wherein the second part of each electrical connection bar forming an arc of a circle is in contact with a portion of the electrically conductive track, said portion in the shape of an arc of a circle extending in a direction forming an angle of 90° with the support. 17. The module as claimed in claim 16 , wherein the contact between the second part of each electrical connection bar forming an arc of a circle and the portion of the electrically conductive track is provided by a mechanical device. 18. The module as claimed in claim 12 , further including an elastic device placed between a housing-cell assembly and a wall of the casing, said elastic device holding the electrical connection bar or bars in contact with one or more electrically conductive tracks. 19. The module as claimed in claim 12 , wherein the face opposite the face for inserting the housing-cell assemblies includes an openwork wall. 20. The module of claim 19 , wherein the openwork wall is a grid. 21. A method of manufacturing a battery module, said method comprising the steps of: a) providing a casing including a plurality of cavities, each cavity being intended to receive a housing-cell assembly, said casing having a face for inserting the housing-cell assemblies, said insertion face including a support on which electrically conductive tracks are arranged; b) inserting a housing-cell assembly according to claim 1 into a cavity; c) rotating the housing-cell assembly about the longitudinal axis of the cell for placing the electrical connection bars in contact with one or more electrically conductive tracks, the foolproof positioning device of the housing serving as a stop to the rotation of the housing-cell assembly; d) attaching the electrical connection bars onto the electrically conductive track or tracks; e) repeating steps b) to d); f) attaching a front face onto the casing, the front face including: one or more means facilitating the gripping of the module, two positive and negative current output terminals of the battery module, one or more connector pins allowing the measurement of parameters related to the operation of the module. 22. A method of manufacturing a battery module, said method comprising the steps of: a) providing a casing including a plurality of cavities, each cavity being intended to receive a housing-cell assembly, said casing having a face for inserting the housing-cell assemblies, said insertion face including a support on which electrically conductive tracks are arranged; b) inserting a housing-cell assembly according to claim 1 into a cavity; c) rotating the housing-cell assembly about the longitudinal axis of the cell for placing the electrical connection bars in contact with one or more electrically conductive tracks, the foolproof positioning device of the housing serving as a stop to the rotation of the housing-cell assembly; d) attaching the electrical connection bars onto the electrically conductive track or tracks: e) repeating steps b) to d); f) attaching a front face onto the casing, the front face including: one or more means facilitating the gripping of the module, two positive and negative current output terminals of the battery module, one or more connector pins allowing the measurement of parameters related to the operation of the module; wherein the one or more means facilitating the gripping of the module are one or more rods arranged in one or more hollow portions of the front face and attached to the thickness of the front face.