Energy storage module containing a plurality of energy storage elements and improved means of thermal dissipation and method of assembly

The invention claimed is: 1. A power storage module capable of containing a plurality of power storage elements, the module comprising: an envelope comprising at least a plurality of lateral walls and two end walls sized to enclose the power storage elements, at least one contacting member placed between at least one power storage element and a lateral wall of the module, called reference wall, said contacting member comprising a first physical contact face and a second physical contact face associated respectively to the reference wall and said power storage element(s), said first physical contact face being adapted to abut against the reference wall and said second physical contact face being adapted to abut against said power storage element(s), and said contacting member being configured such that the distance between the first and second physical contact faces can vary, wherein the contacting member is made of thermally conductive material, and wherein the contacting member comprises mechanical means and the storage elements being provided with complementary means cooperating with the mechanical means, the mechanical means and the complementary means being configured such that said variation of distance between the first and second physical contact faces of the contacting member is operated automatically, during insertion of the power storage elements in the envelope, by release of cooperation between the mechanical means and the complementary means. 2. The power storage module according to claim 1 , wherein said member comprises a first contact face, a second contact face and at least one elastically deformable component between the first contact face and the second contact face, the reference wall and said element(s) being adapted to stress respectively the first contact face and the second contact face such that the distance between the first contact face and the second contact face varies by deformation of the elastically deformable component. 3. The power storage module according to claim 1 , wherein the lateral walls of the envelope are made in a single piece having a closed outline and being sized to enclose the power storage elements. 4. The module according to claim 3 , wherein the piece also comprises an end wall in a single piece with the lateral walls. 5. The module according to claim 3 , wherein the piece comprising the lateral walls is open at its two ends, the module further comprising two end walls, each wall being independent respectively of the piece and capable of closing the latter at an open end. 6. The module according to claim 1 , wherein the or at least one of the contacting members is configured to comprise a plurality of second contact faces, each being intended to abut against a separate storage element, said at least one member being configured such that the distances between the first contact face and each of the second contact faces can be independent of each other. 7. The module according to claim 1 , wherein the or at least one of the contacting members is configured to be able to deform elastically at least in the normal direction to the contact faces. 8. The module according to claim 1 , wherein the or at least one of the contacting members comprises a main wall forming the first or the second contact face, and at least one tab comprising an arm inclined relative to the main wall and, at the end of the arm, a portion forming the second or the first contact face. 9. The module according to claim 8 , wherein at least one of the contacting members is configured to comprise a plurality of second contact faces, each being intended to abut against a separate storage element, said at least one member being configured such that the distances between the first contact face and each of the second contact faces can be independent of each other, and wherein the at least one contacting member comprises a plurality of said tabs, each tab being adapted to be placed at right of a power storage element. 10. The module according to claim 1 , wherein the or at least one of the contacting members comprises holding means for holding said member in a stressed position. 11. The module according to claim 10 , wherein the holding means comprise mechanical means, such as one or more blades or pliers, intended to cooperate with complementary means attached to at least one storage element to activate or deactivate the holding means. 12. The module according to claim 1 , comprising at least one element electrically insulating, intended to be placed between the or at least one of the contacting members and the or at least one of the storage elements and/or between the or at least one of the storage elements and a lateral wall of the envelope opposite the reference wall. 13. The module according to claim 1 , comprising a single reference wall constituted by the lower wall or the upper wall of the envelope. 14. The module according to claim 1 , comprising a shimming structure of at least two storage elements, made of electrically insulating material and comprising a plurality of housings each intended to receive one or more power storage elements. 15. The module according to claim 14 , wherein the shimming structure comprises at least one of the following means: cooperation means with the mechanical means of the or of at least one of the contacting members, guide means of cables, and/or means for housing an electric connector capable of cooperating with complementary means connected to the elements, and/or means for housing a connector on an electronic card, and/or means for fastening the electronic card, and/or fastening means of at least one sensor. 16. An assembly method of a power storage module intended to contain a plurality of power storage elements in an envelope comprising at least a plurality of lateral walls and two end walls, comprising the following steps: insertion by sliding of at least one power storage element and one contacting member comprising a first contact face and a second contact face and configured so that the distance between the first and second contact faces can vary, in a piece of the envelope having a closed outline and sized to enclose the power storage element, said insertion being done such that the second contact face of the member abuts against the or at least one of the power storage elements and the distance between the contact faces is equal to a first distance, modification of the configuration of the contacting member such that a first distance between the first and second contact faces is equal to a second distance greater than the first distance and the first contact face abuts against a wall, called reference, of the piece of the envelope, wherein said contacting member is made of a thermally conductive material, and wherein the method comprises a connection step of said power storage element(s) with the contacting member prior to the insertion step, this connection step being completed by cooperation of mechanical means of the contacting member with complementary means attached to the power storage element and the modification step of the configuration being effected by release of cooperation between the mechanical means and the complementary means. 17. The method according to claim 16 , comprising an insertion step of at least two storage elements in a shimming structure comprising a plurality of housings adapted respectively to receive at least one of the storage elements, prior to the insertion and/or connection step of the storage element and of the contacting member. 18. The power storage module accor