Thermal management structure with fluid channels

The invention claimed is: 1. An assembly comprising: a vehicle battery including battery cells, a housing surrounding the vehicle battery, and several structures for thermally managing the battery, individually comprising a phase change material surrounding a conduit suitable for circulating a fluid, the conduits of the several structures being connected to a fluid inlet and a fluid outlet, wherein: said several structures define or line side walls of the housing, on respective first sides of the battery cells, and the assembly further comprises: thermal exchange elements through which a thermal exchange fluid adapted to thermal exchange with the battery cells can circulate, the thermal exchange elements being interposed between said first sides of the battery cells and said structures, in which each phase change material is included in a rigid structuring matrix, so that a first composite body is formed which is self-supporting whatever the phase of the phase change material contained, the first composite body being shaped so as locally to present a depression which defines by itself a first channel wall forming said conduit, and, in which the structures individually comprise a cover comprising: a second composite body containing at least one phase change material included in a rigid structuring matrix, such that said second composite body is self-supporting regardless of the phase of the phase change material contained, and/or a plastic or metal bag which is gas-tight and under partial internal vacuum, having a shape maintained by the internal vacuum, the cover being fixed with the second composite body in a fluid-tight manner, wherein the first composite body is shaped so as locally to present a series of said depressions, the assembly further comprising a sheath for circulating said fluid, which sheath: is connected to said fluid inlet and fluid outlet, integrates several elongated protrusions wedged in said several depressions, is fixed between the cover and the first composite body, transverse to a general direction of elongation of the several elongated protrusions, occupies a closed section between 30% and 100% of a cumulative section of said: cover and first composite body, and, transverse to the general direction of elongation, the several elongated protrusions occupy a minor section of the sheath. 2. The assembly according to claim 1 , which comprises blocks each interposed between two of said several structures successively disposed, which join said successive structures and which are traversed, for circulating the fluid, by passages for communication between said conduits of the successive structures. 3. The assembly according to claim 2 , wherein the blocks are corner blocks arranged at corners of the housing. 4. The assembly according to claim 1 , wherein the cover is shaped to locally have an elongated depression: which in itself defines a second channel wall suitable for fluid flow, and which completes and laterally closes the first channel wall at a contact interface. 5. The assembly according to claim 1 , wherein the rigid structuring matrix comprises an elastomer or fibers. 6. The assembly according to claim 1 , wherein the rigid structuring matrix comprises a graphite felt. 7. The assembly according to claim 1 in which, between two of said battery cells successively disposed there is a space in which is interposed, in thermal exchange with the successive battery cells, at least one of said several structures. 8. The assembly according to claim 1 , wherein each first composite body has, on both sides opposite two of the battery cells, a continuous, full surface for non-discrete thermal exchange with said two battery cells. 9. The assembly according to claim 8 in which, opposite one of said two battery cells), each first composite body is in contact against the battery cell, without ventilated fluid circulation between the battery cell and the first composite body. 10. The assembly according to claim 1 , in which the housing defines a thermal barrier: which borders on several sides an interior volume in which said battery cells are disposed, and whose said several structures which define or line the side walls delay or promote a propagation of a thermal flow out of or towards the interior volume. 11. The assembly according claim 1 which further comprises thermal insulating walls externally lining said several structures, so that the phase change materials are interposed between the first sides of the battery cells and the thermal insulating walls. 12. The assembly according claim 1 , wherein: each of said respective first sides of the battery cells comprises a third side and a fourth side, the third side and the fourth side being opposite to each other, and, said several structures comprise a first of said structures and a second of said structures which extend parallel to the third side and the fourth side, respectively. 13. The assembly of claim 1 , further comprising a cooling plate through which a thermal exchange fluid adapted to be in a thermal exchange with the battery cells can circulate, the cooling plate being disposed, for thermal exchange with the battery cells, facing second sides of the battery cells different from said respective first sides. 14. The assembly of claim 13 , wherein the cooling plate is a flexible pocket, a rigid panel, a series of parallel or crossed tubes, each pocket(s), panel or tubes containing a volume adapted to the circulation of said thermal exchange fluid. 15. The assembly of claim 1 , wherein the thermal exchange elements is a flexible pocket, a rigid panel, a series of parallel or crossed tubes, each pocket(s), panel or tubes containing a volume adapted to the circulation of said thermal exchange fluid.