Heat exchanger with heat accumulator

The invention claimed is: 1. A wall member ( 20 ) of a tube ( 4 ) for a heat exchanger, the wall member ( 20 ) comprising one-half of the tube ( 4 ), the wall member ( 20 ) being made of a sheet metal plate defining an external peripheral wall ( 10 ) and comprising at least one first cavity ( 24 ) and at least one second cavity ( 26 ), respectively formed in the sheet metal plate, wherein the at least one first cavity ( 24 ) is bound on a first side by the external peripheral wall ( 10 ), and on a second side by at least one joining wall ( 28 ), the joining wall ( 28 ) arranged in a “Y” shape extending from the external peripheral wall ( 10 ), each joining wall ( 28 ) having a cross-section arranged in a “Y” shape such that a branching portion of the “Y” shape extends away from the planar section ( 30 ) of the external peripheral wall ( 10 ) and the at least one second cavity ( 26 ) is defined within the branching portions of the “Y” shape of the corresponding joining walls ( 28 ), the at least one second cavity ( 26 ) is arranged at a distance from the external peripheral wall ( 10 ), the at least one joining wall ( 28 ) configured to connect the at least one second cavity ( 26 ) to the external peripheral wall ( 10 ) and to separate two adjacent first cavities ( 24 ); wherein the at least one second cavity ( 26 ) has a width and the at least one joining wall ( 28 ) has a wall thickness that is less than the width of the at least one second cavity ( 26 ), such that a portion of each one of the first cavities ( 24 ) is disposed between the at least one second cavity ( 26 ) and the external peripheral wall ( 10 ). 2. The wall member ( 20 ) according to claim 1 , in which each one of the first cavities ( 24 ) has a trapezoidal shape. 3. The wall member ( 20 ) according to claim 1 , in which the at least one second cavity ( 26 ) has a semi-cylindrical shape. 4. The wall member ( 20 ) according to claim 1 , in which a plurality of first cavities ( 24 ) and a plurality of second cavities ( 26 ) bound respectively by a plurality of joining walls ( 28 ), are arranged according to a first direction of extension along an X-axis over a width of the heat exchanger. 5. The wall member ( 20 ) according to claim 4 , in which the plurality of first cavities ( 24 ) are arranged in alternation with the plurality of second cavities ( 26 ) according to the first direction of extension, such that a first of the plurality of first cavities ( 24 ) is bound on a first side by the peripheral wall ( 10 ) and further bound on two opposite sides, each respectively adjacent the first side, by a first and a second of the plurality of joining walls ( 28 ). 6. A heat exchange tube ( 4 ) for a heat exchanger ( 1 ), comprising a first wall member ( 20 ) coupled to a second wall member ( 20 ) according to claim 1 and arranged such that the at least one first cavity ( 24 ) and the at least one second cavity ( 26 ) of the first wall member ( 20 ) are oriented facing toward the at least one first cavity ( 24 ) and the at least one second cavity ( 26 ) of the second wall member ( 20 ). 7. The heat exchange tube ( 4 ) according to claim 6 , in which the first and second wall members ( 20 ) are arranged one with respect to the other according to a mirror symmetry. 8. The heat exchange tube ( 4 ) according to claim 7 , in which the first cavity ( 24 ) of the first wall member ( 20 ) cooperates with the first cavity ( 24 ) of the second wall member ( 20 ) to define a first fluid circulation channel. 9. The heat exchange tube ( 4 ) according to claim 7 , in which the second cavity ( 26 ) of the first wall member ( 20 ) cooperates with the second cavity ( 26 ) of the second wall member ( 20 ) to define a second fluid circulation channel. 10. The heat exchange tube ( 4 ) according to claim 6 , in which the first and second wall members ( 20 ) are arranged one with respect to the other according to a central symmetry. 11. The heat exchange tube ( 4 ) according to claim 6 , in which an intermediate communication plate ( 40 ) is arranged between the first and second wall members ( 20 ), the intermediate communication plate ( 40 ) defining a peripheral edge ( 42 ) separating the first wall member ( 20 ) from the second wall member ( 20 ). 12. The heat exchange tube ( 4 ) according to claim 11 , in which the first cavity ( 24 ) of at least one of the first wall member ( 20 ) and the second wall member ( 20 ) cooperates with the intermediate communication plate ( 40 ) in order to define a first fluid circulation channel. 13. The heat exchange tube ( 4 ) according to claim 11 , in which the second cavity ( 26 ) of at least one of the first wall member ( 20 ) and the second wall member ( 20 ) cooperates with the intermediate communication plate ( 40 ) in order to define a second fluid circulation channel. 14. The heat exchange tube ( 4 ) according to claim 11 , in which the intermediate communication plate ( 40 ) comprises at least one passage ( 44 ) enabling at least one of communication between at least two first cavities ( 24 ) and communication between at least two second cavities ( 26 ). 15. The heat exchange tube ( 4 ) according to claim 11 , wherein the at least one first cavity ( 24 ) and the at least one second cavity ( 26 ) of the first wall member ( 20 ) and the second wall member ( 20 ) respectively comprise a plurality of first cavities ( 24 ) and a plurality of second cavities ( 26 ) arranged in alternation in a repeating series of first cavity ( 24 ) and second cavity ( 26 ), and wherein the first wall member ( 20 ) and the second wall member ( 20 ) are arranged such that the plurality of first cavities ( 24 ) of the first wall member ( 20 ) are opposite the plurality of second cavities ( 26 ) of the second wall member ( 20 ), and such that the second cavities ( 26 ) of the first wall member ( 20 ) are opposite the plurality of first cavities ( 24 ) of the second wall member ( 20 ). 16. A heat exchanger ( 1 ) comprising a plurality of tubes ( 4 ) according to claim 6 . 17. The heat exchanger according to claim 16 , in which a core ( 8 ) comprises a plurality of heat exchange inserts ( 6 ) in alternation with the plurality of tubes ( 4 ). 18. The heat exchanger according to claim 16 , in which the first cavities ( 24 ) of the tubes ( 4 ) constitute tanks for a thermal storage material. 19. The heat exchanger according to one claim 16 , in which the second cavities ( 26 ) of the tubes ( 4 ) constitute heat transfer fluid circulation channels. 20. The heat exchanger according to one claim 16 , wherein the second cavities ( 26 ) of the tubes ( 4 ) constitute heat transfer fluid circulation channels for a heat transfer fluid that is a coolant and the first cavities ( 24 ) of the tubes ( 4 ) constitute tanks for a thermal storage material that is a cold storage material. 21. The wall member ( 20 ) according to claim 1 , further comprising a first at least one first cavity ( 24 ) and a second at least one first cavity ( 24 ) adjacent the first at least one first cavity ( 24 ) along the peripheral wall ( 10 ) and separated by the at least one joining wall ( 28 ); the at least one second cavity ( 26 ) bound by the at least one joining wall ( 28 ) separating the first and second at least one first cavities ( 24 ), wherein at least a portion of the first at least one first cavity ( 24 ) and a portion of the second at least one first cavity ( 24 ) extend between the peripheral wall ( 10 ) and the at least one second cavity ( 26 ). 22. A wall member