Heat exchanger comprising a heat exchanger bundle and a housing

The invention claimed is: 1. A heat exchanger ( 10 ) comprising a heat-exchange core ( 12 ) and a housing ( 14 ) inside which the core ( 12 ) is housed, the core ( 12 ) comprising a stack of plates ( 16 ) and the housing ( 14 ) comprising a body with at least one first portion ( 32 ; 36 ) and one second portion ( 30 ; 34 ), wherein the first portion ( 32 ; 36 ) is in contact with one of a top and bottom of the stack of the plates ( 16 ) and the second portion ( 30 ; 34 ) is in contact with at least one end of each of the plates ( 16 ) of the stack of the core ( 12 ) and in that the core ( 12 ) is brazed to the housing ( 14 ), wherein, prior to brazing, the first portion ( 32 ; 36 ) has a degree of freedom relative to the second portion ( 30 ; 34 ) in the direction of the stack of the plates ( 16 ), the first portion ( 32 ; 36 ) and the second portion ( 30 ; 34 ) have solid faces such that the plates ( 16 ) do not extend through the faces and include an assembly means ( 42 ; 46 ) for mutual assembly arranged so as to manage/control the bulking of the heat exchanger ( 10 ), the assembly means ( 42 ; 46 ) includes a tongue ( 42 ) situated on one of the first or second portions ( 30 ; 32 ; 34 ; 36 ) and a recess ( 46 ) situated on the other portion, the tongue ( 42 ) being capable of interacting with the recess ( 46 ), wherein the second portion ( 30 ; 34 ) includes at least one raised edge ( 44 ) furnished with the tongue ( 42 ), wherein the tongue ( 42 ) is perpendicular to the at least one raised edge ( 44 ) and is formed from cutting and folding the raised edge ( 44 ), and at least one manifold ( 48 ) disposed perpendicular to the solid faces of at least one first portion ( 32 ; 36 ) and the at least one second portion ( 30 ; 34 ) on at least one side of the stack of plates ( 16 ) and connected to the body of the housing ( 14 ). 2. The heat exchanger ( 10 ) as claimed in claim 1 , wherein the assembly means ( 42 ; 46 ) are also means for self-centering the first portion ( 32 ; 36 ) on the second portion ( 30 ; 34 ). 3. The heat exchanger ( 10 ) as claimed in claim 1 , wherein at least one of the portions ( 30 ; 34 ) of the housing ( 14 ) comprises a periphery bordered by raised edges, these raised edges comprising first ( 44 ) and second ( 40 ) raised edges, the first raised edges ( 44 ) being involved in the assembly of the housing ( 14 ) and the second raised edges ( 40 ) being involved in the assembly of the manifold ( 48 ) to the housing ( 14 ). 4. The heat exchanger as claimed in claim 1 , wherein the core ( 12 ) determines first channels for the circulation of a gas and second channels for the circulation of the coolant fluid. 5. The heat exchanger ( 10 ) as claimed in claim 1 , wherein the housing ( 14 ) is formed by at least four portions ( 30 ; 32 ; 34 ; 36 ) and has at least one open face, wherein the four portions ( 30 ; 32 ; 34 ; 36 ) are four substantially rectangular plates. 6. The heat exchanger ( 10 ) as claimed in claim 5 , wherein at least one of the portions ( 30 ; 34 ) of the housing ( 14 ) comprises a periphery bordered by raised edges, these raised edges comprising first ( 44 ) and second ( 40 ) raised edges, the first raised edges ( 44 ) being involved in the assembly of the housing ( 14 ) and the second raised edges ( 40 ) being involved in the assembly of the manifold ( 48 ) to the housing ( 14 ). 7. The heat exchanger ( 10 ) as claimed in claim 6 , wherein the second portion ( 30 ; 34 ) comprises at least one raised edge ( 44 ) furnished with the tongue ( 42 ). 8. A heat exchanger ( 10 ) comprising a heat-exchange core ( 12 ) and a housing ( 14 ) inside which the core ( 12 ) is housed, the core ( 12 ) comprising a stack of plates ( 16 ) and the housing ( 14 ) comprising a body in at least one first ( 32 ; 36 ) and one second ( 30 ; 34 ) portions, wherein at least one of the first portion ( 32 ; 36 ) or second portion ( 30 ; 34 ) is in contact with one end of each of the plates ( 16 ) of the stack of the core ( 12 ) and in that the core ( 12 ) is brazed to the housing ( 14 ), wherein, prior to brazing, the first portion ( 32 ; 36 ) has a degree of freedom relative to the second portion ( 30 ; 34 ) in the direction of the stack of the plates ( 16 ), the first portion ( 32 ; 36 ) and the second portion ( 30 ; 34 ) have solid faces and include an assembly means ( 42 ; 46 ) for mutual assembly arranged so as to manage/control the bulking of the heat exchanger ( 10 ), the assembly means ( 42 ; 46 ) including a tongue ( 42 ) situated on one of the first or second portions ( 30 ; 32 ; 34 ; 36 ) and a recess ( 46 ) situated on the other portion, the tongue ( 42 ) being capable of interacting with the recess ( 46 ), wherein the second portion ( 30 ; 34 ) includes at least one raised edge ( 44 ) furnished with the tongue ( 42 ), wherein the tongue ( 42 ) is perpendicular to the at least one raised edge ( 44 ) and is formed from cutting and folding the raised edge ( 44 ); and wherein the housing ( 14 ) comprises an upper face ( 32 ) furnished with two connector nozzles ( 18 ; 20 ) for a coolant fluid to enter and leave the heat exchanger ( 10 ).