Heat exchanger plate with bypass zone

The invention claimed is: 1. A plate for a heat exchanger, said plate being stackable with another plate of the heat exchanger to form a pair of plates arranged to permit a circulation of a fluid to be cooled between the pair of plates, said plate exhibiting an exchange zone to encourage a exchange of heat with the fluid, and exhibiting a bypass zone capable of permitting the fluid to bypass the said exchange zone, said plate comprising means originating from said plate configured in such a way as to force a circulation of the fluid in said exchange zone, wherein said plate is in a form of a panel comprising two upstream and downstream edges in which said plate is rectangular and exhibits two long edges and two short edges, said long edges defining said upstream and downstream edges and comprising an inlet port in said bypass zone for a coolant fluid and a collection port for the coolant fluid, said means originating from said plate comprising an upstream partition extending from said upstream edge of said plate and configured in such a way as to block the circulation of the fluid at a level of said inlet port and/or said plate comprising a downstream partition extending from said downstream edge of said plate and configured in such a way as to block the circulation of the fluid at a level of said collection port, wherein said inlet port, said upstream partition, said downstream partition, and said collection port are disposed in line in a downstream direction and wherein said bypass zone extends between said upstream partition and said downstream partition and said exchange zone extends over a remainder of said plate. 2. The plate according to claim 1 , in which said means originating from said plate extend perpendicularly to a plane of said plate. 3. The plate according to claim 1 , in which said inlet port and said collection port being pierced in a zone close to one of said short edges. 4. The plate according to claim 3 , in which the lengths of said upstream partition and/or of said downstream partition are identical to or greater than the largest dimension of said ports in the direction of said long edges. 5. The plate according to claim 1 , in which said upstream and downstream partitions are parallel. 6. The plate according to claim 1 , in which said upstream and downstream partitions exhibit an oblique distal end. 7. The plate according to claim 1 , in which said means originating from said plate comprise a central partition extending between said inlet port and said collection port. 8. A core of plates comprising a plurality of plates according to claim 1 , stacked one on top of the other in such a way that two adjacent plates forming a pair define a circulation channel for the fluid to be cooled and two plates of two different and adjacent pairs form a circulation channel for a coolant fluid. 9. The core according to claim 8 , in which upstream and downstream partitions of two plates of one and the same pair of plates overlap. 10. The core according to claim 9 , in which a turbulator is arranged between two plates of one and the same pair of plates in such a manner as to encourage the exchange of heat between the fluid to be cooled and the coolant fluid, said turbulator having a height substantially identical to that of said partitions. 11. A heat exchanger comprising the core according to claim 8 . 12. The plate according claim 2 , said plate being in the form of a panel comprising two upstream and downstream edges and comprising an inlet port in said bypass zone for a coolant fluid and a collection port for the coolant fluid, said means originating from said plate comprising an upstream partition extending from said upstream edge of said plate and configured in such a way as to block the circulation of the fluid at the level of said inlet port and/or said plate comprising a downstream partition extending from said downstream edge of said plate and configured in such a way as to block the circulation of the fluid at the level of said collection port. 13. The plate according to claim 12 , in which said inlet port and said collection port being pierced in a zone close to one of said short edges. 14. The plate according to claim 13 , in which the lengths of said upstream partition and/or of said downstream partition are identical to or greater than the largest dimension of said ports in the direction of said long edges. 15. The plate according to claim 6 , wherein said distal end of said upstream partition is bends towards an interior of a space defined by assembly of two of said plates. 16. The plate according to claim 6 , wherein said distal end of said downstream partition is bends towards an exterior of a space defined by assembly of two of said plates. 17. The plate according to claim 1 , wherein said upstream partition and said downstream partition are rectangular. 18. The plate according to claim 6 , wherein said upstream partition and said downstream partition are rectangular and substantially flat except for said oblique distal end.