Bipolar plates for limiting the bypassing of the flow channels by the reactants

The invention claimed is: 1. A bipolar plate, comprising first and second conductive sheets, and in which: an inlet manifold and an outlet manifold of a fuel and an inlet manifold and an outlet manifold of an oxidant are made through the first and second conductive sheets; an outer face of the first conductive sheet includes: first ribs delimiting fuel flow channels, these fuel flow channels being in communication with the fuel inlet and outlet manifolds; a second rib extending on the side of the fuel flow channels, a sealing gasket extending at least partially on said second rib; third ribs extending between one of said first ribs and the second rib, an alternation of third ribs and of first indentations being formed in an intermediate zone extending between this first rib and the second rib, the height between the third ribs and the first indentations being at least equal to 75% of the total height he of the flow channels; an outer face of the second conductive sheet includes: fourth ribs delimiting oxidant flow channels, these oxidant flow channels being in communication with the oxidant inlet and outlet manifolds; a fifth rib extending directly below or plumb with the second rib, a gasket extending along said fifth rib; sixth ribs extending between one of said fourth ribs and the fifth rib, an alternation of sixth ribs and of second indentations being formed between this fourth rib and the fifth rib, the height between the sixth ribs and the second indentations being at least equal to 75% of the total height he of the flow channels; at least one third rib housing at least two second indentations with which it is in contact; at least one sixth rib housing at least two first indentations with which it is in contact. 2. The bipolar plate according to claim 1 , in which said third rib housing at least two second indentations is wider than said sixth rib housing at least two first indentations. 3. The bipolar plate according to claim 2 , in which said third rib houses at least three second indentations with which it is in contact. 4. The bipolar plate according to claim 1 , in which said third rib housing at least two second indentations has a width at least equal to half of its length. 5. The bipolar plate according to claim 1 , in which said third ribs extend in a direction substantially perpendicular to an axis connecting the fuel inlet manifold and the fuel outlet manifold. 6. The bipolar plate according to claim 1 , in which said third ribs extend perpendicularly to the first ribs and to the second rib. 7. The bipolar plate according to claim 1 , in which said third ribs extend from one of said first ribs to the second rib. 8. The bipolar plate according to claim 1 , in which said third rib housing at least two second indentations has a protrusion at which it has a height greater than that of the first ribs, the protrusion extending between the second rib and a first rib and being positioned directly above or plumb with a sixth rib. 9. The bipolar plate according to claim 8 , in which two second indentations are in contact with said third rib on either side of the protrusion, said protrusion comprising junctions between its top and said contacts of said third rib with the second indentations, said junctions having a portion set back relative to a straight line connecting the top of the protrusion and the closest contacts between said third rib and the second indentations. 10. The bipolar plate according to claim 1 , in which the second rib extends between the reactant inlet and outlet manifolds. 11. An electrochemical cell comprising: a bipolar plate according to claim 1 ; a membrane electrode assembly including a proton exchange membrane, said proton exchange membrane at least partially covering said third ribs.