Bipolar plate for a fuel cell

The invention claimed is: 1. A bipolar plate, which forms a first polar plate of a first base element of a fuel cell and a second polar plate of a second base element adjacent to the first base element of the fuel cell, the bipolar plate comprising: two parallel plates, each plate of the parallel plates including distribution channels formed in a thickness thereof, for distributing a fuel or an oxidant; and a manifold arranged to supply at least one of: the fuel and the oxidant, the manifold being structured to communicate with an interior portion of the bipolar plate through a plurality of inlet openings, wherein one plate of the two parallel plates includes a cut-out having a plurality of exit openings formed therein, the exit openings being structured to face the distribution channels correspondingly, such that a portion of gas from the manifold enters the inlet openings and exits the exit openings into the distribution channels in a straight path without obstruction. 2. The bipolar plate according to claim 1 , further comprising a first sealing element, located on an outer face of the one plate of the parallel plates in which the cut-out is formed, the first sealing element being positioned parallel to the cut-out and between the manifold and the cut-out. 3. The bipolar plate according to claim 2 , wherein the first sealing element is a joint made of a polymer material, and a bearing surface of the joint is raised above areas where no supply of gas is required. 4. The bipolar plate according to claim 1 , further comprising a second sealing element positioned between the cut-out and the distribution channels, the second sealing element providing a seal between the inlet openings and a cooling liquid present between the two parallel plates. 5. The bipolar plate according to claim 2 , further comprising a second sealing element positioned between the cut-out and the distribution channels, the second sealing element providing a seal between the inlet openings and a cooling liquid present between the two parallel plates. 6. The bipolar plate according to claim 3 , further comprising a second sealing element positioned between the cut-out and the distribution channels, the second sealing element providing a seal between the inlet openings and a cooling liquid present between the two parallel plates. 7. The bipolar plate according to claim 4 , wherein the second sealing element is formed by one of: welding, brazing, and adhesive bonding. 8. The bipolar plate according to claim 5 , wherein the second sealing element is formed by one of: welding, brazing, and adhesive bonding. 9. The bipolar plate according to claim 6 , wherein the second sealing element is formed by one of: welding, brazing, and adhesive bonding. 10. The bipolar plate according to claim 4 , wherein at least one of: the cut-out, the first sealing element, and the second sealing element extend over a whole length of the manifold. 11. The bipolar plate according to claim 5 , wherein at least one of: the cut-out, the first sealing element, and the second sealing element extend over a whole length of the manifold. 12. The bipolar plate according to claim 6 , wherein at least one of: the cut-out, the first sealing element, and the second sealing element extend over a whole length of the manifold. 13. The bipolar plate according to claim 7 , wherein at least one of: the cut-out, the first sealing element, and the second sealing element extend over a whole length of the manifold. 14. The bipolar plate according to claim 8 , wherein at least one of: the cut-out, the first sealing element, and the second sealing element extend over a whole length of the manifold. 15. The bipolar plate according to claim 9 , wherein at least one of: the cut-out, the first sealing element, and the second sealing element extend over a whole length of the manifold.