A structure for a fuel cell comprising at least one cell formed by first and second electrodes separated by a an electrolyte, the cell being disposed between first and second interface elements for feeding the electrodes of the cell with reagent and for collecting the electric current it produced. E
A structure for a fuel cell comprising at least one cell formed by first and second electrodes separated by a an electrolyte, the cell being disposed between first and second interface elements for feeding the electrodes of the cell with reagent and for collecting the electric current it produced. Each interface element comprises a distributor element of insulating material including distribution channels at least in its face facing one of the electrodes for the purpose of diffusing a reagent, and at least one collector element of conductive material interposed between the electrode and the elements made of insulating material. The collector element presents perforations so as to enable the reagent to diffuse between the channels of the distributor element and the electrode facing it.
대표청구항▼
What is claimed is: 1. A structure for a fuel cell comprising at least one cell formed by first and second electrodes separated by an electrolyte, at least two distributor elements of insulating material, each of said at least two distributor elements including distributor channels provided on its
What is claimed is: 1. A structure for a fuel cell comprising at least one cell formed by first and second electrodes separated by an electrolyte, at least two distributor elements of insulating material, each of said at least two distributor elements including distributor channels provided on its two faces, at least first and second collector elements each made of a conductive material and each including an upper portion and a lower portion having the same dimensions and being spaced apart from each other, said upper and lower portions being electrically connected together and presenting perforations; wherein said distribution channels open out together into first and second orifices passing through each of said at least two distributor elements, one of said orifices being used in common for supplying simultaneously a same reagent to both distribution channels provided on each of the two faces; wherein said at least first and second collector elements are engaged one in another, said at least one cell being placed between the upper portion of said second collector element and the lower portion of said first collector element; and wherein one of said at least two distributor elements is placed between the upper portions of said first and second collector elements while a second of said at least two distributor elements is placed between the lower portions of said first and second collector elements. 2. A structure according to claim 1, wherein the distributor element is made of plastics material. 3. A structure according to claim 1, wherein the distributor element further includes flow conduits internal to a flow plate comprising an internal circuit for circulating cooling fluid wherein the circuit has a planar orientation parallel to the planar aspect of the flow plate and wherein the circuit lies between the distribution channels on one face and the distribution channels on the other face of the distributor element. 4. A structure according to claim 3, wherein the internal circuit opens out to the surface of the distributor element via at least two orifices, and wherein the internal circuit is electrically insulated from the conductor element. 5. A structure according to claim 1, wherein the collector element is made of stainless steel or of copper. 6. A structure according to claim 5, wherein the collector element is constituted by a metal sheet that is folded in half, wherein said upper and lower portions having same dimensions and spaced apart from each other are completely overlapping each other in parallel alignment. 7. A structure according to claim 1, wherein sealing is provided between the distributor element and the collector element, which sealing is obtained by one of urging the surfaces of said elements towards one another, interposing one or more gaskets between said surfaces of said elements, and applying adhesive to the surfaces of said elements, or obtained by a combination thereof. 8. A fuel cell including at least one structure according to any one of claims 1 through 7. 9. A structure for a fuel cell comprising an odd-numbered plurality of cells, each cell formed by first and second electrodes separated by an electrolyte, a number of distributor elements of insulating material, said number being one more than the number of cells, each of said distributor elements including distributor channels provided on its two faces, a number of collector elements equal to the number of distributor elements, each collector element made of a conductive material and each including an upper portion and a lower portion having the same dimensions, said upper and lower portions being spaced apart from each other, completely overlapping each other in parallel alignment, and being electrically connected together and presenting perforations; wherein said distribution channels are configured to supply a same reagent to both faces of each distributor element simultaneously; the collector elements are grouped in pairs, each pair comprising an upper element and a lower element, and each pair configured such that the upper element engages the lower element, one in another, such that three gaps are formed between upper and lower portions within each element pair, a cell is positioned in the middle gap of each pair of elements, located between the upper portion of the lower element and the lower portion of the upper element a distributor element is positioned between each of the remaining two gaps of each pair of elements, and a cell is positioned between any adjoining pairs of elements.
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