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Title: Thermoelectric microgenerator
Claims: What is claimed is: 1. A thermoelectric microgenerator comprising a plurality of thermocouples connected in series, said thermocouples being formed by rows of alternately arranged positive and negative elements connected together to form a continuous conductor, said positve and negative elements being thin layers disposed on one side of a thin support, said thin support being an electrical insulating material and a poor heat conductor, a cold source having spaced projections disposed in thermal contact with alternate junctions of said thermocouples, and a hot source having spaced projections disposed in thermal contact with other alternate junctions of said thermocouples not in thermal contact with said projections of said cold source. 2. A thermoelectric microgenerator according to claim 1, characterized in that the rows of thermocouples form a network of segments of straight lines parallel to one another and orthogonal to the porjections of the cold and hot sources, said projections also being arranged in networks of segments of parallel straight lines. 3. A thermoelectric microgenerator according to claim 1, characterized in that said projections of the cold source and those of the hot source are arranged in networks of concentric circles and in that the rows of thermocouples are arranged in radii of those circles. 4. A thermoelectric microgenerator according to claim 1, characterized in that the projections of the hot source are secured to the thin support and in that the projections of the cold source are secured to said alternate junctions of the thermocouples. 5. A thermoelectric microgenerator according to claim 1, characterized in that the projections of the hot source are welded to a metal layer deposited on the thin support on the side opposite to that of the thermocouples and in that the projections of the cold source are bonded to said alternate junctions of the thermocouples. 6. A thermoelectric microgenerator according to claim 1, characterized in that the projections of the cold source are covered with a thermal insulant and bear strongly against said alternate junctions of the thermocouples and in that the projections of the hot source bear strongly against the thin support. 7. A thermoelectric microgenerator according to claim 1, characterized in that the hot and cold sources are provided with at least one recess oppositely disposed to one another and at least one ball made of a ceramic substance disposed in said recess for ensuring the positioning of the projections of the hot source in relation to those of the cold source. 8. A thermoelectric microgenerator as defined in claim 1 wherein said support and said hot and cold sources are planar elements, the projections of said hot and cold sources being directed toward said support with said support being disposed therebetween. 9. A thermoelectric microgenerator as defined in claim 8 wherein a metal layer covers the side of said support facing said hot source. 10. A thermoelectric microgenerator as defined in claim 9, characterized in that the projections of the hot source are secured to the thin support and in that the projections of the cold source are secured to said alternate junctions of the thermocouples. 11. A thermoelectric microgenerator according to claim 10, characterized in that the rows of thermocouples form a network of segments of straight lines parallel to one another and orthogonal to the projections of the cold and hot sources, said projections also being arranged in networks of segments of parallel straight lines. 12. A thermoelectric microgenerator according to claim 10, characterized in that said projections of the cold source and those of the hot source are arranged in networks of concentric circles and in that the rows of thermocouples are arranged in radii of those circles. 13. A thermoelectric microgenerator according to claim 1, wherein each of said cold and hot sources respectively include a planar surface is facing relationship to said thin support, said planar surface including a plurality of grooves being separated by ridges projecting from said planar surface toward said thin support, said ridges forming said projections. 14. A thermoelectric microgenerator according to claim 13, wherein each of said ridges is formed with walls of low height. 15. A thermoelectric microgenerator according to claim 13, wherein said ridges between the grooves of one planar surface are in facing relationship with the mid portion of the grooves of the respective oppositely disposed planar surface. 16. A thermoelectric microgenerator according to claim 1, wherein said projections include ridges formed with walls of low height. 17. A thermoelectric microgenerator according to claim 1, wherein said thin support is a thin planar member, said thin layers of said positive and negative elements being disposed on one planar surface of said member. 18. A thermoelectric microgenerator according to claim 1, wherein said projections of said cold source are disposed against the side of said thin support opposite said thin layers of said positive and negative elements. 19. A thermoelectric microgenerator according to claim 1, wherein said projections of each of said hot and cold sources contact respective opposite sides of said thin support to impart a corrugated shape to said thin support. Other info: Inventors: Thomas, Pierre (Briis-sous-Forges, FR) Alais, Michel (Orsay, FR) Application Number: 396706 Filing Date: 1973-09-13 Publication_date: 1976-07-13 Assignee: Compagnie Industrielle des Telecommunications Cit-Alcatel (FR) Primary Class(es): 136/225 136/208, 136/212 Other Classes: US Patent Ref:
Other Refs:
Primary Examiner: Pendegrass, Verlin R. Assistant Examiner: Attorney: Craig & Antonelli |
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