Fuel cell system in the form of a printed circuit board
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H01M-008/10
H01M-008/02
출원번호
UP-0510888
(2003-04-11)
등록번호
US-7582329
(2009-09-16)
우선권정보
DE-102 17 034(2002-04-11)
국제출원번호
PCT/EP03/003772
(2003-04-11)
§371/§102 date
20050527
(20050527)
국제공개번호
WO03/085760
(2003-10-16)
발명자
/ 주소
Schmitz, Andreas
Hebling, Christopher
Hahn, Robert
Burger, Bruno
출원인 / 주소
Fraunhofer Gesellschaft zur Foerderung der Angewandten Forschung E.V.
대리인 / 주소
Marshall & Melhorn, LLC
인용정보
피인용 횟수 :
5인용 특허 :
8
초록▼
A planar fuel cell system comprising at least two fuel cells which are electrically connected in series in a plane via horizontally overlapping connecting lugs and comprise an anode current collector on the anode side and comprise a cathode current collector on the cathode side is provided. The curr
A planar fuel cell system comprising at least two fuel cells which are electrically connected in series in a plane via horizontally overlapping connecting lugs and comprise an anode current collector on the anode side and comprise a cathode current collector on the cathode side is provided. The current collectors are electrically connected to the connecting lugs and a polymer electrolyte membrane, wherein the current path is led around the polymer electrolyte membrane. The fuel cell system is designed with a printed circuit board technique and as a composite of a first, anode-side printed circuit board and a second, cathode-side printed circuit board, and the current collectors and connecting lugs are designed as strip conductors of these printed circuit boards. Methods of manufacturing the fuel cell system are also provided.
대표청구항▼
The invention claimed is: 1. A planar fuel cell system comprising at least two fuel cells which are electrically connected in series in a plane via horizontally overlapping connecting lugs and comprise an anode current collector on the anode side and comprise a cathode current collector on the cath
The invention claimed is: 1. A planar fuel cell system comprising at least two fuel cells which are electrically connected in series in a plane via horizontally overlapping connecting lugs and comprise an anode current collector on the anode side and comprise a cathode current collector on the cathode side, the current collectors being electrically connected to the connecting lugs, and a polymer electrolyte membrane, wherein the current path is led around the polymer electrolyte membrane, wherein the fuel cell system is designed with a printed circuit board technique and as a composite of a first, anode-side printed circuit board and a second, cathode-side printed circuit board, and the current collectors and connecting lugs are designed as strip conductors of these printed circuit boards. 2. A fuel cell system according to claim 1, wherein the connecting lugs are located within the boundary of the printed circuit board composite. 3. A fuel cell system according to claim 1, wherein the connecting lugs in their overlapping region in each case are connected by way of at least one perpendicular contacting element. 4. A fuel cell system according to claim 3, wherein at least one perpendicular contacting element is a bore filled with an electrically conductive material. 5. A fuel cell system according to claim 4, wherein the electrically conductive material is solder or an electrically conductive adhesive. 6. A fuel cell system according to claim 4, wherein the bore is metallised on its inner side. 7. A fuel cell system according to claim 3, wherein at least one perpendicular contacting element is a rivet. 8. A fuel cell system according to claim 1, wherein gas distribution structures are incorporated into the first, anode-side printed circuit board. 9. A fuel cell system according to claim 1, wherein gas distribution structures are incorporated into the second, cathode-side printed circuit board. 10. A fuel cell system according to claim 1, wherein air openings to the outside are incorporated into the second, cathode-side printed circuit board. 11. A fuel cell system according to claim 1, wherein the fuel cells in each case have a reaction region which is incorporated into the first and second printed circuit boards and which is circumscribed by a raised part of printed circuit board material and/or lacquer. 12. A fuel cell system according to claim 1, wherein the reaction region contains a gas distribution structure and one of the anode or cathode current collectors, and a diffusion layer is provided which is deposited onto one of the anode or cathode current collectors in a flat manner. 13. A fuel cell system according to claim 1, wherein the diffusion layer is designed as a plastic fabric provided with metallised segments. 14. A fuel cell system according to claim 1, wherein the strip conductors and/or outer contacts contained in the fuel cell system are coated with single-ply or multi-ply electrically conductive layers to avoid corrosion. 15. A fuel cell system according to claim 1, wherein the polymer electrolyte membrane is designed as a segmented membrane electrode assembly (MEA). 16. A fuel cell system according to claim 1, wherein on the surface of the printed circuit board composite it comprises an electronic circuit. 17. A fuel cell system according to claim 1, wherein the connecting lugs are arranged in each case on the reaction region side of the first and of the second printed circuit board and are electrically contacted in a permanent manner by way of a welding connection. 18. A planar fuel cell system comprising at least two fuel cells which via strip conductors are electrically connected in series in a plane and which comprise current collectors electrically connected to the connection elements, and a polymer electrolyte membrane, wherein the current path is led around the polymer electrolyte membrane, wherein the fuel cell system is designed in a printed circuit board technique and as a composite of a first printed circuit board and a second printed circuit board, and the current collectors and connection elements are designed as strip conductors of these printed circuit boards, wherein the printed circuit boards in each case comprise alternating anode and cathode gas distribution structures and wherein in each case one adjacent anode current collector and cathode current collector is electrically connected by way of the connection element. 19. A method for manufacturing a fuel cell system according to claim 1, wherein a first and a second printed circuit board carrier is selected, each comprising an upper side and a lower side, and on the upper side of both carriers the steps of: depositing the metallisation onto the printed circuit board carrier so that a printed circuit board arises, wherein metal films or thin sheets of a material selected from a group consisting of copper, nickel, gold, titanium or stainless steel and/or an alloy thereof is laminated onto the printed circuit board material, or the metallisation is realised by way of coating and a subsequent galvanic reinforcement of the layer; selective etching-away or milling of the metallisation so that strip conductors arise which in a reaction region form current collectors and connecting lugs, which border the current collectors in a smooth manner; incorporating gas distribution structures into the printed circuit board; depositing a diffusion layer; are carried out and subsequently the membrane-electrode-assembly (MEA) is deposited onto the upper side of the first printed circuit board, the first and the second printed circuit board with their upper sides facing one another are joined together and the connecting lugs are connected to one another in a perpendicular manner. 20. A method according to claim 19, wherein as a membrane electrode assembly (MEA) an MEA catalytically coated over its whole surface is selected and is segmented before deposition onto the first printed circuit board. 21. A method according to claim 20, wherein the segmentation of the MEA is incorporated by way of laser ablation and/or reactive ion etching. 22. A method according to claim 19, wherein after the incorporation of the gas distribution structures, a raised part surrounding the reaction regions of the first and second printed circuit board is deposited so that in each case a recess arises in the region of the reaction regions.
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