Fuel cell systems and related arrangements for limiting relative motion between fuel cells
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H01M-002/20
H01M-008/24
H01M-008/00
H01M-008/02
H01M-008/10
출원번호
US-0138251
(2013-12-23)
등록번호
US-9070937
(2015-06-30)
발명자
/ 주소
Niezelski, David A.
Lake, Jeffery G.
Love, Robert A.
Blydenburgh, Jason Bennett
출원인 / 주소
AUDI AG
대리인 / 주소
Seed IP Law Group PLLC
인용정보
피인용 횟수 :
2인용 특허 :
5
초록▼
Fuel cell systems (10) and related methods for limiting fuel cell slippage are provided. A stacked plurality of adjacent fuel cells (14) collectively forming a fuel cell stack (12). The fuel cells each include a pair of first and second plates (30, 30′, 30″; 32, 32′, 32″) at respective opposite ends
Fuel cell systems (10) and related methods for limiting fuel cell slippage are provided. A stacked plurality of adjacent fuel cells (14) collectively forming a fuel cell stack (12). The fuel cells each include a pair of first and second plates (30, 30′, 30″; 32, 32′, 32″) at respective opposite ends thereof. A first fuel cell has a first plate (30, 30′, 30″) in engagement with a second plate (32, 32′, 32″) of a second fuel cell adjacent to the first fuel cell. A slip mitigation arrangement (50, 50′, 50″) between at least one of the pairs of the first and second fuel cells comprises first and second seats (62, 62′, 62″; 64, 64′, 64″) recessed in the engagement surfaces of the first and second conductive plates respectively, and a key member (60, 60′, 60″) having opposite ends seated in the first and the second recessed seats such that relative movement between the first and the second fuel cells is limited.
대표청구항▼
1. A fuel cell system comprising: a stacked plurality of adjacent fuel cells collectively forming a fuel cell stack, said fuel cells each including a pair of first and second plates at respective opposite ends thereof and an electrolyte therebetween, a first said fuel cell having a first said plate
1. A fuel cell system comprising: a stacked plurality of adjacent fuel cells collectively forming a fuel cell stack, said fuel cells each including a pair of first and second plates at respective opposite ends thereof and an electrolyte therebetween, a first said fuel cell having a first said plate in engagement with a second said plate of a second fuel cell adjacent to said first fuel cell at respective engagement surfaces thereof and including an interfacial seal in mutual engagement with said first plate of said first fuel cell and said second plate of said second fuel cell; anda slip mitigation arrangement between at least one pair of said first and said second fuel cells comprising:a first seat recessed in said engagement surface of said first plate, a second seat recessed in said engagement surface of said second plate, and a key member having opposite ends seated in said first and said second recessed seats such that relative movement between said first and said second fuel cells is reduced, and the key member having an unexpanded cross-sectional geometry smaller than cross-sectional geometry of said first and said second seats and an uncompressed length greater than a combined depth of said first and said second seats; andwherein the first and second plates at opposite ends of a fuel cell are formed of a material having a first relative hardness, the key member is formed of a material having a second relative hardness equal to or less than said first relative hardness, and said interfacial seal is formed of a material having a third relative hardness less than both said first and said second relative hardnesses. 2. A fuel cell system comprising: a stacked plurality of adjacent fuel cells collectively forming a fuel cell stack, said fuel cells each including a pair of first and second plates at respective opposite ends thereof and an electrolyte therebetween, a first said fuel cell having a first said plate in engagement with a second said plate of a second fuel cell adjacent to said first fuel cell at respective engagement surfaces thereof; anda slip mitigation arrangement between at least one pair of said first and said second fuel cells comprising:a first seat recessed in said engagement surface of said first plate, a second seat recessed in said engagement surface of said second plate, and a key member having opposite ends seated in said first and said second recessed seats;said first and said second seats respectively recessed in the engagement surfaces of said first and said second plates of said first and said second fuel cells having respective cross-sectional geometries, and the key member being longitudinally compressible and transversely expandable and having an unexpanded cross-sectional geometry smaller than the cross-sectional geometry of said first and said second seats and an uncompressed length greater than the combined depths of said first and said second seats, and wherein the key member is longitudinally compressed and expanded transversely into firm engagement with the sides of said first and said second seats when the fuel cell stack is fully assembled such that relative movement between said first and said second fuel cells is reduced. 3. A method for minimizing slip due to shear loading between adjacent fuel cells in a stack of plural fuel cells, said fuel cells each including a pair of first and second plates at respective opposite ends thereof and an electrolyte therebetween, a first said fuel cell having a first said plate for engagement with a second said plate of a second fuel cell adjacent to said first fuel cell at respective engagement surfaces thereof, the method comprising: providing a first seat recessed in said engagement surface of said first plate;providing a second seat recessed in said engagement surface of said second plate; said first and said second seats having respective cross-sectional geometries;providing a key member disposed in one of said first and said second seats prior to stack assembly, said key member having a cross-sectional geometry similar to but smaller than the cross-sectional geometries of said first and said second seats and having a length greater than the combined depths of said first and said second seats; andassembling and longitudinally compressing said fuel cells in said stack to bring said fuel cells into engagement with one another and correspondingly longitudinally compress said key member and cause transverse expansion thereof into firm engagement with the sides of the first and second seats to thereby reduce any movement between said fuel cells.
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이 특허에 인용된 특허 (5)
Gibb Peter (Coquitlam CAX) Voss Henry H. (West Vancouver CAX) Schlosser Wolfgang (Burnaby CAX) Pow Eric G. (Vancouver CAX), Electrochemical fuel cell stack with compression mechanism extending through interior manifold headers.
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