IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0019483
(2000-05-06)
|
우선권정보 |
DE-0029950 (1999-06-29) |
국제출원번호 |
PCT/EP00/04085
(2000-05-06)
|
국제공개번호 |
WO01/03225
(2001-01-11)
|
발명자
/ 주소 |
- Benczur-Uermoessy, Gabor
- Gesierich, Marita
- Ohms, Detlef
- Wiesener, Klaus
|
출원인 / 주소 |
- Deutsche Automobilgesellschaft mbH
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
4 인용 특허 :
22 |
초록
▼
The invention relates to a battery of bipolar stack design, having a plurality of subcells. The battery, the subcells of which comprise in each case two electrodes of different polarity and an electrolyte-impregnated separator, are electronically connected via an electrically conductive connecting w
The invention relates to a battery of bipolar stack design, having a plurality of subcells. The battery, the subcells of which comprise in each case two electrodes of different polarity and an electrolyte-impregnated separator, are electronically connected via an electrically conductive connecting wall between them. All the subcells are connected to a common gas space. The connecting walls between the subcells produce the electrical contact and, at the same time, exclude any electrolytic connection. The electrolyte is fixed in a limited quantity in the electrodes and the separator. The subcells are pressed together by a continuously acting force. The current is discharged on the outer walls of the casing, which are designed as pressure plates.
대표청구항
▼
1. A Ni/metal hydride battery of bipolar stack design, comprising:a plurality of subcells disposed in a gastight casing and pressed against each other, each subcell including:positive and negative electrodes,a separator disposed between the positive and negative electrodes, andelectrolyte fixed in a
1. A Ni/metal hydride battery of bipolar stack design, comprising:a plurality of subcells disposed in a gastight casing and pressed against each other, each subcell including:positive and negative electrodes,a separator disposed between the positive and negative electrodes, andelectrolyte fixed in an amount in the electrodes and separator;an electrically conductive wall positioned between two adjacent subcells, the wall separating the electrolytes of the two adjacent subcells and electrically connecting the electrodes of the two adjacent subcells to one another;a common gas space in communication with the subcells; andtwo pressure plates functioning as current-discharge poles between which the subcells are disposed, wherein the subcells are permanently pressed against one another in an elastic manner, wherein the subcells form a stack, and the gas space is at the center of the stack. 2. The battery according to claim 1, wherein each positive electrode includes a fibrous-structure electrode which is filled with nickel hydroxide active compound. 3. The battery according to claim 1, wherein a side of each positive electrode facing one of the walls is free of insulating covering layers and/or has an addition which increases the conductivity. 4. The battery according to claim 1, wherein each of the negative electrodes has a higher capacitance than the corresponding positive electrode. 5. The battery according to claim 4, wherein the excess of negative capacitance of the negative electrodes is 50 to 150% of the capacitance of the corresponding positive electrode. 6. The battery according to claim 1, wherein each negative electrode includes a metallic substrate material, wherein the substrate material has a woven fabric and/or an expanded metal and/or a three-dimensional metal structure, and wherein a plastic-bonded compound comprising a hydrogen storage alloy is introduced into the substrate material. 7. The battery according to claim 6, wherein the compound faces the separator. 8. The battery according to claim 1, wherein the negative electrodes are pasted asymmetrically. 9. The battery according to claim 1, wherein each negative electrode has a structure which allows gases to pass through it. 10. The battery according to claim 1 further comprising a tie rod disposed in the gas space, the tie rod being used to apply pressure to the stack of subcells. 11. The battery according to claim 1, wherein at least one sealing ring is disposed between each subcell and the common gas space, the at least one sealing ring preventing the passage of electrolyte and allowing the passage of gas. 12. The battery according to claim 11, wherein the at least one sealing ring includes porous polytetrafluoroethylene. 13. The battery according to claim 1, wherein each wall has a hydrophobic coating material on its edges to prevent the electrolyte from leaking through. 14. The battery according to claim 1, wherein each wall has a rubber coating on its edges to prevent the electrolyte from leaking through. 15. The battery according to claim 1, wherein the subcells have a porous felt body, and wherein the felt bodies act as a store for excess electrolyte. 16. The battery according to claim 1, wherein the negative electrode being coated with an active compound on only one side and/or the positive electrode, on a contact side, being free of active compound, electrical contact being effected only by the electrodes, the separators and the walls being pressed onto one another. 17. The battery according to claim 1, wherein the pressure between the components of the individual subcells and the subcells is approximately 10 to 35 N/cm 2 . 18. The battery according to claim 1 further comprising an elastic element provided as a pressure-exerting component for pressing the subcells together. 19. The battery according to claim 1, further comprising two end plates, which are at a fixed distance from one another and exert a pressing force against the subcells. 20. The bat tery according to claim 1, wherein the walls are metallic, and boundary surfaces and/or edges of each wall have a hydrophobic coating that includes one or more bituminous substances of good adhesion. 21. A Ni/metal hydride battery of bipolar stack design, comprising:a plurality of subcells disposed in a gastight casing and pressed against each other, each subcell including:positive and negative electrodes,a separator disposed between the positive and negative electrodes, andelectrolyte fixed in an amount in the electrodes and separator;an electrically conductive wall positioned between two adjacent subcells, the wall separating the electrolytes of the two adjacent subcells and electrically connecting the electrodes of the two adjacent subcells to one another;a common gas space; andtwo pressure plates functioning as current-discharge poles between which the subcells are disposed, wherein the subcells are permanently pressed against one another in an elastic manner, wherein the subcells form a stack having a central passage, and wherein the individual subcells are connected to the central passage by porous connecting elements. 22. The battery according to claim 21, wherein the central passage has a porous tube. 23. The battery according to claim 21, wherein a porous connecting element and/or a porous tube include porous polytetrafluoroethylene. 24. The battery according to claim 21, wherein the central passage has a tie rod for relieving load on end plates. 25. A method for producing a battery, comprising:disposing a plurality of subcells in a gastight casing and pressing the subcells against each other, wherein each subcell has positive and negative electrodes and a separator disposed between the electrodes;impregnating each separator with a predetermined amount of electrolyte;disposing an electrically conductive wall between two adjacent subcells to separate the electrolytes of the two adjacent subcells and to provide an electrical connection between the electrodes of the two adjacent subcells;placing a common gas space in the center of the subcells so that the common gas space is in communication with the subcells;disposing the subcells between two pressure plates functioning as current-discharge poles; andfilling the subcells with electrolyte before the subcells are assembled. 26. A method for producing a battery, comprising:disposing a plurality of subcells in a gastight casing and pressing the subcells against each other, wherein each subcell has positive and negative electrodes and a separator disposed between the electrodes;impregnating each separator with a predetermined amount of electrolyte;disposing an electrically conductive wall between two adjacent subcells to separate the electrolytes of the two adjacent subcells and to provide an electrical connection between the electrodes of the two adjacent subcells;placing a common gas space in the center of the subcells so that the common gas space is in communication with the subcells;disposing the subcells between two pressure plates functioning as current-discharge poles;making each of the positive and negative electrodes, separators and walls in the shape of a plate; andplacing the plates in a stack and pressing the plates together permanently during assembly. 27. A method for producing a battery, comprising:disposing a plurality of subcells in a gastight casing and pressing the subcells against each other, wherein each subcell has positive and negative electrodes and a separator disposed between the electrodes;impregnating each separator with a predetermined amount of electrolyte;disposing an electrically conductive wall between two adjacent subcells to separate the electrolytes of the two adjacent subcells and to provide an electrical connection between the electrodes of the two adjacent subcells;placing a common gas space in the center of the subcells so that the common gas space is in communication with the subcells;disposing the subcells between two pressure plates functioning as current-discharge poles; andevacuating the battery and filling the battery by flushing with hydrogen without pressure.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.