Electrochemical cell with a direct connection between a feedthrough pin and an electrode stack
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H01M-006/46
H01M-002/26
H01M-002/06
H01M-010/04
H01M-010/0585
출원번호
US-0913079
(2010-10-27)
등록번호
US-8841020
(2014-09-23)
발명자
/ 주소
Viavattine, Joseph
출원인 / 주소
Medtronic, Inc.
인용정보
피인용 횟수 :
0인용 특허 :
7
초록▼
A battery comprises a battery case forming a substantially sealed enclosure and an electrode stack within the enclosure. The electrode stack includes a first set of electrode elements and a second set of electrode elements. The electrode elements in the second set alternate with the electrode elemen
A battery comprises a battery case forming a substantially sealed enclosure and an electrode stack within the enclosure. The electrode stack includes a first set of electrode elements and a second set of electrode elements. The electrode elements in the second set alternate with the electrode elements in the first set within the electrode stack. A conductive tab extends from each of the electrode elements in the first and second sets, wherein each of the conductive tabs in the first set forms an aperture, wherein the apertures are coincident with each other. The battery further comprises a feedthrough including a feedthrough pin extending through the battery case and through each of the coincident apertures, wherein the feedthrough pin serves as a positive terminal for the battery.
대표청구항▼
1. A battery comprising: a battery case forming a substantially sealed enclosure;an electrode stack within the enclosure, the electrode stack including a first set of plate electrodes and a second set of plate electrodes, the plate electrodes in the second set alternating with the plate electrodes i
1. A battery comprising: a battery case forming a substantially sealed enclosure;an electrode stack within the enclosure, the electrode stack including a first set of plate electrodes and a second set of plate electrodes, the plate electrodes in the second set alternating with the plate electrodes in the first set within the electrode stack and one or more separators positioned between each pair of adjacent plate electrodes in the first and second set of plate electrodes,wherein the first set of plate electrodes combine with the second set of plate electrodes to form at least one voltaic cell, the first set of plate electrodes forming a cathode of the voltaic cell and the second set of plate electrodes forming an anode of the voltaic cell,wherein the plate electrodes in the first and second sets of plate electrodes each includes a conductive substrate serving as a current collector, and an electrode material disposed over the current collector, wherein the conductive substrate includes a conductive tab that does have the electrode material coating,wherein the electrode stack includes a first set of one or more spacers are positioned between each adjacent tab of the conductive tabs in the first set of plate electrodes,wherein the electrode stack further includes a second set of one or more spacers are positioned between each adjacent tab of the in the first set of plate electrodes;wherein the conductive tabs in the first set of plate electrodes and the first set of spacers are aligned to form a first coincident aperture that extends through the first set of plate electrodes and the first set of spacers,wherein the conductive tabs in the second set of plate electrodes and the second set of spacers are aligned to form a second coincident aperture that extends through the second set of plate electrodes and the second set of spacers,wherein the conductive tabs in the first set of plate electrodes and the first set of spacers are further aligned to form a third coincident aperture that extends through the first set of plate electrodes and the first set of spacers,wherein the conductive tabs in the second set of plate electrodes and the second set of spacers are further aligned to form a fourth coincident aperture that extends through the second set of plate electrodes and the second set of spacers; anda first feedthrough including a first feedthrough pin extending through the battery case and through the first coincident aperture, wherein the first feedthrough pin serves as a positive terminal for the battery; anda second feedthrough including a second feedthrough pin extending through the battery case and through the second coincident aperture, wherein the second feedthrough pin serves as a negative terminal for the battery,wherein the first coincident aperture and the third coincident aperture combine to facilitate alignment of the conductive tabs in the first set of plate electrodes and the spacers in the first set of spacers during assembly of the electrode stack,wherein the second coincident aperture and the fourth coincident aperture combine to facilitate alignment of the conductive tabs in the second set of plate electrodes and the spacers in the second set of spacers during assembly of the electrode stack,wherein the third coincident aperture and the first coincident aperture are orientated differently in the plate electrodes of the first set of plate electrodes than the fourth coincident aperture and the second coincident aperture in the plate electrodes of the second set of plate electrodes to prevent interchanging plate electrodes of the first set of plate electrodes with plate electrodes of the second set of plate electrodes within the electrode stack during assembly of the electrode stack,wherein the spacers in the first set of spacers are interchangeable with the spacers in the second set of spacers for assembly of the electrode stack. 2. The battery of claim 1, wherein the conductive tabs in the first set of plate electrodes and the first set of spacers are further aligned to form a fifth coincident aperture that extends through the first set of plate electrodes and the first set of spacers,wherein the conductive tabs in the second set of plate electrodes and the second set of spacers are further aligned to form a sixth coincident aperture that extends through the second set of plate electrodes and the second set of spacers,wherein the third coincident aperture and the fifth coincident aperture combine to facilitate alignment of the conductive tabs in the first set of plate electrodes and the spacers in the first set of spacers during assembly of the electrode stack, andwherein the fourth coincident aperture and the sixth coincident aperture combine to facilitate alignment of the conductive tabs in the second set of plate electrodes and the spacers in the second set of spacers during assembly of the electrode stack. 3. A battery comprising: a battery case forming a substantially sealed enclosure;an electrode stack within the enclosure, the electrode stack including a first set of plate electrodes and a second set of plate electrodes, the plate electrodes in the second set alternating with the plate electrodes in the first set within the electrode stack,wherein the first set of plate electrodes combine with the second set of plate electrodes to form at least one voltaic cell, the first set of plate electrodes forming a cathode of the voltaic cell and the second set of plate electrodes forming an anode of the voltaic cell,wherein the plate electrodes in the first and second sets of plate electrodes each includes a conductive substrate serving as a current collector, and an electrode material disposed over the current collector, wherein the conductive substrate includes a conductive tab that does have the electrode material coating,wherein the conductive tabs in the first set of plate electrodes are aligned to form a first coincident aperture that extends through the first set of plate electrodes,wherein the conductive tabs in the second set of plate electrodes are aligned to form a second coincident aperture that extends through the second set of plate electrodes,wherein the conductive tabs in the first set of plate electrodes are further aligned to form a third coincident aperture that extends through the first set of plate electrodes,wherein the conductive tabs in the second set of plate electrodes are further aligned to form a fourth coincident aperture that extends through the second set of plate electrodes; anda feedthrough including a feedthrough pin extending through the battery case and through the first coincident aperture, wherein the feedthrough pin serves as a positive terminal for the battery; anda conductive element extending through the second coincident aperture, wherein the conductive element serves to electrically connect the conductive tabs in the second set of plate electrodes at the negative potential for the battery,wherein the first coincident aperture and the third coincident aperture combine to facilitate alignment of the conductive tabs in the first set of plate electrodes during assembly of the electrode stack,wherein the second coincident aperture and the fourth coincident aperture combine to facilitate alignment of the conductive tabs in the second set of plate electrodes during assembly of the electrode stack,wherein the third coincident aperture and the first coincident aperture are orientated differently in the plate electrodes of the first set of plate electrodes than the fourth coincident aperture and the second coincident aperture in the plate electrodes of the second set of plate electrodes to prevent interchanging plate electrodes of the first set of plate electrodes with plate electrodes of the second set of plate electrodes within the electrode stack during assembly of the electrode stack. 4. The battery of claim 3, wherein the feedthrough is a first feedthrough, wherein the feedthrough pin is a first feedthrough pin,wherein the battery further comprises a second feedthrough that includes the conductive element extending through the battery case, wherein the conductive element is a second feedthrough pin, andwherein the second feedthrough pin serves as a negative terminal for the battery.
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