Secondary battery module having connection breal off mechanism in case of abnormal battery operation
    1.
    发明授权
    Secondary battery module having connection breal off mechanism in case of abnormal battery operation 有权
    二次电池模块在电池异常操作的情况下具有连接断开机构

    公开(公告)号:US08080328B2

    公开(公告)日:2011-12-20

    申请号:US11942236

    申请日:2007-11-19

    IPC分类号: H01M2/00

    摘要: The present invention provides a secondary battery module capable of securing safety at a time of abnormal battery operations by using a film-type secondary battery. A module 30 is provided with 8 pieces of single batteries 20 each using a laminate film as its battery container. The 8 pieces of single batteries are disposed in a layer-stacked state. A conducting plate 17 is placed in a manner to face one single battery 20a disposed at one end of the 8 pieces of the single batteries 20. A pushing member 14 is formed between the single battery 20a and conducting plate 17. A conducting plate 18 is disposed on a side of the conducting plate 17 opposite to the pushing member 14. The pushing member 14 has projected portions 14b. The conducting member 17 has through-holes 17a formed so that the projected portions are able to pass through. The conducting plates 17 and 18 are coupled by a coupling portion 21. When any one of the single batteries 20 and single battery 20a expands at a time of abnormal battery operations, the projected portions pass through the through-holes to break off the coupling at the coupling portion 21.

    摘要翻译: 本发明提供了一种二次电池模块,其能够通过使用薄膜型二次电池来确保在异常电池操作时的安全性。 模块30设置有8个单电池20,每个使用层叠膜作为其电池容器。 8片单电池以层叠状态配置。 导电板17以面对设置在8个单电池20的一端的单个电池20a的方式放置。推动构件14形成在单个电池20a和导电板17之间。导电板18是 设置在与推动构件14相对的导电板17的一侧上。推动构件14具有突出部分14b。 导电构件17具有形成为使得突出部能够通过的通孔17a。 导电板17和18通过耦合部分21耦合。当单个电池20和单个电池20a中的任何一个在电池操作异常时膨胀时,突出部分穿过通孔以断开耦合在 联接部21。

    Sealed cell and method of manufacture thereof
    3.
    发明授权
    Sealed cell and method of manufacture thereof 有权
    密封电池及其制造方法

    公开(公告)号:US08936869B2

    公开(公告)日:2015-01-20

    申请号:US13575060

    申请日:2010-01-29

    IPC分类号: H01M2/02 H01M2/04 H01M2/08

    CPC分类号: H01M2/0413 Y10T29/4911

    摘要: A flange 37b of a cap case 37 is provided with protrusions 37c that, before being swaging, project upward from the flange 37b. When the flange 37b is swaged along an upper surface of the cap 3, the protrusion 37c projects along the upper surface of the cap 3 from the flange 37b toward a center of the cap 3. The cap case 37 is welded to the cap 3 by friction stir welding at a welding portion 37d located at a substantially center of the protrusion 37c. The protrusions 37c are formed approximately in a letter-T shape that is symmetric left and right, and width W2 of a connecting portion 37r in a cap circumferential direction is smaller than the maximum width W1. The rigidity of the connecting portion 37r against deformation is reduced by forming a portion with small width W1 at the connecting portion 37r.

    摘要翻译: 盖壳体37的凸缘37b设置有突出部37c,该突起37c在模锻之前从凸缘37b向上突出。 当凸缘37b沿着帽3的上表面锻造时,凸起37c沿凸缘37b朝向帽3的中心沿帽3的上表面突出。盖壳37通过 在位于突起37c的大致中心处的焊接部37d处的摩擦搅拌焊接。 突起37c大致形成为左右对称的字母T形,并且连接部37r的盖周向的宽度W2小于最大宽度W1。 通过在连接部37r处形成宽度W1小的部分,能够减少连接部37r抵抗变形的刚性。

    SEALED CELL AND METHOD OF MANUFACTURE THEREOF
    4.
    发明申请
    SEALED CELL AND METHOD OF MANUFACTURE THEREOF 有权
    密封电池及其制造方法

    公开(公告)号:US20130022862A1

    公开(公告)日:2013-01-24

    申请号:US13575060

    申请日:2010-01-29

    IPC分类号: H01M2/08 H01M2/04

    CPC分类号: H01M2/0413 Y10T29/4911

    摘要: A flange 37b of a cap case 37 is provided with protrusions 37c that, before being swaging, project upward from the flange 37b. When the flange 37b is swaged along an upper surface of the cap 3, the protrusion 37c projects along the upper surface of the cap 3 from the flange 37b toward a center of the cap 3. The cap case 37 is welded to the cap 3 by friction stir welding at a welding portion 37d located at a substantially center of the protrusion 37c. The protrusions 37c are formed approximately in a letter-T shape that is symmetric left and right, and width W2 of a connecting portion 37r in a cap circumferential direction is smaller than the maximum width W1. The rigidity of the connecting portion 37r against deformation is reduced by forming a portion with small width W1 at the connecting portion 37r.

    摘要翻译: 盖壳体37的凸缘37b设置有突出部37c,该突起37c在模锻之前从凸缘37b向上突出。 当凸缘37b沿着帽3的上表面锻造时,凸起37c沿凸缘37b朝向帽3的中心沿帽3的上表面突出。盖壳37通过 在位于突起37c的大致中心处的焊接部37d处的摩擦搅拌焊接。 突起37c大致形成为左右对称的字母T形,并且连接部37r的盖周向的宽度W2小于最大宽度W1。 通过在连接部37r处形成宽度W1小的部分,能够减少连接部37r抵抗变形的刚性。

    SECONDARY BATTERY MODULE
    5.
    发明申请
    SECONDARY BATTERY MODULE 有权
    二次电池模块

    公开(公告)号:US20080118824A1

    公开(公告)日:2008-05-22

    申请号:US11942236

    申请日:2007-11-19

    IPC分类号: H01M2/20

    摘要: The present invention provides a secondary battery module capable of securing safety at a time of abnormal battery operations by using a film-type secondary battery. A module 30 is provided with 8 pieces of single batteries 20 each using a laminate film as its battery container. The 8 pieces of single batteries are disposed in a layer-stacked state. A conducting plate 17 is placed in a manner to face one single battery 20a disposed at one end of the 8 pieces of the single batteries 20. A pushing member 14 is formed between the single battery 20a and conducting plate 17. A conducting plate 18 is disposed on a side of the conducting plate 17 opposite to the pushing member 14. The pushing member 14 has projected portions 14b. The conducting member 17 has through-holes 17a formed so that the projected portions are able to pass through. The conducting plates 17 and 18 are coupled by a coupling portion 21. When any one of the single batteries 20 and single battery 20a expands at a time of abnormal battery operations, the projected portions pass through the through-holes to break off the coupling at the coupling portion 21.

    摘要翻译: 本发明提供了一种二次电池模块,其能够通过使用薄膜型二次电池来确保在异常电池操作时的安全性。 模块30设置有8个单电池20,每个使用层叠膜作为其电池容器。 8片单电池以层叠状态配置。 导电板17以面对设置在8个单电池20的一端的一个单电池20a的方式放置。 推动构件14形成在单个电池20b和导电板17之间。 导电板18设置在导电板17的与推动部件14相对的一侧。 推动构件14具有突出部分14b。 导电构件17具有形成为使得突出部能够通过的通孔17a。 导电板17和18通过耦合部分21耦合。 当单个电池20和单个电池20a中的任何一个在电池操作异常时膨胀时,突出部分穿过通孔,从而在耦合部分21处断开耦合。