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    • 1. 发明授权
    • Lead-acid battery plates with expanded lead sheet grids
    • 带铅酸铅网格的铅酸蓄电池板
    • US3881952A
    • 1975-05-06
    • US39897573
    • 1973-09-20
    • GEN MOTORS CORP
    • WHEADON ELLIS GWILLMANN NORMAN L
    • H01M4/74H01M35/04
    • H01M4/74
    • A Faure-type lead-acid storage battery plate including a grid expanded from a lead sheet and having a current-collecting header of unexpanded sheet and a reticulated portion expanded, guillotine style, from the sheet into a plurality of pasteretaining cells bounded by skeletal elements and nodes formed during expansion. The skeletal elements and nodes extend in opposite directions through the paste from substantially one face of the plate to the other yet still provide paste continuity from one cell to the next. The nodes are twisted and partially flattened during processing to provide flat sides or plateaus on the nodes which lay in planes parallel to the principal planes of the pasted plate, which plateaus are spaced apart by a distance greater than the thickness of the header but substantially less than twice the thickness of the header.
    • 一种Faure型铅酸蓄电池板,包括从引线片膨胀的网格,并且具有未膨胀片材的集电头部和网状部分膨胀,断头状,从片材到由多个保持电池限定的多个糊料保持单元 骨骼元素和扩张期间形成的节点。 骨骼元件和节点通过糊料从板的基本上一个面到另一个面沿相反方向延伸,但仍然提供从一个单元到下一个单元的粘贴连续性。 在处理过程中,节点被扭曲并部分地变平,以在平行于粘贴板的主平面的平面上的节点上提供平坦的侧面或平台,该平台隔开一定距离大于头部的厚度,但是基本上较小 比标头厚度的两倍。
    • 2. 发明授权
    • Paste-type electrode backing plate for lead-acid battery
    • 用于铅酸电池的PASTE型电极背板
    • US3813300A
    • 1974-05-28
    • US28527872
    • 1972-08-31
    • STORAGE BATTERY CO LTD
    • SHIMA SOKAZAKI IMATSUMURA KKADOWAKI HMUTO E
    • H01M4/64H01M35/04
    • H01M4/64
    • A backing plate for a paste-type electrode to be used for a lead-acid battery, comprising a plastic support or grid for an active conducting material and a current collector, the support being comprised of a frame and a plurality of crosspieces arranged in crisscross fashsion in the space surrounded by the frame, each crosspiece having a thickness less than that of the frame. The crosspieces are disposed so that the surfaces of the crosspieces facing opposite surfaces of the support are sufficiently spaced from the opposite support surfaces for receiving the active conducting material. The number of the crosspieces spaced from one surface of the frame is substantially the same as the number of the crosspieces spaced from the opposite surface of the frame, the crosspieces being substantially uniformly arranged in the space defined by the frame. Also, the crosspieces spaced from on e surface of the frame are disposed in the spaces defined by the crosspieces spaced from the opposite surface of the frame, and the surfaces between the crosspieces and the frame are continuous throughout the entire space within the frame.