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    • 7. 发明授权
    • Filter-press type electrolyzer for water
    • 压滤式电解槽水
    • US4451347A
    • 1984-05-29
    • US338533
    • 1982-01-11
    • Heinz Wullenweber
    • Heinz Wullenweber
    • C25B9/00C25B9/08C25B9/20C25B1/08C25B1/10C25B1/12
    • C25B9/206C25B1/12Y02E60/366
    • This invention relates to a filter press type electrolyzer for water comprising pressure-resistant decomposing cells, each of which contains an electrolyte chamber, which is divided by a diaphragm into two electrode compartments. The decomposing cells are enclosed on the outside by cell frames, which are electrically insulated from each other by an interposed sealing ring. On the sides, each cell is separated from the adjacent cells by metallic cell-separating partitions. At least three ducts extend through the cells and respectively serve to supply electrolyte and to discharge hydrogen and oxygen. Each duct is composed of sections. The sections of the ducts consist of sleeves, which are resistant to the operating conditions and insulated from each other and extend through openings in the cell-separating partitions. These openings are lined with metal rings. In accordance with the invention, the metal rings are secured to the cell-separating partitions by a gas- and liquid-tight welded joint and the sleeves are slidably fitted in the metal rings.
    • 本发明涉及一种用于水的压滤式电解槽,其包括耐压分解槽,每个压电电解槽包含一个由隔膜分成两个电极室的电解液室。 分解的电池通过电池框被封闭在外部,电池框通过插入的密封环彼此电绝缘。 在两侧,通过金属细胞分离分隔将每个细胞与相邻细胞分离。 至少三个管道延伸穿过细胞并分别用于提供电解质和排出氢气和氧气。 每个管道由部分组成。 管道的部分由袖子组成,其耐操作条件并彼此绝缘并延伸通过细胞分离隔板中的开口。 这些开口衬有金属环。 根据本发明,金属环通过气密和液密的焊接接头固定到电池分离隔板上,并且套筒可滑动地装配在金属环中。
    • 9. 发明授权
    • Activated electrodes
    • 活性电极
    • US4584065A
    • 1986-04-22
    • US644829
    • 1984-08-27
    • Jiri DivisekHeinz SchmitzHeinz Wullenweber
    • Jiri DivisekHeinz SchmitzHeinz Wullenweber
    • C25B11/04C25B11/00C25B11/06C25D1/08C25D1/20C25D5/48
    • C25B11/00
    • A process for the manufacture of thin activated electrodes including a base metal, which can be iron, cobalt or nickel, with a good adhering active surface layer. Both the base metal and the surface layer are galvanically sequentially deposited as separate layers on a removable electrically-conductive carrier. The surface layer is deposited as an activatable alloy including the base metal and a leachable metal, particularly zinc. The galvanizing deposited layers are subsequently separated as a unit from the carrier. The alloy is activated by leaching the leachable metal therefrom before, during or after separation of the carrier. Two activatable layers of alloy can be deposited on the carrier with a layer of the base metal deposited between the alloy layers.
    • 用于制造薄的活化电极的方法,其包括可以是铁,钴或镍的贱金属,具有良好的附着活性表面层。 基底金属和表面层均以电流顺序地沉积在可移除的导电载体上作为单独的层。 表面层作为可活化的合金沉积,包括贱金属和可浸出的金属,特别是锌。 随后将镀锌沉积层作为单元与载体分离。 通过在载体分离之前,期间或之后从其中浸出可浸出的金属来活化合金。 两个可活化的合金层可以沉积在载体上,一层沉积在合金层之间的基体金属。