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    • 3. 发明申请
    • FUEL CELL
    • 燃料电池
    • US20120129074A1
    • 2012-05-24
    • US13388221
    • 2009-12-01
    • Takeshi NagasawaKazuhiro WatanabeTakuji NaganoKazutaka IlsukaRie TakamiNaotoshi Miyamoto
    • Takeshi NagasawaKazuhiro WatanabeTakuji NaganoKazutaka IlsukaRie TakamiNaotoshi Miyamoto
    • H01M8/10
    • H01M8/04089H01M8/0206H01M8/0247H01M8/0267H01M8/0271H01M8/0273H01M8/0276H01M8/04029H01M2008/1095
    • A fuel cell comprises a membrane electrode assembly including an electrolyte membrane and electrode layers arranged on each surface of the electrolyte membrane respectively, and first and second separators that are formed by processing a metal plate and are arranged so as to sandwich the membrane electrode assembly. At a position outside a position facing the membrane electrode assembly, the separators have an opening that constitutes a reaction gas flow path that is roughly perpendicular to a surface direction of the membrane electrode assembly. The first separator has a folded back part that is formed by folding back at least part of the metal plate of the position at which the opening is formed toward the membrane electrode assembly side along a boundary line on the membrane electrode assembly side of the opening as a fold line. The folded back part has a communication hole that allows communication between an internal flow path space and the reaction gas flow path, the internal flow path space being a space communicated with an end surface of the membrane electrode assembly and being formed between the folded back part and the first separator. The second separator does not have the folded back part.
    • 燃料电池包括分别包括电解质膜和布置在电解质膜的每个表面上的电极层的膜电极组件,以及通过加工金属板形成并且被布置成夹住膜电极组件的第一和第二隔板。 在面向膜电极组件的位置之外的位置处,分离器具有构成大致垂直于膜电极组件的表面方向的反应气体流动路径的开口。 第一分离器具有折回部,其通过沿着开口的膜电极组件侧的边界线向开口形成开口的位置的至少一部分的膜电极组件侧折回而形成, 折线。 折回部具有能够使内部流路空间与反应气体流路连通的连通孔,内部流路空间与膜电极接合体的端面连通并形成在折回部之间 和第一分离器。 第二分离器没有折回部分。
    • 4. 发明授权
    • Method of manufacturing fuel cell, fuel cell manufacturing device, and fuel cell
    • 制造燃料电池,燃料电池制造装置和燃料电池的方法
    • US08663865B2
    • 2014-03-04
    • US13258224
    • 2010-11-30
    • Kazuhiro WatanabeTakuji Nagano
    • Kazuhiro WatanabeTakuji Nagano
    • H01M2/20H01M8/00H01M8/24
    • H01M8/242H01M8/2404H01M8/2475H01M8/248H01M8/2483Y02P70/56
    • A method of manufacturing a fuel cell includes the steps of: (a) providing an extendable stacking reference member structured to extend and contract in a stacking direction; (b) arranging the stacking reference member in an extended setting via a first opening, such that one end of the stacking reference member is located inside a casing body and the other end of the stacking reference member is located outside the casing body; (c) after the step (b), mounting a plurality of cells of a cell laminate on the stacking reference member in a direction from inside to outside of the casing body; (d) contracting the stacking reference member and compressing the mounted cell laminate in the stacking direction, so as to locate the stacking reference member and the cell laminate inside the casing body of the fuel cell; and (e) after the step (d), attaching an end wall member to a first wall member to close the first opening and maintaining the cell laminate under a load in the stacking direction.
    • 一种制造燃料电池的方法包括以下步骤:(a)提供构造为在堆叠方向上延伸和收缩的可扩展堆叠参考构件; (b)通过第一开口将堆放参考构件布置在扩展设置中,使得堆叠基准构件的一端位于壳体内部,并且堆叠基准构件的另一端位于壳体的外部; (c)在步骤(b)之后,将多个电池层叠体的电池从壳体的内部向外侧安装在堆叠基准部件上; (d)收起层叠基准构件,并在堆叠方向压缩安装的电池层压体,以将堆叠基准构件和电池层叠体定位在燃料电池的壳体内; 和(e)在步骤(d)之后,将端壁构件附接到第一壁构件以封闭第一开口并且将电池层叠体保持在堆叠方向上的负载。
    • 5. 发明授权
    • Fuel cell having a separator with a folded back part
    • 燃料电池具有带折叠部分的隔板
    • US08450024B2
    • 2013-05-28
    • US13388221
    • 2009-12-01
    • Takeshi NagasawaKazuhiro WatanabeTakuji NaganoKazutaka IlsukaRie TakamiNaotoshi Miyamoto
    • Takeshi NagasawaKazuhiro WatanabeTakuji NaganoKazutaka IlsukaRie TakamiNaotoshi Miyamoto
    • H01M8/10
    • H01M8/04089H01M8/0206H01M8/0247H01M8/0267H01M8/0271H01M8/0273H01M8/0276H01M8/04029H01M2008/1095
    • A fuel cell comprises a membrane electrode assembly including an electrolyte membrane and electrode layers arranged on each surface of the electrolyte membrane respectively, and first and second separators that are formed by processing a metal plate and are arranged so as to sandwich the membrane electrode assembly. At a position outside a position facing the membrane electrode assembly, the separators have an opening that constitutes a reaction gas flow path that is roughly perpendicular to a surface direction of the membrane electrode assembly. The first separator has a folded back part that is formed by folding back at least part of the metal plate of the position at which the opening is formed toward the membrane electrode assembly side along a boundary line on the membrane electrode assembly side of the opening as a fold line. The folded back part has a communication hole that allows communication between an internal flow path space and the reaction gas flow path, the internal flow path space being a space communicated with an end surface of the membrane electrode assembly and being formed between the folded back part and the first separator. The second separator does not have the folded back part.
    • 燃料电池包括分别包括电解质膜和布置在电解质膜的每个表面上的电极层的膜电极组件,以及通过加工金属板形成并且被布置成夹住膜电极组件的第一和第二隔板。 在面向膜电极组件的位置之外的位置处,分离器具有构成大致垂直于膜电极组件的表面方向的反应气体流动路径的开口。 第一分离器具有折回部,其通过沿着开口的膜电极组件侧的边界线向开口形成开口的位置的至少一部分的膜电极组件侧折回而形成, 折线。 折回部具有能够使内部流路空间与反应气体流路连通的连通孔,内部流路空间与膜电极接合体的端面连通并形成在折回部之间 和第一分离器。 第二分离器没有折回部分。
    • 6. 发明申请
    • METHOD OF MANUFACTURING FUEL CELL, FUEL CELL MANUFACTURING DEVICE, AND FUEL CELL
    • 制造燃料电池,燃料电池制造装置和燃料电池的方法
    • US20120264032A1
    • 2012-10-18
    • US13258224
    • 2010-11-30
    • Kazuhiro WatanabeTakuji Nagano
    • Kazuhiro WatanabeTakuji Nagano
    • H01M8/24H01M8/02
    • H01M8/242H01M8/2404H01M8/2475H01M8/248H01M8/2483Y02P70/56
    • A method of manufacturing a fuel cell includes the steps of: (a) providing an extendable stacking reference member structured to extend and contract in a stacking direction; (b) arranging the stacking reference member in an extended setting via a first opening, such that one end of the stacking reference member is located inside a casing body and the other end of the stacking reference member is located outside the casing body; (c) after the step (b), mounting a plurality of cells of a cell laminate on the stacking reference member in a direction from inside to outside of the casing body; (d) contracting the stacking reference member and compressing the mounted cell laminate in the stacking direction, so as to locate the stacking reference member and the cell laminate inside the casing body of the fuel cell; and (e) after the step (d), attaching an end wall member to a first wall member to close the first opening and maintaining the cell laminate under a load in the stacking direction.
    • 一种制造燃料电池的方法包括以下步骤:(a)提供构造为在堆叠方向上延伸和收缩的可扩展堆叠参考构件; (b)通过第一开口将堆放参考构件布置在扩展设置中,使得堆叠基准构件的一端位于壳体内部,并且堆叠基准构件的另一端位于壳体的外部; (c)在步骤(b)之后,将多个电池层叠体的电池从壳体的内部向外侧安装在堆叠基准部件上; (d)收起层叠基准构件,并在堆叠方向压缩安装的电池层压体,以将堆叠基准构件和电池层叠体定位在燃料电池的壳体内; 和(e)在步骤(d)之后,将端壁构件附接到第一壁构件以封闭第一开口并且将电池层叠体保持在堆叠方向上的负载。