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    • 3. 发明申请
    • COMPOSITE SEPARATOR FOR POLYMER ELECTROLYTE MEMBRANE FUEL CELL AND METHOD FOR MANUFACTURING THE SAME
    • 用于聚合物电解质膜燃料电池的复合分离器及其制造方法
    • US20110129737A1
    • 2011-06-02
    • US12823855
    • 2010-06-25
    • Dai Gil LeeHa Na YuJun Woo LimSae Hoon KimJung Do SuhByung Ki Ahn
    • Dai Gil LeeHa Na YuJun Woo LimSae Hoon KimJung Do SuhByung Ki Ahn
    • H01M2/16B32B38/04
    • H01M8/0228B32B37/0053B32B38/0004B32B2305/076B32B2309/04B32B2309/105B32B2309/12B32B2313/04B32B2457/18H01M8/0213H01M8/0221H01M8/0226H01M8/0234H01M8/0239H01M8/0245H01M2008/1095Y02E60/50Y02P70/56Y10T156/108
    • The present invention provides a composite separator for a polymer electrolyte membrane fuel cell (PEMFC) and a method for manufacturing the same, in which a graphite foil prepared by compressing expanded graphite is stacked on a carbon fiber-reinforced composite prepreg or a mixed solution prepared by mixing graphite flake and powder with a resin solvent is applied to the cured composite prepreg such that a graphite layer is integrally molded on the outermost end of the separator.For this purpose, the present invention provides a method for manufacturing a composite separator for a polymer electrolyte membrane fuel cell, the method including: preparing a prepreg as a continuous carbon fiber-reinforced composite and a graphite foil; allowing the cut prepreg and graphite foil to pass through a stacking/compression roller to be compressed; allowing the prepreg in which the graphite foil is integrally stacked to be heated and pressed by a hot press such that hydrogen, air, and coolant flow fields are formed or to pass through a hot roller to be formed into a separator; removing unnecessary portions from the heated and pressed separator using a trim cutter; and post-curing the thus formed separator, wherein the graphite foil may be stacked on the prepreg as the continuous carbon fiber-reinforced composite such that a graphite layer is integrally formed with the prepreg.
    • 本发明提供了一种用于聚合物电解质膜燃料电池(PEMFC)的复合隔板及其制造方法,其中通过压缩膨胀石墨制备的石墨箔层叠在碳纤维增强复合材料预浸料或制备的混合溶液 通过将石墨片和粉末与树脂溶剂混合施加到固化的复合预浸料上,使得石墨层一体地模制在隔板的最外端。 为此,本发明提供一种高分子电解质膜燃料电池用复合隔膜的制造方法,其特征在于,包括:将预浸料作为连续碳纤维增强复合体和石墨箔制备; 允许切片预浸料和石墨箔通过堆叠/压缩辊进行压缩; 允许通过热压机将石墨箔整体堆叠的预浸料加热和压制,使得形成氢气,空气和冷却剂流场,或者通过待形成的隔热膜的热辊; 使用修剪刀从加热和压制的分离器去除不需要的部分; 并对由此形成的隔板进行后固化,其中石墨箔可以作为连续碳纤维增强复合材料堆叠在预浸料上,使得石墨层与预浸料一体形成。
    • 6. 发明申请
    • Fuel cell stack assembly
    • 燃料电池堆组件
    • US20090226793A1
    • 2009-09-10
    • US12218113
    • 2008-07-11
    • Jung Do SuhDai Gil Lee
    • Jung Do SuhDai Gil Lee
    • H01M2/02
    • H01M8/248
    • A fuel cell stack assembly includes a wire for assembling a fuel cell stack, which can maintain a constant surface pressure on the fuel cell by utilizing a wide elasticity range of the wire and ensure a high fastening force even with a small amount of material, thus making the fuel cell lightweight and maximizing the package efficiency. For this purpose, the present invention provides a fuel cell stack assembly including: at least one wire for fastening end plates mounted on both end portions of a fuel cell stack; at least one tensioner mounted on at least one portion of the top surface of an upper end plate; at least one tension guide each of which includes a central guide for guiding up and down movement of the tensioner and surrounds the tensioner; at least one upper guide mounted on both sides of the top surface of the upper end plate for guiding the wire; and at least one lower guide mounted on both sides of the bottom surface of a lower end plate for guiding the wire.
    • 燃料电池堆组件包括用于组装燃料电池堆的电线,其可以通过利用电线的宽弹性范围来保持燃料电池上的恒定表面压力,并且即使使用少量材料也确保高的紧固力,因此 使得燃料电池重量轻并且使封装效率最大化。 为此,本发明提供了一种燃料电池堆组件,包括:用于紧固安装在燃料电池堆的两端部上的端板的至少一根电线; 安装在上端板的上表面的至少一部分上的至少一个张紧器; 至少一个张力导向器,每个张力导向件包括用于引导张紧器的上下运动并围绕张紧器的中心导向件; 至少一个上引导件,其安装在所述上端板的顶表面的两侧以引导所述导线; 以及至少一个下引导件,其安装在用于引导所述导线的下端板的底表面的两侧。
    • 7. 发明申请
    • Apparatus and Method for Manufacturing Spherical Bearing Assembly
    • 制造球轴承组件的装置和方法
    • US20080289183A2
    • 2008-11-27
    • US11976373
    • 2007-10-24
    • Dai-Gil LEEByung-Chul KIM
    • Dai-Gil LEEByung-Chul KIM
    • B21D53/10B29C45/14
    • F16C23/04B29C33/60B29C33/62B29C43/18B29C43/36B29C70/48B29C70/86B29C2043/029B29C2043/3615B29C2043/3621B29K2105/06B29L2031/04B29L2031/7096F16C33/201Y10T29/49648
    • A spherical bearing assembly manufacturing apparatus and its manufacturing method is disclosed. The spherical bearing that houses and supports a spherical journal is manufactured with fiber reinforced composite as a material. The spherical bearing assembly manufacturing apparatus consists of a mold, plunger, and first and second grippers. The mold has a cavity for molding fiber reinforced composite into a spherical bearing, and a first press surface for supporting fiber reinforced composite, and a first guide hole communicated with the cavity. The plunger has a second press surface for molding the fiber reinforced composite housed in the cavity into a spherical bearing, and a second guide hole formed in the center of the second press surface. In the first gripper is formed a hole in which the edge on one end of the spherical journal is housed. In the second gripper is formed a recessed portion in which the edge on the other end of the spherical journal is housed.
    • 公开了一种球面轴承组件的制造装置及其制造方法。 采用纤维增强复合材料作为材料制造住房和支撑球形轴颈的球面轴承。 球面轴承组件制造装置包括模具,柱塞以及第一和第二夹持器。 模具具有用于将纤维增强复合材料成型为球面轴承的空腔和用于支撑纤维增强复合材料的第一压制表面和与腔体连通的第一引导孔。 柱塞具有第二挤压表面,用于将容纳在空腔中的纤维增强复合材料成型为球面轴承,以及形成在第二挤压表面的中心的第二引导孔。 在第一夹持器中形成有一个孔,其中容纳球形轴颈的一端上的边缘。 在第二夹持器中形成有凹入部分,其中容纳球形轴颈另一端的边缘。