会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 2. 发明申请
    • Fuel cell seal and fuel cell
    • 燃料电池密封和燃料电池
    • US20080248357A1
    • 2008-10-09
    • US11812542
    • 2007-06-20
    • Takahiro TeradaYasutada NakagawaYuji SasakiYuichi Yoshida
    • Takahiro TeradaYasutada NakagawaYuji SasakiYuichi Yoshida
    • H01M2/08H01M8/10
    • H01M8/0276H01M8/0284H01M2008/1095
    • A fuel cell seal includes: a first seal member having a first protrusion in a major surface thereof; and a second seal member having a recess in a major surface thereof. The recess is engageable with at least part of the first protrusion. A fuel cell includes: a solid electrolytic film; a first and second seal member placed on both major surface sides of the solid electrolytic film, respectively, and opposed to each other; a fuel electrode placed on a side of the first seal member, the side being opposite to the solid electrolytic film; and an oxidizer electrode placed on a side of the second seal member, the side being opposite to the solid electrolytic film. One of the first and the second seal members has a first protrusion. Other of the first and the second seal members has a recess engageable with at least part of the first protrusion. The first and the second seal members are engaged with each other across the solid electrolytic film.
    • 燃料电池密封件包括:第一密封件,其主表面具有第一突起; 以及在其主表面上具有凹部的第二密封构件。 所述凹部可与所述第一突起的至少一部分接合。 燃料电池包括:固体电解膜; 分别放置在固体电解质膜的两个主表面侧并彼此相对的第一和第二密封构件; 设置在所述第一密封部件的与所述固体电解质膜相反的一侧的燃料电极; 以及放置在第二密封构件的一侧的氧化剂电极,该固体电解膜的一侧相对。 第一密封构件和第二密封构件中的一个具有第一突起。 第一密封构件和第二密封构件中的另一个具有可与第一突起的至少一部分接合的凹部。 第一密封构件和第二密封构件在固体电解质膜上彼此接合。
    • 7. 发明申请
    • FUEL CELL
    • 燃料电池
    • US20090081486A1
    • 2009-03-26
    • US11915631
    • 2006-05-26
    • Shinya HigashiYasutada NakagawaTakahiro TeradaYuuichi Yoshida
    • Shinya HigashiYasutada NakagawaTakahiro TeradaYuuichi Yoshida
    • H01M8/00
    • H01M8/04201H01M8/023H01M8/0258H01M8/0263H01M8/04186H01M8/1011Y02E60/523
    • A fuel cell according to the invention includes: a fuel supply section including a diffusion section configured to diffuse fuel supplied from a fuel supply port in an in-plane direction and an aperture plate having a plurality of apertures configured to emit the fuel from the diffusion section; an oxygen introducing section configured to introduce oxygen from outside; and a power generating section configured to generate electric power by the fuel supplied from the fuel supply section and oxygen supplied from the oxygen introducing section. Aperture ratio of the plurality of apertures provided in the aperture plate has a substantially radial distribution in the in-plane direction such that the aperture ratio is small near the fuel supply port and increases with distance from the fuel supply port. This enables provision of a fuel cell of the spontaneous respiration type where fuel can be uniformly supplied to achieve efficient power generation.
    • 根据本发明的燃料电池包括:燃料供应部分,其包括扩散部分,其被配置为扩散从燃料供给口在面内方向供应的燃料;以及孔板,其具有多个孔,其被配置为从所述扩散发射燃料 部分; 氧气引入部,其构造成从外部引入氧; 以及发电部,被配置为通过从所述燃料供给部供给的燃料和从所述氧气导入部供给的氧来发电。 设置在孔板中的多个孔的孔径比在面内方向上具有基本上径向的分布,使得在燃料供给口附近开口率小,并且随着与燃料供给口的距离而增加。 这能够提供能够均匀地供应燃料以实现有效发电的自发呼吸型燃料电池。
    • 8. 发明授权
    • Fine processing method, fine processing apparatus, and recording medium with fine processing program recorded thereon
    • 精加工方法,精细加工装置以及记录有精加工程序的记录介质
    • US08691123B2
    • 2014-04-08
    • US13204844
    • 2011-08-08
    • Yasutada NakagawaTakuya KonoIkuo YonedaMasayuki Hatano
    • Yasutada NakagawaTakuya KonoIkuo YonedaMasayuki Hatano
    • B29C43/58
    • G05B19/418B82Y10/00B82Y40/00G03F7/0002G03F7/16
    • According to one embodiment, a fine processing method includes determining a resist amount required for each first region of a pattern formation surface and a total amount of resist. The method include dividing the total amount of resist by a volume of one resist drop to determine the resist drops total number. The method include determining a provisional position for the resist drop of the total number. The method include assigning the each first region to nearest one resist drop, and partitioning again the pattern formation surface into second regions assigned to the each resist drop. The method include determining a divided value by dividing the volume of the one resist drop by the required total amount of resist determined. The method include finalizing a final position of the each resist drop, if a distribution of the divided value in the pattern formation surface falls within a target range.
    • 根据一个实施例,精细处理方法包括确定图案形成表面的每个第一区域和抗蚀剂总量所需的抗蚀剂量。 该方法包括将抗蚀剂的总量除以一个抗蚀剂滴的体积以确定抗蚀剂滴数总数。 该方法包括确定总数的抗蚀剂落下的临时位置。 该方法包括将每个第一区域分配给最接近的一个抗蚀剂层,以及再次将图案形成表面分割成分配给每个抗蚀剂层的第二区域。 该方法包括通过将一个抗蚀剂液滴的体积除以所需的抗蚀剂总量确定分割值。 如果图案形成表面中的分割值的分布落在目标范围内,则该方法包括确定每个抗蚀剂液滴的最终位置。