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    • 2. 发明授权
    • Electric double-layar capacitor
    • 电双层电容器
    • US6137673A
    • 2000-10-24
    • US234487
    • 1999-01-21
    • Kazuo AndouKoji KotaniTakeshi TaguchiToshiyuki MatsuokaTohru OhtaMitsuru IkeoYoshio Yamamoto
    • Kazuo AndouKoji KotaniTakeshi TaguchiToshiyuki MatsuokaTohru OhtaMitsuru IkeoYoshio Yamamoto
    • H01G9/00H01G9/155H01G4/228
    • H01G9/155Y02E60/13
    • An electric double-layer capacitor includes a plurality of electrode elements each having a current collector, a polarized electrode disposed on a surface thereof, and a strip-like current collecting lead extending from an end of the current collector. The electrode elements are stacked as alternately belonging to respective polarities, and the current collecting leads of the electrode elements are stacked into lead assemblies of the respective polarities. A separator is interposed between the stacked electrode elements, and the lead assemblies are connected respectively to electrode terminals. The lead assemblies of respective polarities serve as respective connectors connected to the electrode terminals. Each of the connectors has a flat joint region as at least a portion thereof. The current collecting leads of each of the lead assemblies are integrally joined to each other by the flat joint region by ultrasonic welding before the connector is connected to the electrode terminal. The connectors are joined to the electrode terminals, respectively, through the respective joint region by electron beam welding or laser beam welding.
    • 电双层电容器包括多个电极元件,每个电极元件均具有集电器,设置在其表面上的极化电极和从集电器的端部延伸的带状集电引线。 电极元件交替地堆叠成各自的极性,并且电极元件的集电引线被堆叠成各极性的引线组件。 在堆叠的电极元件之间插入隔板,并且引线组件分别连接到电极端子。 各极性的引线组件用作连接到电极端子的相应连接器。 每个连接器具有至少一部分的平坦接合区域。 在连接器连接到电极端子之前,每个引线组件的集流引线通过超声波焊接通过平坦接合区域彼此一体地接合。 连接器分别通过电子束焊接或激光束焊接通过相应的接合区域连接到电极端子。
    • 4. 发明申请
    • Fluorescence Measuring Apparatus
    • 荧光测量仪器
    • US20070263210A1
    • 2007-11-15
    • US10579241
    • 2004-10-19
    • Takeshi TaguchiMitsuo Hiramatsu
    • Takeshi TaguchiMitsuo Hiramatsu
    • G01J3/30
    • G01N21/645B01L3/0275G01N2035/1062
    • The present invention relates to a fluorescence measuring apparatus having a structure enabling fluorescence measurement of a microvolume sample to be made readily in a short time. The fluorescence measuring apparatus comprises a pumping light source, a pipette device, a tip, attached to the pipette device, and a fluorescence detection system. The pipette device is arranged from a pipette and a pipette adapter having a pumping light introducing structure for introducing pumping light into an internal space, and a fluorescent sample taken in from a suction inlet is held at a front end of the tip. The pumping light from the pumping light source is irradiated onto the fluorescent sample at the front end of the tip via the internal space of the pipette adapter by means of the pumping light introducing structure, and fluorescence is emitted from the fluorescent sample. The fluorescence detection system receives at least a part of the fluorescence generated as a result of this pumping light irradiation.
    • 本发明涉及具有能够在短时间内容易地进行微量体积样品的荧光测定的结构的荧光测定装置。 荧光测量装置包括抽吸光源,移液管装置,附接到移液管装置的尖端和荧光检测系统。 移液管装置由移液管和移液管适配器配置,其具有用于将泵浦光引入内部空间的泵浦光引入结构,并且从吸入口吸入的荧光样品保持在尖端的前端。 来自泵浦光源的泵浦光通过泵浦光引入结构经由移液管适配器的内部空间在尖端的前端照射到荧光样品上,并从荧光样品发射荧光。 荧光检测系统接收作为该泵浦光照射的结果产生的荧光的至少一部分。
    • 7. 发明授权
    • Electric double-layer capacitor housing
    • 电双层电容器外壳
    • US6137053A
    • 2000-10-24
    • US234486
    • 1999-01-21
    • Kazuo AndouKoji KotaniTakeshi TaguchiHiroto KobayashiToshiyuki Matsuoka
    • Kazuo AndouKoji KotaniTakeshi TaguchiHiroto KobayashiToshiyuki Matsuoka
    • H01G9/08H01G9/10H05K5/03H05K5/06
    • H01G11/80H01G11/74Y02E60/13
    • An electric double-layer capacitor housing has a bottomed outer case for accommodating an electric double-layer capacitor therein, a lid closing an open end of the bottomed outer case, the lid having a through hole defined therein, an electrode terminal mounted in the through hole in the lid for electrically connecting the electric double-layer capacitor in the bottomed outer case to an external circuit, and an insulative sealing member interposed between the lid and the electrode terminal and sealing the through hole. The electrode terminal includes a terminal body, a projecting rod extending from the terminal body, an outer sleeve spaced radially outwardly from the projecting rod, a tapered portion spreading radially outwardly and downwardly, and a flange extending radially outwardly from the tapered portion. The insulative sealing member includes a tubular member fitted over the terminal body and the outer sleeve of the electrode terminal, and a skirt extending radially outwardly from a lower end of the tubular member. The lid includes a circumferential surface defining the through hole, a first convex surface contiguous to an upper end of the through hole, a first concave surface extending around the through hole, a second convex surface contiguous to a lower end of the through hole, and a second concave surface extending around the through hole.
    • 电双层电容器壳体具有用于在其中容纳双电层电容器的底部外壳,封闭有底外壳的开口端的盖,具有限定在其中的通孔的盖,安装在通孔中的电极端子 将用于将底部外壳中的双电层电容器电连接到外部电路的盖中的绝缘密封构件,以及插入在盖和电极端子之间并密封通孔的绝缘密封构件。 电极端子包括端子主体,从端子主体延伸的突出杆,从突出杆径向向外间隔开的外套筒,径向向外和向下扩展的锥形部分和从锥形部分径向向外延伸的凸缘。 绝缘密封构件包括装配在端子主体和电极端子的外套筒上的管状构件以及从管状构件的下端径向向外延伸的裙部。 所述盖包括限定所述通孔的圆周表面,与所述通孔的上端邻接的第一凸起表面,围绕所述通孔延伸的第一凹面,与所述通孔的下端相邻的第二凸表面,以及 围绕通孔延伸的第二凹面。