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    • 43. 发明授权
    • Optical device and projector
    • 光学设备和投影机
    • US07972019B2
    • 2011-07-05
    • US11598845
    • 2006-11-14
    • Masashi KitabayashiKazuyuki IinumaNobuo Watanabe
    • Masashi KitabayashiKazuyuki IinumaNobuo Watanabe
    • G03B21/00G03B21/14G03B21/22G03B21/26G02F1/1333
    • G03B21/006
    • An optical device includes a plurality of light modulating devices for forming optical images and a color combining optical device. The optical device includes a first fixed member and a second fixed member for mounting the light modulating devices so as to face light flux incoming end surfaces of the color combining optical device. The first fixed member includes a plate-shaped first base portion mounted to oppose the light flux incoming end surface and having an opening for transmitting the light flux. The second fixed member includes a plate-shaped second base portion having an opening for transmitting the light flux. The first fixed member and the second fixed member are assembled in such a manner that the first base portion and the second base portion are opposed to each other.
    • 光学装置包括用于形成光学图像的多个光调制装置和彩色组合光学装置。 光学装置包括第一固定部件和第二固定部件,用于安装光调制装置,以便面对着色组合光学装置的光束入射端面。 第一固定构件包括安装成与光束入射端面相对并且具有用于透射光通量的开口的板状第一基部。 第二固定构件包括具有用于透射光通量的开口的板状的第二基部。 第一固定构件和第二固定构件以第一基部和第二基部相互相对的方式组装。
    • 46. 发明申请
    • Performance Degradation Analyzer and Method of the Same
    • 性能降解分析仪及其方法
    • US20100141262A1
    • 2010-06-10
    • US11990128
    • 2006-08-07
    • Nobuo WatanabeNobuyuki Kitamura
    • Nobuo WatanabeNobuyuki Kitamura
    • G01N27/416
    • H01M8/04119G01R31/3662H01M8/04291H01M8/04358H01M8/04365H01M8/04388H01M8/04395H01M8/045H01M8/04507H01M8/04589H01M8/04649H01M8/04679H01M8/04955H01M2008/1095
    • A method utilizing the resistance of the electrolytic membrane of a fuel cell is known conventionally as a method for detecting abnormality occurring in the fuel cell. As shown on FIG. 4, resistance of the electrolytic membrane increases as the temperature thereof decreases or the moisture content thereof decreases (i.e. dry state), and decreases as the temperature increases or the moisture content increases (i.e. wet state), and thereby it was difficult to judge whether a deterioration in performance or a simple drop in performance has occurred by simply detecting an increase in resistance. A criterion for judging a deterioration in performance of a fuel cell based on the resistance of an electrolytic membrane is thereby set higher as the electrolytic membrane approaches a dry state and temperature thereof decreases and set lower as the electrolytic membrane approaches a wet state and the temperature thereof increases. Consequently, a deterioration in performance of a fuel cell can be judged easily regardless of the operating state thereof.
    • 利用燃料电池的电解质膜的电阻的方法通常被认为是用于检测在燃料电池中发生的异常的方法。 如图所示。 如图4所示,随着温度降低或水分含量降低(即干燥状态),电解质膜的电阻增加,随着温度升高或湿度增加(即湿润状态)而降低,因此难以判断电解质是否 通过简单地检测电阻的增加,发生性能的恶化或性能的简单降低。 由于电解质膜接近干燥状态并且其温度降低并且随着电解质膜接近潮湿状态而降低,所以基于电解质膜的电阻来判断燃料电池的性能劣化的标准被设定得更高 其增加。 因此,能够容易地判断燃料电池的性能的劣化,而与其工作状态无关。
    • 47. 发明授权
    • Light source and projector
    • 光源和投影机
    • US06902275B2
    • 2005-06-07
    • US10730045
    • 2003-12-09
    • Haruyoshi YamadaNobuo Watanabe
    • Haruyoshi YamadaNobuo Watanabe
    • G03B21/14F21V29/00F21V29/02F21Y101/00G03B21/16G03B21/20G03B21/00G03B21/18
    • G03B21/16G03B21/145G03B21/2086
    • A pair of openings (302) symmetrically disposed around an optical axis of the reflector (412) is formed on a contact surface of a light-transmissive plate (301) and the reflector (412) and a cooling channel (340) for introducing cooling air to a source lamp (411) through the pair of openings (302) and a first and a second cooling channel shutters (350, 360) for shutting the cooling channel (340) when the case is detached from a projector (1) are provided on a case (300). The source lamp (411) can be efficiently cooled, so that the life of the source lamp (411) can be lengthened. Even when a light-emitting tube of the source lamp (411) is exploded while using the projector (1), the fragments of the light-emitting tube do not fall outside in exchanging the light source (413), and cooling efficiency of the source lamp (411) is not impaired.
    • 在透光板(301)和反射器(412)的接触表面和用于引导冷却的冷却通道(340)之间形成对称地设置在反射器(412)的光轴周围的一对开口(302) 当壳体与投影仪(1)分离时,空气通过一对开口(302)和用于关闭冷却通道(340)的第一和第二冷却通道快门(350,360)的源灯(411) 设置在壳体(300)上。 可以有效地冷却源灯(411),从而可以延长源灯(411)的寿命。 即使在使用投影仪(1)的同时源极灯(411)的发光管被分解时,发光管的碎片不会在更换光源(413)的同时落在外部,并且冷却效率 源灯(411)不受损害。
    • 48. 发明申请
    • Optical component casing, optical device and projector
    • 光学元件外壳,光学设备和投影机
    • US20050110962A1
    • 2005-05-26
    • US10961252
    • 2004-10-12
    • Nobuo WatanabeKiyotaka NakanoToshio Matsumiya
    • Nobuo WatanabeKiyotaka NakanoToshio Matsumiya
    • G03B21/00G03B21/14
    • G03B21/145
    • An optical component casing includes a lower casing in which a plurality of optical components are arranged, a lid-shaped upper casing (472) that closes the lower casing, and an optical component holding frame (446) that holds an incident-side polarization plate and a visual-angle correcting plate for arranging them at predetermined positions inside the lower casing. An optical component holding frame supporting surface (4471A) is formed on an upper side of the upper casing (472) to rotatably support the optical component holding frame (446). The optical component holding frame (446) includes a polarization plate holding frame (4461) for holding the incident-side polarization plate, and a correcting plate holding frame (4462) for holding the visual-angle correcting plate. The polarization plate holding frame (4461) slides on the optical component holding frame supporting surface (4471A) of the upper casing (472) and has a rotation guiding surface (4461B2) for rotatably supporting the correcting plate holding frame (4462).
    • 光学部件壳体包括:多个光学部件配置的下壳体,封闭下壳体的盖状上壳体(472);以及保持入射侧偏振板的光学部件保持框架(446) 以及用于将它们布置在下壳体内的预定位置处的视角校正板。 光学部件保持框架支撑面(4471A)形成在上壳体(472)的上侧,以可旋转地支撑光学部件保持框架(446)。 光学部件保持框架(446)包括用于保持入射侧偏振板的偏振板保持框架(4461)和用于保持视角校正板的校正板保持框架(4462)。 偏振片保持框架(4461)在上壳体(472)的光学部件保持框架支撑面(4471A)上滑动,并且具有用于可旋转地支撑校正板保持框架(4462)的旋转引导面(4461B2) 。