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    • 3. 发明授权
    • Line head controlling method and image forming method
    • 线头控制方法和图像形成方法
    • US07924303B2
    • 2011-04-12
    • US12357194
    • 2009-01-21
    • Kenji YamaguchiKen Ikuma
    • Kenji YamaguchiKen Ikuma
    • B41J2/45
    • B41J2/451
    • There is provided a method for controlling a line head including a focusing optical system, first light emitters, light from which being focused by the focusing optical system, second light emitters disposed next to the first light emitters in a first direction, light from the second light emitters being focused by the focusing optical system, and third light emitters disposed next to the second light emitters in the first direction, light from the third light emitters being focused by the focusing optical system. The method includes turning on the first light emitters at time t0, turning on the second light emitters after a period t1 has passed since the time t0, and turning on the third light emitters after a period t2 has passed since the time t0. The periods t1 and t2 are controlled under the following condition: t2≠n×t1 (n is an integer two or greater).
    • 提供了一种用于控制行头的方法,所述行头包括聚焦光学系统,第一光发射器,由聚焦光学系统聚焦的光,在第一方向上设置在第一光发射器旁边的第二发光体,来自第二方向的光 由聚焦光学系统聚焦的发光体和沿着第一方向设置在第二发光体旁边的第三发光体,来自第三发光体的光被聚焦光学系统聚焦。 该方法包括在时刻t0导通第一发光体,在从时刻t0开始经过时间t1之后接通第二发光体,在从时刻t0开始经过时间t2之后接通第三发光体。 时段t1和t2在以下条件下被控制:t2≠n×t1(n是2或更大的整数)。
    • 4. 发明授权
    • Information processing apparatus displaying indices of video contents, information processing method and information processing program
    • 信息处理装置显示视频内容的索引,信息处理方法和信息处理程序
    • US09172904B2
    • 2015-10-27
    • US13360631
    • 2012-01-27
    • Kenji YamaguchiMasaki SatoHidehito Taniura
    • Kenji YamaguchiMasaki SatoHidehito Taniura
    • H04N5/77G11B27/10H04N9/82
    • G11B27/105H04N5/772H04N9/8227
    • In order to quicken switching of indices and reduce the time required for display after switching, a mobile phone includes a video content specifying portion to specify at least one video content, an index element generating portion to generate a thumbnail for a video content when accepting a generation instruction and to stop generation of the thumbnail when accepting a cancellation instruction, an index element generation requesting portion, in response to the event that a video content is specified by the video content specifying portion, to output a generation instruction including identification information identifying the specified video content to the index element generating portion, and a cancellation instructing portion to output a cancellation instruction to stop generation of the thumbnail for the already specified video content when a new video content is specified before completion of generation of the thumbnail for the already specified video content.
    • 为了加快索引的切换和减少切换后显示所需的时间,移动电话包括指定至少一个视频内容的视频内容指定部分,当接收到视频内容时生成用于视频内容的缩略图的索引元素生成部分 响应于由视频内容指定部分指定了视频内容的事件,生成指示,并且在接收到取消指令时停止生成缩略图,索引元素生成请求部分,输出包含识别信息的识别信息的生成指令 指定视频内容到索引元素生成部分,以及消除指示部分,在已经指定的缩略图的生成完成之前指定新的视频内容时,输出取消指令以停止生成已经指定的视频内容的缩略图 视频内容
    • 7. 发明授权
    • Acidic zirconia sol and production method of the same
    • 酸性氧化锆溶胶及其制备方法相同
    • US07691910B2
    • 2010-04-06
    • US11918134
    • 2006-04-11
    • Yutaka OhmoriHirokazu KatoKenji Yamaguchi
    • Yutaka OhmoriHirokazu KatoKenji Yamaguchi
    • C09K3/00
    • C01G25/02B82Y30/00C01P2004/64
    • There is provided an acidic zirconia sol having compatibility of particle properties and binding properties, and a production method of the same.The present invention relates to a production method of an acidic zirconia sol containing zirconia particles having a particle diameter of less than 20 nm in a content of 10 to 50% by mass, based on the mass of all zirconia particles including: a first process in which an alkaline zirconia sol (A) and a zirconium salt (B) are mixed in a mass ratio (Bs/As) ranging from 0.2 to 5.0 of a mass of a solid content (Bs) which is converted into an amount of ZrO2 in the zirconium salt (B) to a mass of a solid content (As) which is converted into an amount of ZrO2 in the alkaline zirconia sol (A); and a second process in which the resultant mixture is reacted at 80 to 250° C. to produce an acidic zirconia sol.
    • 提供了具有颗粒性质和结合性质的相容性的酸性氧化锆溶胶及其制备方法。 本发明涉及以氧化锆粒子的质量计,含有10〜50质量%的粒径小于20nm的氧化锆粒子的酸性氧化锆溶胶的制造方法,其特征在于,包括: 将碱土金属氧化锆溶胶(A)和锆盐(B)以质量比(Bs / As)为0.2〜5.0,以固体成分(Bs)的质量比转化成ZrO 2的量 在碱性氧化锆溶胶(A)中将锆盐(B)转化为一定量的ZrO 2的固体成分(As)的质量; 和第二种方法,其中所得混合物在80-250℃反应生成酸性氧化锆溶胶。
    • 8. 发明申请
    • Process for Producing Elongated-Shaped Silica Sol
    • 生产细长二氧化硅溶胶的方法
    • US20100037801A1
    • 2010-02-18
    • US12449214
    • 2007-02-01
    • Yutaka OhmoriHirotomo ItouKenji Yamaguchi
    • Yutaka OhmoriHirotomo ItouKenji Yamaguchi
    • C04B14/04
    • C01B33/1465B82Y30/00C01P2004/64C01P2006/10C01P2006/22C01P2006/40C09C1/3045
    • There is provided a method for producing an elongated-shaped silica sol comprising the following steps: (a) adding an aqueous solution containing a water soluble Ca salt and/or Mg salt to an aqueous colloidal solution of active silicic acid with an SiO2 concentration of 1 to 6% by mass and a pH of 2 to 5 in a mass ratio of CaO and/or MgO to SiO2 in the active silicic acid of 1500 to 15,000 ppm, and mixing; (b) adding alkali metal hydroxide, a water soluble organic base, or water soluble silicate thereof to an aqueous solution obtained through (a) in a determined molar ratio to SiO2, and mixing; (c) heating a mixture obtained through (b) at 85 to 200° C. for 0.5 to 20 hours so as to obtain a colloidal solution; (d) removing, from the colloidal solution obtained through (c), part of water and at least part of anions derived from the aqueous solution containing the water soluble Ca salt and/or Mg salt; and (e) heating a colloidal solution obtained through (d) at a temperature of 80 to 195° C. that is lower than a heating temperature in (c) for 0.5 to 20 hours.
    • 提供了一种生产细长形硅溶胶的方法,包括以下步骤:(a)将含有水溶性Ca盐和/或Mg盐的水溶液加入到活性硅酸的水溶胶体溶液中,SiO 2浓度为 1〜6质量%,活性硅酸中CaO和/或MgO与SiO 2的质量比为1500〜15000ppm的pH为2〜5,混合; (b)将碱金属氢氧化物,水溶性有机碱或其水溶性硅酸盐添加到通过(a)以与SiO 2确定的摩尔比获得的水溶液中,并混合; (c)在85〜200℃下加热通过(b)得到的混合物0.5〜20小时,得到胶体溶液; (d)从通过(c)获得的胶体溶液中除去部分水和至少部分源自含有水溶性Ca盐和/或Mg盐的水溶液的阴离子; 和(e)将(d)得到的胶体溶液在(c)中的加热温度低于80〜195℃的温度下加热0.5〜20小时。
    • 9. 发明申请
    • Polishing apparatus and substrate processing apparatus
    • 抛光装置和基板处理装置
    • US20090117828A1
    • 2009-05-07
    • US10581669
    • 2005-02-23
    • Akihisa HongoKenya ItoKenji YamaguchiMasayuki Nakanishi
    • Akihisa HongoKenya ItoKenji YamaguchiMasayuki Nakanishi
    • B24B49/04B24B1/04B24B49/12B24B9/02B24B57/02
    • B24B37/02B24B9/065B24B21/002
    • The present invention relates to a polishing apparatus for removing surface roughness produced at a peripheral portion of a substrate, or for removing a film formed on a peripheral portion of a substrate. The polishing apparatus includes a housing (3) for forming a polishing chamber (2) therein, a rotational table (1) for holding and rotating a substrate (W), a polishing tape supply mechanism (6) for supplying a polishing tape (5) into the polishing chamber (2) and supplied to the polishing chamber (2), a polishing head (35) for pressing the polishing tape (5) against a bevel portion of the substrate (W), a liquid supply (50) for supplying a liquid to a front surface and a rear surface of the substrate (W), and a regulation mechanism (16) for making an internal pressure of the polishing chamber (2) being set to be lower than an external pressure of the polishing chamber (2).
    • 本发明涉及一种用于去除在基板的周边部分产生的表面粗糙度或用于去除形成在基板的周边部分上的膜的抛光装置。 抛光装置包括用于在其中形成研磨室(2)的壳体(3),用于保持和旋转基底(W)的旋转台(1),用于供应研磨带(5)的研磨带供给机构 )到抛光室(2)中并供给到抛光室(2),用于将抛光带(5)压靠在基板(W)的斜面部分上的抛光头(35) 将液体供给到所述基板(W)的前表面和后表面;以及调节机构(16),用于使所述研磨室(2)的内部压力被设定为低于所述研磨室 (2)。