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    • 3. 发明申请
    • INFORMATION INPUT APPARATUS
    • 信息输入装置
    • US20140104163A1
    • 2014-04-17
    • US14125613
    • 2012-05-31
    • Masafumi IdeMasaya SuzukiYosuke AbeTakaaki NozakiAkio YoshinagaYuji Noda
    • Masafumi IdeMasaya SuzukiYosuke AbeTakaaki NozakiAkio YoshinagaYuji Noda
    • G06F3/042
    • G06F3/0425G06F3/017G06F3/0426H04N9/3179H04N9/3194
    • The present invention is directed to the provision of an information input apparatus that can change the projection position of an input image by tracking a target object and can detect an information input to the input image. More specifically, the invention provides an information input apparatus includes a projection unit which projects an input image, a projection position changing unit which changes the projection position of the input image, a detection sensor which detects the position of a detection target, and an information detection unit which causes the projection position changing unit to change the projection position of the input image by tracking the position of the detection target detected by the detection sensor, and which detects an information input to the input image based on data supplied from the detection sensor.
    • 本发明旨在提供一种信息输入装置,其可以通过跟踪目标对象来改变输入图像的投影位置,并且可以检测输入到输入图像的信息。 更具体地说,本发明提供了一种信息输入装置,包括投影输入图像的投影单元,改变输入图像的投影位置的投影位置改变单元,检测检测对象的位置的检测传感器,以及信息 检测单元,其使投影位置改变单元通过跟踪由检测传感器检测到的检测目标的位置来改变输入图像的投影位置,并且基于从检测传感器提供的数据来检测输入到输入图像的信息 。
    • 5. 发明授权
    • Information input apparatus
    • 信息输入装置
    • US09229584B2
    • 2016-01-05
    • US14125613
    • 2012-05-31
    • Masafumi IdeMasaya SuzukiYosuke AbeTakaaki NozakiAkio YoshinagaYuji Noda
    • Masafumi IdeMasaya SuzukiYosuke AbeTakaaki NozakiAkio YoshinagaYuji Noda
    • G06F3/042G06F3/01H04N9/31
    • G06F3/0425G06F3/017G06F3/0426H04N9/3179H04N9/3194
    • The present invention is directed to the provision of an information input apparatus that can change the projection position of an input image by tracking a target object and can detect an information input to the input image. More specifically, the invention provides an information input apparatus includes a projection unit which projects an input image, a projection position changing unit which changes the projection position of the input image, a detection sensor which detects the position of a detection target, and an information detection unit which causes the projection position changing unit to change the projection position of the input image by tracking the position of the detection target detected by the detection sensor, and which detects an information input to the input image based on data supplied from the detection sensor.
    • 本发明旨在提供一种信息输入装置,其可以通过跟踪目标对象来改变输入图像的投影位置,并且可以检测输入到输入图像的信息。 更具体地说,本发明提供了一种信息输入装置,包括投影输入图像的投影单元,改变输入图像的投影位置的投影位置改变单元,检测检测对象的位置的检测传感器,以及信息 检测单元,其使投影位置改变单元通过跟踪由检测传感器检测到的检测目标的位置来改变输入图像的投影位置,并且基于从检测传感器提供的数据来检测输入到输入图像的信息 。
    • 6. 发明授权
    • Optical device
    • 光学装置
    • US09470957B2
    • 2016-10-18
    • US14119853
    • 2012-05-22
    • Masafumi IdeTakaaki NozakiKaoru YodaYosuke Abe
    • Masafumi IdeTakaaki NozakiKaoru YodaYosuke Abe
    • G02B6/12G02F1/377G02F1/35
    • G02F1/377G02B6/12G02F2001/3505G02F2203/21
    • The invention is directed to the provision of an optical device in which provisions are made to form a gap between an optical waveguide and a substrate without having to form a groove or the like in the substrate and to prevent any stress from being applied to an optical element even when it is heated by a heater for temperature adjustment. More specifically, the invention provides an optical device includes a substrate, an optical element with an optical waveguide formed in a surface thereof that faces the substrate, bonding portions formed on the substrate at positions that oppose each other across the optical waveguide, a heater, formed on at least one of the optical element and the substrate, for heating the optical waveguide, and a micro bump structure formed from a metallic material, wherein the optical element is bonded to the bonding portions via the micro bump structure in such a manner that a gap is formed between the optical waveguide and the substrate.
    • 本发明涉及提供一种光学装置,其中进行设置以在光波导和基板之间形成间隙,而不必在基板中形成凹槽等,并且防止任何应力施加到光学 即使通过加热器加热来进行温度调节。 更具体地说,本发明提供了一种光学器件,包括:基板,在其表面上形成有面向基板的光波导的光学元件,在基板上形成的在光波导上相对的位置的接合部,加热器, 形成在所述光学元件和所述基板中的至少一个上,用于加热所述光波导,以及由金属材料形成的微凸起结构,其中所述光学元件经由所述微凸块结构接合到所述接合部, 在光波导和基板之间形成间隙。
    • 7. 发明申请
    • OPTICAL DEVICE
    • 光学装置
    • US20140161387A1
    • 2014-06-12
    • US14119853
    • 2012-05-22
    • Masafumi IdeTakaaki NozakiKaoru YodaYosuke Abe
    • Masafumi IdeTakaaki NozakiKaoru YodaYosuke Abe
    • G02F1/377G02B6/12
    • G02F1/377G02B6/12G02F2001/3505G02F2203/21
    • The invention is directed to the provision of an optical device in which provisions are made to form a gap between an optical waveguide and a substrate without having to form a groove or the like in the substrate and to prevent any stress from being applied to an optical element even when it is heated by a heater for temperature adjustment. More specifically, the invention provides an optical device includes a substrate, an optical element with an optical waveguide formed in a surface thereof that faces the substrate, bonding portions formed on the substrate at positions that oppose each other across the optical waveguide, a heater, formed on at least one of the optical element and the substrate, for heating the optical waveguide, and a micro bump structure formed from a metallic material, wherein the optical element is bonded to the bonding portions via the micro bump structure in such a manner that a gap is formed between the optical waveguide and the substrate.
    • 本发明涉及提供一种光学装置,其中在不需要在基板中形成凹槽等而在光波导和基板之间形成间隙,并且防止任何应力施加到光学器件上 即使通过加热器加热来进行温度调节。 更具体地说,本发明提供了一种光学器件,包括:基板,在其表面上形成有面向基板的光波导的光学元件,在基板上形成的在光波导上彼此相对的位置的接合部,加热器, 形成在所述光学元件和所述基板中的至少一个上,用于加热所述光波导,以及由金属材料形成的微凸块结构,其中所述光学元件经由所述微凸块结构结合到所述接合部, 在光波导和基板之间形成间隙。
    • 8. 发明授权
    • Optical device
    • 光学装置
    • US08666205B2
    • 2014-03-04
    • US13511830
    • 2010-11-24
    • Toru TakizawaTakaaki NozakiYosuke Abe
    • Toru TakizawaTakaaki NozakiYosuke Abe
    • G02B6/12
    • G02F1/3775G02B6/4272G02F1/3501G02F2001/3505G02F2201/02G02F2201/12G02F2201/307G02F2202/20G02F2202/28G02F2202/36G02F2203/60
    • An optical device (20) are formed by bonding a optical element (6) having an optical waveguide (8) with a substrate (2). On a surface of the optical element (6) facing the substrate (2) formed are the optical waveguide (8) and a thin film heater (4) that heats the optical waveguide (8). The optical element (6) and the substrate (2) are bonded through a first bonding part (12) and a second bonding part (14) made of metal material. The thin film heater (4) is electrically connected with a wire on the substrate (2) through the first bonding part (12) and the second bonding part (14). In this way, additional wires for electrical connection can be omitted, the optical element 6 can be miniaturized removing a superfluous region, and the manufacturing process can be simplified.
    • 光学器件(20)通过将具有光波导(8)的光学元件(6)与衬底(2)结合而形成。 在形成有基板(2)的光学元件(6)的表面上形成有加热光波导(8)的光波导(8)和薄膜加热器(4)。 光学元件(6)和基板(2)通过第一接合部分(12)和由金属材料制成的第二接合部分(14)接合。 薄膜加热器(4)通过第一接合部(12)和第二接合部(14)与基板(2)上的导线电连接。 以这种方式,可以省略用于电连接的另外的电线,光学元件6可以小型化以去除多余的区域,并且可以简化制造过程。
    • 10. 发明申请
    • LIQUID CRYSTAL DEVICE AND METHOD OF MANUFACTURING LIQUID CRYSTAL DEVICE
    • 液晶装置及制造液晶装置的方法
    • US20130070192A1
    • 2013-03-21
    • US13583609
    • 2011-03-10
    • Masafumi IdeTakaaki NozakiTakkai TakeishiKenichiro KimuraKaoru Yoda
    • Masafumi IdeTakaaki NozakiTakkai TakeishiKenichiro KimuraKaoru Yoda
    • G02F1/1339
    • G02F1/1339
    • To provide a liquid crystal device and a method of manufacturing the liquid crystal device which has high durability in an environment of high temperature and high humidity, and which can be applied to optical communication device. A liquid crystal device and a method of manufacturing the liquid crystal device includes a first substrate provided with a frame shaped seal region for encapsulating a liquid crystal layer, and a second substrate provided in opposition to the first substrate, wherein a gold frame shaped structure is provided in the seal region of the first substrate so as to be crushed and deformed to form metallic bond when superimposed and joined to the second substrate, and wherein a gold film is disposed in the portion of the second substrate opposed to the gold frame shaped structure so as to form metallic bond to the gold frame shaped structure.
    • 提供一种在高温高湿环境下具有高耐久性的液晶装置和液晶装置的制造方法,可应用于光通信装置。 一种液晶显示装置及液晶显示装置的制造方法,其特征在于,包括设置有用于封装液晶层的框状密封区域的第一基板和与该第一基板相对设置的第二基板, 设置在所述第一基板的所述密封区域中,以便在叠加并接合到所述第二基板时被破碎和变形以形成金属粘合,并且其中金膜设置在所述第二基板的与所述金框形结构相对的部分中 以形成金框结构的金属结合体。