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    • 3. 发明授权
    • Color filterless display device, optical element, and manufacture
    • 无滤色显示装置,光学元件和制造
    • US08879016B2
    • 2014-11-04
    • US13030271
    • 2011-02-18
    • Hidetoshi NamataShinya OnoYoichi TairaFumiaki Yamada
    • Hidetoshi NamataShinya OnoYoichi TairaFumiaki Yamada
    • G02F1/1335F21V8/00
    • G02B6/0053G02F1/133526G02F1/133621
    • A method of forming liquid crystal cell for a color display device includes forming a liquid crystal layer and a prism structure between top and bottom substrates. Forming the prism structure includes forming a lens shaped die, coating a low refractive index resin on the lens shaped die, pasting the lens shaped die to the top substrate, and irradiating the coated low refractive index resin so as to set the low refractive index resin and form a low refractive index layer. The lens shaped die is removed from the low refractive index layer, a high refractive index resin is coated on the low refractive index layer by use of a planarizing die. The coated high refractive index resin is irradiated so as to set the high refractive index resin and form a high refractive index layer, and the planarizing die is removed from the high refractive index layer.
    • 一种形成彩色显示装置的液晶元件的方法包括在顶部和底部基板之间形成液晶层和棱镜结构。 形成棱镜结构包括形成透镜形模,在透镜形模上涂覆低折射率树脂,将透镜成形模贴合到顶基板上,照射涂布的低折射率树脂,以便将低折射率树脂 并形成低折射率层。 从低折射率层去除透镜成形的模具,通过使用平面化模具将高折射率树脂涂覆在低折射率层上。 照射涂覆的高折射率树脂以设置高折射率树脂并形成高折射率层,并且从高折射率层去除平面化模具。
    • 5. 发明申请
    • Optical connection board and optical signal transmission
    • 光连接板和光信号传输
    • US20050163416A1
    • 2005-07-28
    • US11022018
    • 2004-12-23
    • Fumiaki YamadaYoichi Taira
    • Fumiaki YamadaYoichi Taira
    • G02B6/122B29D11/00G02B6/12G02B6/13G02B6/138G02B6/30G02B6/42
    • G02B6/4214B29D11/00663G02B6/138G02B6/30G02B2006/12104
    • Optical signal transmission system comprising optical signal transmission board having first optical waveguide, and optical connection board having second optical waveguide and inserted into opening of optical signal transmission board substantially perpendicularly thereto, opening being provided in upper surface of transmission board. The board comprises: a first board; the first optical waveguide extended on an upper surface of the first board; and a second board made parallel to the first board, the opening extended from the upper surface thereof toward the first board is provided in the optical signal transmission board. The optical connection board comprises: a third board; second optical waveguide extended on an upper surface of the third board; and reflection surface provided in end portion of second optical waveguide, reflecting light traveling through the second optical waveguide, and making the light incident onto the first optical waveguide extended in a direction substantially perpendicular to the board.
    • 光信号传输系统包括具有第一光波导的光信号传输板和具有第二光波导并且基本上垂直于其的光信号传输板的开口插入的光连接板,设置在传输板的上表面中的开口。 董事会包括:第一板; 所述第一光波导延伸在所述第一板的上表面上; 以及与第一板平行的第二板,在其上表面朝向第一板延伸的开口设置在光信号传输板中。 光连接板包括:第三板; 第二光波导延伸在第三板的上表面上; 以及设置在第二光波导的端部的反射面,反射穿过第二光波导的光,并使入射到第一光波导上的光沿基本上垂直于板的方向延伸。
    • 6. 发明授权
    • Light guide apparatus, a backlight apparatus and a liquid crystal display apparatus
    • 导光装置,背光装置和液晶显示装置
    • US06667782B1
    • 2003-12-23
    • US09664719
    • 2000-09-19
    • Yoichi TairaFumiaki YamadaAkiko Nishikai
    • Yoichi TairaFumiaki YamadaAkiko Nishikai
    • G02F113
    • G02B6/0053G02B6/0046G02F1/133615
    • A backlight apparatus (and light guide and liquid crystal display apparatus incorporating the same) includes a wedge-type light guide having a refractive index n1, and having a top surface, a bottom surface and a side surface, a light source for directing light to the side surface of the wedge-type light guide, a first light transmission layer having a refractive index n2, which is smaller than said refractive index n1, and having a top surface and a bottom surface, wherein the top surface of the first light transmission layer is attached to the bottom surface of the wedge-type light guide, and a light deflecting layer having a top surface attached to the bottom surface of the first light transmission layer for deflecting the incident light from the first light transmission layer toward the top surface of the wedge-type light guide.
    • 背光装置(以及包含该背光装置的导光体和液晶显示装置)包括具有折射率n1的楔形导光体,具有顶面,底面和侧面,用于将光导向 楔形光导的侧表面,具有小于所述折射率n1的折射率n2的第一透光层,并且具有顶表面和底表面,其中第一透光层的顶表面 层附接到楔形光导的底表面,以及光偏转层,其具有附接到第一透光层的底表面的顶表面,用于将来自第一透光层的入射光朝向顶表面 的楔形导光体。
    • 7. 发明申请
    • Color Filterless Display Device, Optical Element, and Manufacture
    • 无滤色显示设备,光学元件和制造
    • US20120045859A1
    • 2012-02-23
    • US13030271
    • 2011-02-18
    • Hidetoshi NamataShinya OnoFumiaki YamadaYoichi Taira
    • Hidetoshi NamataShinya OnoFumiaki YamadaYoichi Taira
    • H01L33/08
    • G02B6/0053G02F1/133526G02F1/133621
    • A method of forming liquid crystal cell for a color display device includes forming a liquid crystal layer and a prism structure between top and bottom substrates. Forming the prism structure includes forming a lens shaped die, coating a low refractive index resin on the lens shaped die, pasting the lens shaped die to the top substrate, and irradiating the coated low refractive index resin so as to set the low refractive index resin and form a low refractive index layer. The lens shaped die is removed from the low refractive index layer, a high refractive index resin is coated on the low refractive index layer by use of a planarizing die. The coated high refractive index resin is irradiated so as to set the high refractive index resin and form a high refractive index layer, and the planarizing die is removed from the high refractive index layer.
    • 一种形成彩色显示装置的液晶元件的方法包括在顶部和底部基板之间形成液晶层和棱镜结构。 形成棱镜结构包括形成透镜形模,在透镜形模上涂覆低折射率树脂,将透镜成形模贴合到顶基板上,照射涂布的低折射率树脂,以便将低折射率树脂 并形成低折射率层。 从低折射率层去除透镜成形的模具,通过使用平面化模具将高折射率树脂涂覆在低折射率层上。 照射涂覆的高折射率树脂以设置高折射率树脂并形成高折射率层,并且从高折射率层去除平面化模具。
    • 10. 发明申请
    • COLOR FILTERLESS DISPLAY DEVICE, OPTICAL ELEMENT, AND MANUFACTURE
    • 彩色无线显示设备,光学元件和制造
    • US20070139582A1
    • 2007-06-21
    • US11621559
    • 2007-01-09
    • Hidetoshi NumataShinya OnoFumiaki YamadaYoichi Taira
    • Hidetoshi NumataShinya OnoFumiaki YamadaYoichi Taira
    • G02F1/1335
    • G02B6/0053G02F1/133526G02F1/133621
    • A color filterless display device performing color display for expressing one pixel by three RGB sub-pixels includes: a light source; a diffraction grating for separating a light irradiated from this light source into lights of a plurality of wavelength regions; a cylindrical lens array for receiving the separated light and condensing the light while corresponding to each of the sub-pixels; and a liquid crystal cell including a structure portion for correcting an angle of the condensed light for all sub-pixels, wherein, in the structure portion of this liquid crystal cell, a side onto which a light from the cylindrical lens array is made incident is made of a high refractive index layer, an emitting side from which the light is emitted is made of a low refractive index layer, and a Fresnel-type microprism structure is formed by the high refractive index layer and the low refractive index layer.
    • 执行用于表示一个像素乘以三个RGB子像素的彩色显示的无滤色器显示装置包括:光源; 用于将从该光源照射的光分离成多个波长区域的光的衍射光栅; 柱面透镜阵列,用于接收分离的光并在对应于每个子像素的同时会聚光; 以及液晶单元,其包括用于校正所有子像素的聚光的角度的结构部分,其中在该液晶单元的结构部分中入射来自柱面透镜阵列的光的一侧是 由高折射率层制成,发射光的发射侧由低折射率层制成,并且通过高折射率层和低折射率层形成菲涅耳型微棱镜结构。