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    • 2. 发明公开
    • METHOD AND SYSTEM FOR PRODUCING LIQUID CRYSTAL PANEL
    • VERFAHREN UND SYSTEM ZUR HERSTELLUNG VONFLÜSSIGKRISTALLTAFEL
    • EP2587301A1
    • 2013-05-01
    • EP11798153.0
    • 2011-06-22
    • Nitto Denko Corporation
    • HADA, KazuyaHIRATA, SatoshiKONDO, Seiji
    • G02F1/13G02F1/1335
    • G02F1/1303B29D11/00288B29D11/00644
    • An object of the invention is to provide a method and a system for manufacturing a liquid crystal panel, which allow more successful bonding of an optical film to a liquid Crystal cell. A pressing force Fa per unit area applied when the optical film is pressed by the first roller and a pressing force Fb per unit area applied when the liquid crystal cell is pressed by the second roller satisfy the relation Fa>Fb. On the first roller side, the feed may fail to be stabilized due to the influence of tension fluctuations or vibration acting on the first optical film, so that air bubbles may occur. When the second roller side, where such an influence does not occur, contributes more to the feed of the liquid crystal cell, the liquid crystal cell can be successfully fed in the process of bonding the optical film thereto.
    • 本发明的目的是提供一种用于制造液晶面板的方法和系统,其允许将光学膜更好地结合到液晶单元。 当通过第一辊按压光学膜时施加的每单位面积的按压力Fa和当由第二辊子按压液晶单元时施加的每单位面积的按压力Fb满足关系Fa> Fb。 在第一辊侧,由于作用在第一光学膜上的张力波动或振动的影响,进给可能不能稳定,从而可能发生气泡。 当没有发生这种影响的第二辊侧对液晶单元的供给有更大的贡献时,可以在将光学膜粘合的过程中成功地供给液晶单元。
    • 5. 发明公开
    • LENTICULAR IMAGES FORMED ON SELECTED IMAGE PORTIONS
    • 在选定区域的图像形镜片格图像
    • EP1613558A2
    • 2006-01-11
    • EP04750086.3
    • 2004-04-14
    • National Graphics, Inc.
    • KRAUSE, Donald, R.HEATHCOTE, Roger, J.
    • C03B3/00B29D11/00G03B35/24
    • G02B27/2214B29D11/00288B41M3/06B41M7/00B41M7/0045
    • Disclosed herein is a method of creating a selectively formed lenticular image. The method comprises: providing a substrate having a printed interlaced image portion thereon; providing a coating applicator having a selectively-located coating transfer area that substantially conforms to the interlaced image portion on the substrate; applying to the interlaced image portion on the substrate, using the selectively-located coating transfer area, a coating layer that conforms to the interlaced image portion to form a coated interlaced image; curing the coated interlaced image to create a cured coated interlaced image; and forming a lenticular pattern in the cured coated interlaced image to create a selectively formed lenticular image. Adjusting the selectively formed lenticular images occurs by adjusting the selectively located transfer areas on the coating applicator. Also disclosed is a system for making a selectively formed lenticular image. The invention can include multiple applications, via one or more coating applicators, of coating material (e.g., lenticular plastic material) to create the selectively-placed lenticular image. The invention further includes substrates having multiple printed interlaced image portions resulting in a plurality of selectively placed lenticular images on the substrate. The invention allows for end products having defined lenticular image portions, multiple lenticular image portions, and variably placed lenticular effects. In this manner, additional applications for lenticular materials, combining lenticular images and other printing on the same page, are possible and commercially feasible. The invention is particularly useful when it is desired to have less than the full printed page or package dedicated to lenticular effects, with one or more image portions.
    • 6. 发明公开
    • Lenticular lens sheet
    • LentikuläreblattförmigeLinse。
    • EP0484073A2
    • 1992-05-06
    • EP91309922.2
    • 1991-10-28
    • KURARAY Co. LTD.
    • Matsuzaki, IchiroKuwada, HiroshiOtaki, MasaoAbe, Ken
    • G03B21/62
    • B29D11/00288G03B21/625
    • A double-sided lenticular lens sheet has an entrance lens layer (1) and an exit lens layer (2), at least said exit lens layer containing light-diffusing fine particles, and has parameters satisfying the following expressions (I) and (II). t₁ > t₂ > 0 0 ≦ Δn₁c₁ ρ₁d₁ Δn₂c₂ ρ₂d₂ wherein t₁ represents a thickness of the entrance lens layer; t₂, a thickness of the exit lens layer; Δn₁, a difference in refractive index between the thermoplastic resin and the light-diffusing fine particles in the entrance lens layer; Δn₂, a difference in refractive index between the thermoplastic resin and the light-diffusing fine particles in the exit lens layer; c₁, a weight concentration of the light-diffusing fine particles in the entrance lens layer; c₂, a weight concentration of the light-diffusing fine particles in the exit lens layer; ρ₁, a gravity of the light-diffusing fine particles in the entrance lens layer; ρ₂, a gravity of the light-diffusing fine particles in the exit lens layer; d₁, an average particle diameter of the light-diffusing fine particles in the entrance lens layer; and d₂, an average particle diameter of the light-diffusing fine particles in the exit lens layer.
      The lenticular lens sheet of the present invention can be used in transmission-type projection screens. It can be stably manufactured even when its pitch is made very small, and yet can ensure a sufficient visual field angle, and also can improve the transmission efficiency of light to obtain a bright picture.
    • 双面双凸透镜片具有入射透镜层(1)和出射透镜层(2),至少所述出射透镜层含有光扩散微粒,并且具有满足以下表达式(I)和(II)的参数 )。 其中t1表示入射透镜层的厚度; t2,出射透镜层的厚度; DELTA n1,入射透镜层中热塑性树脂与光扩散微粒之间的折射率差; DELTA n2,出射透镜层中热塑性树脂与光扩散微粒之间的折射率差; c1,入射透镜层中的光漫射微粒的重量浓度; c2,出射透镜层中的光漫射微粒的重量浓度; rho 1,入射透镜层中的光漫射微粒的重力; rho 2,出射透镜层中的光漫射微粒的重力; d1,入射透镜层中的光扩散微粒的平均粒径; d2表示出射透镜层中的光扩散性微粒的平均粒径。 本发明的双凸透镜片可用于透射型投影屏。 即使其间距非常小,也可以稳定地制造,并且可以确保足够的视场角,并且还可以提高光的传输效率以获得明亮的图像。