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    • 7. 发明申请
    • METHOD FOR MANUFACTURING AN OPTICAL FILTER FOR A STEREOSCOPIC IMAGE DISPLAY DEVICE
    • 用于制造立体图像显示装置的光学滤波器的方法
    • WO2010090429A3
    • 2010-10-28
    • PCT/KR2010000637
    • 2010-02-02
    • LG CHEMICAL LTDKIM SIN-YOUNGPARK MOON-SOOJEON BYOUNG-KUNHAN SANG-CHOLLSHIN BU-GONYOON HYUK
    • KIM SIN-YOUNGPARK MOON-SOOJEON BYOUNG-KUNHAN SANG-CHOLLSHIN BU-GONYOON HYUK
    • G02B27/22G02B5/30G02F1/1337
    • G02F1/133788G02B5/3083G02B27/2214G02B27/26G02F1/1303G02F2001/133538
    • The present invention relates to a method for manufacturing an optical filter for a stereoscopic image display device, which involves forming an alignment film having different alignment directions in micro areas through a single continuous photo alignment process. The method comprises the steps of: forming a polymer film on a substrate; placing, on the polymer film, a pattern mask in which a light-transmitting area and a light-shielding area are staggered and alternately formed in the vertical and horizontal directions to enable different types of polarized light to selectively pass, placing, on the pattern mask, a polarizing plate having two areas for enabling two different types of polarized light to pass therethrough, and irradiating ultraviolet rays onto the polymer film from above the polarizing plate to form alignment film having different alignment directions in micro areas of the polymer film; and forming a phase delay layer on the alignment film. The method according to the present invention provides different orientations in micro areas of the polymer film using one pattern mask sheet and through a single continuous light irradiation process, thereby simplifying the process of forming the alignment film having different light alignment directions in micro areas of the polymer film. Thus, the yield rate and productivity in manufacturing the optical filter for the stereoscopic image display device can be improved.
    • 本发明涉及一种用于立体图像显示装置的滤光器的制造方法,其包括通过单次连续的光取向工艺在微区域中形成具有不同取向方向的取向膜。 该方法包括以下步骤:在基底上形成聚合物膜; 在聚合物膜上放置图案掩模,其中透光区域和遮光区域在垂直和水平方向上交错地交替形成,以使不同类型的偏振光能够选择性地通过,放置在图案上 掩模,具有用于使两种不同类型的偏振光通过的两个区域的偏振片,以及从偏振片上方向紫外线照射到聚合物膜上,以在聚合物膜的微小区域中形成具有不同取向方向的取向膜; 并在取向膜上形成相位延迟层。 根据本发明的方法使用一个图案掩模片和通过单个连续光照射工艺在聚合物膜的微小区域中提供不同的取向,从而简化了在具有不同的光取向方向上形成具有不同的光取向方向的取向膜的工艺 聚合物膜。 因此,可以提高立体图像显示装置的光学滤波器的制造的成品率和生产率。
    • 9. 发明申请
    • ECB-LCD HAVING AN EXCELLENT VIEWING ANGLE AND COLOR CHARACTERISTICS
    • ECB-LCD具有卓越的视角和色彩特性
    • WO2012008802A3
    • 2012-05-03
    • PCT/KR2011005241
    • 2011-07-15
    • LG CHEMICAL LTDJEON BYOUNG-KUNRYU SU-YOUNGPARK MOON-SOOYOON SANG-JUN
    • JEON BYOUNG-KUNRYU SU-YOUNGPARK MOON-SOOYOON SANG-JUN
    • G02F1/1335G02F1/13363
    • G02F1/13363G02F1/1393G02F2001/133633G02F2413/02
    • The present invention relates to an ECB-LCD device comprising: a liquid crystal panel including a liquid crystal cell having a first substrate, a second substrate, and a liquid crystal which is interposed between the first substrate and the second substrate and which has a positive dielectric anisotropy, wherein the liquid crystal cell has a cell gap of 1 to 5 ìm and is driven in an ECB mode; a first polarizing element which is placed on the first substrate, and which has a first absorbing axis; a second polarizing element which is placed beneath the second substrate, and which has a second absorbing axis; a first liquid crystal film interposed between the first substrate and the first polarizing element; and a second liquid crystal film interposed between the second substrate and the second polarizing element. The first liquid crystal film includes a first base, and a first liquid crystal layer which is formed by splay-aligning nematic liquid crystals on one side of the first base such that a maximum tilt angle from an in-plane direction to a thickness direction is 20° to 90°. The second liquid crystal film includes a second base, and a second liquid crystal layer formed by horizontally aligning nematic liquid crystals on one side of the second base.
    • 本发明涉及一种ECB-LCD装置,其包括:液晶面板,其包括具有第一基板,第二基板和介于第一基板和第二基板之间的液晶的液晶单元,并且液晶单元具有正 介电各向异性,其中所述液晶单元具有1至5μm的单元间隙并且以ECB模式驱动; 第一偏振元件,其放置在第一基底上并具有第一吸收轴; 第二偏振元件,所述第二偏振元件设置在所述第二基底下方并且具有第二吸收轴; 介于第一基板和第一偏振元件之间的第一液晶膜; 以及介于第二基板和第二偏振元件之间的第二液晶膜。 第一液晶膜包括第一基底和第一液晶层,第一液晶层通过在第一基底的一侧上展开排列向列型液晶而形成,使得从面内方向到厚度方向的最大倾斜角为 20°至90°。 第二液晶膜包括第二基底和通过在第二基底的一侧上水平排列向列型液晶而形成的第二液晶层。
    • 10. 发明申请
    • 3D GLASSES FOR STEREOSCOPIC DISPLAY DEVICE AND STEREOSCOPIC DISPLAY DEVICE INCLUDING THE SAME
    • 用于立体显示装置的3D眼镜和包括其的立体显示装置
    • WO2011078471A3
    • 2011-09-09
    • PCT/KR2010007094
    • 2010-10-15
    • LG CHEMICAL LTDLEE DAE HEEPARK MOON-SOOCHAE SEUNG-HUN
    • LEE DAE HEEPARK MOON-SOOCHAE SEUNG-HUN
    • G02F1/1335G02B27/22
    • G02B27/26H04N2213/008
    • There are provided 3D glasses for use in a stereoscopic display device including a display panel for emitting right-eye image light and left-eye image light and an optical filter including a first area for adjusting a polarized state of the right-eye image light and a second area for adjusting a polarized state of the left-eye image light, comprising a right-eye area allowing right-eye image light to pass therethrough and a left-eye area allowing left-eye image light to pass therethrough; and compensation films disposed at the right-eye area and the left-eye area to compensate for a phase difference deviation between the first and second areas of the optical filter, wherein a phase difference value of the compensation film provided at the right-eye area and that of the compensation film provided at the left-eye area are different.
    • 提供了用于立体显示装置的3D眼镜,其包括用于发射右眼图像光和左眼图像光的显示面板和包括用于调节右眼图像光的偏振状态的第一区域的光学滤波器,以及 用于调节左眼图像光的偏振状态的第二区域,包括允许右眼图像光通过的右眼区域和允许左眼图像光通过的左眼区域; 以及配置在右眼区域和左眼区域的补偿膜,以补偿滤光器的第一和第二区域之间的相位差偏差,其中,设置在右眼区域的补偿膜的相位差值 并且在左眼区域提供的补偿膜的位置不同。