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    • 4. 发明授权
    • Liquid crystal display device and method for producing the same
    • 液晶显示装置及其制造方法
    • US5644371A
    • 1997-07-01
    • US434487
    • 1995-05-04
    • Mitsuhiro KodenAya MiyazakiTokihiko Shinomiya
    • Mitsuhiro KodenAya MiyazakiTokihiko Shinomiya
    • G02F1/1335G02F1/1339G02F1/141
    • G02F1/141G02F1/13394
    • A liquid crystal display device includes a ferroelectric liquid crystal layer. The ferroelectric liquid crystal molecules have pretilt directions defined by first direction vectors obtained by orthogonally projecting first imaginary vectors to each surface of a pair of substrates. The first imaginary vectors are parallel to the liquid crystal molecules in the ferroelectric liquid crystal layer in the vicinity of the substrates and directed away from each surface of the pair of substrates toward a center portion of the ferroelectric liquid crystal layer in its thickness direction. The ferroelectric liquid crystal layer has a chevron layered structure. A bending direction of the smectic layers is the same direction as the first direction vector obtained by orthogonally projecting a second imaginary vector to the substrates. The second imaginary vector is parallel to the smectic layers and is included in the same plane with the first imaginary vector and is directed away from the substrates toward the center of the ferroelectric liquid crystal layer. Walls made of insulating non-liquid crystal material are formed between the pair of substrates in a direction perpendicular to the surfaces of the pair of substrates and a light-shielding film is formed on either one of the substrates so that light does not pass through portions of the ferroelectric liquid crystal in a vicinity of a downstream side of the walls along the pretilt direction.
    • 液晶显示装置包括铁电液晶层。 铁电液晶分子具有通过将第一虚数向量正交地投影到一对基板的每个表面而获得的第一方向向量限定的预倾斜方向。 第一虚数矢量与基板附近的铁电液晶层中的液晶分子平行,并且在一对基板的各表面朝着铁电液晶层的厚度方向的中心部分。 铁电液晶层具有V形层状结构。 近晶层的弯曲方向与通过将第二假想矢量正交地投影到基板而获得的第一方向矢量相同。 第二假想矢量与近晶层平行,并且与第一假想矢量包含在同一平面中,并且朝向铁电液晶层的中心远离衬底。 由绝缘非液晶材料构成的壁在垂直于一对基板的表面的方向上形成在一对基板之间,并且在任一个基板上形成遮光膜,使得光不通过部分 的铁电液晶沿着预倾斜方向在壁的下游侧附近。
    • 7. 发明授权
    • Liquid crystal display device with a polymer between liquid crystal
regions made by a heating and cooling process
    • 具有通过加热和冷却过程制成的液晶区域之间的聚合物的液晶显示装置
    • US5535026A
    • 1996-07-09
    • US504131
    • 1995-07-19
    • Koichi FujimoriShinji YamagishiTokihiko Shinomiya
    • Koichi FujimoriShinji YamagishiTokihiko Shinomiya
    • G02F1/1333G02F1/1339G02F1/1341G02F1/13
    • G02F1/13394G02F1/133377
    • A liquid crystal display device includes a pair of substrates provided with electrodes, at least one of the substrates being transparent, a liquid crystal region and a polymeric wall surrounding the liquid crystal region, the liquid crystal region and the polymeric wall being interposed between the pair of substrates. Such a liquid crystal display device can be obtained by a method including at least one step of heating a liquid crystal cell including a mixture containing a liquid crystal material and a photocurable resin interposed between the pair of substrates to a temperature higher than the transition temperature of the liquid crystal material in order to control a mobility of the liquid crystal material and the photocurable resin; and at least one step of cooling the heated liquid crystal cell to a temperature lower than the transition temperature in order to cause phase separation of the liquid crystal material from the photocurable resin and form a liquid crystal region and a polymeric wall at desired locations.
    • 液晶显示装置包括一对基板,其具有电极,至少一个基板是透明的,液晶区域和围绕液晶区域的聚合物壁,液晶区域和聚合物壁插入该对之间 的底物。 这样的液晶显示装置可以通过以下方法获得:至少一个步骤:将包含液晶材料的混合物和插入该一对基板之间的光固化树脂的液晶单元加热至高于 液晶材料,以控制液晶材料和光固化树脂的迁移率; 以及将加热的液晶单元冷却至低于转变温度的温度的至少一个步骤,以使液晶材料与光固化树脂相分离,并在所需位置形成液晶区域和聚合物壁。
    • 8. 发明授权
    • Liquid crystal display device
    • 液晶显示装置
    • US5529818A
    • 1996-06-25
    • US291851
    • 1994-08-17
    • Kazuhiko TsudaTokihiko ShinomiyaShinji YamagishiShuichi Kozaki
    • Kazuhiko TsudaTokihiko ShinomiyaShinji YamagishiShuichi Kozaki
    • G02F1/1337G02F1/139
    • G02F1/1391G02F1/133711G02F1/133753Y10T428/1005
    • A liquid crystal display device includes upper and lower substrates having upper and lower electrodes formed on a surface of respective upper and lower substrates, and upper and lower orientation films formed over the surface of respective upper and lower electrodes. A nematic liquid crystal is sandwiched between the upper and lower substrates. A driver mechanism shifts the longitudinal axes of molecules of the liquid crystal, and is adapted to apply a voltage to the liquid crystal for selectively and bistably executing switching between a first state in which the longitudinal axes of liquid crystal molecules adjacent the upper substrate have a tilt angle with respect to the upper substrate and the longitudinal axes of liquid crystal molecules adjacent the lower substrate are parallel to the lower substrate, while the longitudinal axes of liquid crystal molecules adjacent the upper and lower substrates projected on the planes of the upper and lower substrates are oriented in a generally same direction, and a second state wherein the longitudinal axes of the liquid crystal molecules adjacent the lower substrate have a tilt angle with respect to the cross-sectional direction of the lower substrate and the longitudinal axes of the liquid crystal molecules adjacent the upper substrate are parallel to the cross-sectional direction of the upper substrate, while the longitudinal axes of the liquid crystal molecules adjacent the lower and upper substrates projected on the lower and upper substrates are oriented in a generally same direction.
    • 一种液晶显示装置,包括上下基板,上下基板形成在上下基板的表面上,上下取向膜形成在上下电极的表面上。 向列液晶夹在上下基板之间。 驱动器机构使液晶的分子的纵轴移动,并且适于向液晶施加电压,以选择性地且双向地执行切换,其中第一状态与其相邻的液晶分子的纵向轴线具有 相邻于上基板的倾斜角度和与下基板相邻的液晶分子的纵向轴线平行于下基板,而与上下基板相邻的液晶分子的纵向轴线投影在上下基板的平面上 基板沿大致相同的方向取向,并且第二状态,其中与下基板相邻的液晶分子的纵向轴线相对于下基板的横截面方向具有倾斜角,并且液晶的纵向轴线 与上基板相邻的分子平行于横截面方向 同时突出在下基板和上基板上的下基板和上基板相邻的液晶分子的纵向轴线在大致相同的方向上取向。