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    • 2. 发明授权
    • Liquid crystal composition, liquid crystal device using the composition,
liquid crystal apparatus and display method
    • 液晶组合物,使用组合物的液晶装置,液晶装置和显示方法
    • US5688437A
    • 1997-11-18
    • US422262
    • 1995-04-14
    • Koichi SatoHiroyuki KitayamaKenji ShinjoKatsutoshi NakamuraShinichi Nakamura
    • Koichi SatoHiroyuki KitayamaKenji ShinjoKatsutoshi NakamuraShinichi Nakamura
    • C09K19/34C09K19/12C09K19/20C09K19/32
    • C09K19/34
    • A liquid crystal composition includes a liquid crystal containing at least one mesomorphic compound having a cholesteric phase (Ch phase)-free mesomorphic phase, and at least one compound (e) having a limit of solubility in the liquid crystal and being contained in the composition in a proportion ranging from 20% of the limit of solubility to below the limit of solubility. The liquid crystal composition may preferably include the liquid crystal containing at least one fluorine-containing mesomorphic compound (a) having a fluorocarbon terminal portion and a hydrocarbon terminal portion, and at least one achiral compound (b), a the compound (e), having a specific ring structure and a specific terminal alkyl group free from a perfluorocarbon atom. The compound having a Ch phase-free mesomorphic phase, preferably the compound (a), and the compound (e), preferably the compound (b) are effective in providing the liquid crystal composition with a layer structure of so-called bookshelf or a layer structure having a small inclination angle (closer to bookshelf structure). The liquid crystal composition is useful in improving response characteristics and display characteristics, particularly a contrast ratio, of a liquid crystal device using the liquid crystal composition.
    • 液晶组合物包括含有至少一种具有胆甾型相(Ch相) - 自由相态的介晶化合物的液晶和至少一种在液晶中具有极限溶解性并包含在该组合物中的化合物(e) 其比例范围从溶解度的20%到低于溶解度的极限。 液晶组合物可以优选包含含有至少一种含氟碳末端部分和烃末端部分的含氟介晶化合物(a)的液晶,以及至少一种非手性化合物(b),化合物(e), 具有特定的环结构和不含全氟化碳原子的特定末端烷基。 具有Ch相无介晶相的化合物,优选化合物(a)和化合物(e),优选化合物(b))有效地为所述液晶组合物提供所谓书架或 层结构具有较小的倾斜角度(更靠近书架结构)。 液晶组合物可用于改善使用液晶组合物的液晶装置的响应特性和显示特性,特别是对比度。
    • 3. 发明授权
    • Large-scale cleaning vehicle
    • 大型清洗车
    • US06230363B1
    • 2001-05-15
    • US09395949
    • 1999-09-14
    • Yuzo KawaiKatsutoshi Nakamura
    • Yuzo KawaiKatsutoshi Nakamura
    • A47L508
    • E01H1/0845E01H1/02E01H1/047E01H1/05
    • A large-scale cleaning vehicle, for operation with a forklift, includes rotation brushes for sweeping debris toward a center of said cleaning vehicle, a sweeping brush for sweeping the debris into a debris collection box and a fan for pulling said debris into said debris collection box without the need for a motor in the cleaning vehicle. Each of the rotation brushes, the sweeping brush, and the fan are rotatably connected to a rear wheel of the cleaning vehicle such that when the cleaning vehicle is moved, the brushes and fan are rotated. The cleaning vehicle further includes a vertical adjustment for the rotation brushes to lift them when they are not needed, a lateral adjustment for the rotation brushes to adjust a width of sweeping, an audible warning for pedestrians, a water sprinkler system to aid in the cleaning process, and a large-scale trash removal brush mounted in front of the cleaning vehicle to push large-scale trash.
    • 用于与叉车一起操作的大型清洁车辆包括用于将碎屑朝向清洁车辆的中心扫掠的旋转刷,用于将碎屑扫入碎片收集箱的清扫刷和用于将所述碎屑拉入所述碎片收集器的风扇 盒子,而不需要在清洁车辆中的电动机。 旋转刷,扫掠刷和风扇中的每一个可旋转地连接到清洁车辆的后轮,使得当清洁车辆移动时,刷子和风扇旋转。 清洁车辆还包括用于旋转刷子的垂直调节器,以便在不需要时提升它们,用于旋转刷子的横向调整以调整扫掠宽度,用于行人的可听见的警告,用于辅助清洁的喷水灭火系统 过程和安装在清洁车辆前面的大型垃圾清除刷以推动大规模垃圾。
    • 6. 发明授权
    • Liquid crystal device and liquid crystal apparatus
    • 液晶装置和液晶装置
    • US5686019A
    • 1997-11-11
    • US728558
    • 1996-10-09
    • Katsutoshi Nakamura
    • Katsutoshi Nakamura
    • G02F1/1337C09K19/52G02F1/133
    • G02F1/133723G02F1/133711G02F1/133719Y10T428/1023Y10T428/1027
    • A liquid crystal device is constituted by a first substrate and a second substrate disposed opposite to each other, and a liquid crystal lacking cholesteric phase disposed between the first and second substrates. The first substrate has a surface contacting the liquid crystal showing a surface energy .gamma..sub.1 (dyne/cm) and the second substrate has a surface contacting the liquid crystal showing a surface energy .gamma..sub.2 (dyne/cm) satisfying .gamma..sub.1 >.gamma..sub.2. The surface of the first substrate is provided with a film of a polyimide or an aromatic polyamide, and the surface of the first substrate having been selectively subjected to a uniaxial aligning treatment. As a result, the liquid crystal can assume a stable alignment state of a bookshelf structure or one close thereto having a small layer inclination angle. The resultant device can show a high contrast and a good responsiveness.
    • 液晶装置由彼此相对布置的第一基板和第二基板以及设置在第一和第二基板之间的缺少胆甾醇相的液晶构成。 第一衬底具有与液晶显示表面能γ1(达因/厘米)的表面,并且第二衬底具有与液晶接触的表面,其表现出满足γ1>γ2的表面能γ2(达因/厘米)。 第一基板的表面设置有聚酰亚胺或芳香族聚酰胺的膜,并且第一基板的表面被选择性地进行单轴对准处理。 结果,液晶可以呈现具有小层倾斜角的书架结构或靠近其的稳定对准状态。 所得到的装置可以显示高对比度和良好的响应性。
    • 9. 发明授权
    • Aligning method of liquid crystal, production process of liquid crystal
device, and liquid crystal device
    • 液晶对准方法,液晶装置生产工艺和液晶装置
    • US5798056A
    • 1998-08-25
    • US594796
    • 1996-01-31
    • Katsutoshi Nakamura
    • Katsutoshi Nakamura
    • C09K19/02G02F1/1337G02F1/141C09K19/52
    • C09K19/0266G02F1/133784G02F1/141Y10T428/1005
    • An aligning method of a chiral smectic liquid crystal showing a phase transition series of isotropic phase, smectic phase, and chiral smectic phase in this order on temperature decrease is provided. In the aligning method, the chiral smectic liquid crystal is disposed between a pair of electrode plates at least one of which is provided with an alignment control layer, preferably one having been subjected to a uniaxial aligning treatment (e.g., rubbing), and then is subjected to a treatment including a cycle of heating and cooling in temperatures ranging between a lower limit temperature showing chiral smectic phase and an upper limit temperature showing isotropic phase and smectic phase in mixture. The upper limit temperature may preferably be below an isotropic-smectic phase transition temperature by at most 3.degree. C., particularly at most 1.degree. C. The aligning method is effective in improving an alignment characteristic of liquid crystal molecules to provide a uniform alignment state free from an aligning defect.
    • 提供了一种手性近晶液晶的取向方法,该方法在温度降低时依次显示各向同性相,近晶相和手性近晶相的相变系列。 在对准方法中,手性近晶液晶设置在一对电极板之间,其中至少一个电极板设置有取向控制层,优选经过单轴对准处理(例如,摩擦)的电极板,然后是 经受包括在显示手性近晶相的下限温度和显示各向同性相的上限温度和混合物中的近晶相之间的温度范围内的加热和冷却循环的处理。 上限温度可优选低于各向同性 - 近晶相转变温度至多3℃,特别是至多1℃。对准方法有效地改善液晶分子的取向特性以提供均匀的取向状态 没有对准缺陷。