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    • 1. 发明申请
    • A WINDOW, A METHOD FOR DISPLAYING A CHARACTER ON A WINDOW, AND A VISUAL DISPLAY PANEL
    • 窗口,用于在窗口上显示字符的方法和可视显示面板
    • WO2002101188A1
    • 2002-12-19
    • PCT/IE2002/000079
    • 2002-06-12
    • VLYTE INNOVATIONS LIMITEDO'KEEFFE, Donal, Martin
    • O'KEEFFE, Donal, Martin
    • E06B9/24
    • E06B9/24E06B2009/2464G02F1/1334G09F9/35
    • A window (1) comprising a window pane (3) is provided with a visual display panel (5) laminated to the window (1). The visual display panel (5) comprises a cholesteric liquid crystal medium (15) sandwiched between inner and outer substrates (11, 12) which are patterned with row and column electrodes (18, 19) for defining individual pixels (8) the panel (5). An ultraviolet film filter (16) is located between the outer protective panel (10) and the outer substrate (11). The pixels (8) are operable in a light transmitting state when powered up and in a light scattering state when powered down. Letters and numerals to display the information are formed by operating appropriate selected ones of the pixels (8) in the light scattering state. The remaining pixels (8) which form the background of the visual display panel (5) are operated in the light transmitting state. Accordingly, the panel facilitates the display of information on a shop window with minimum impairment to viewing of goods and other items in the shop window behind the panel (5) by the viewing public.
    • 包括窗玻璃(3)的窗(1)设置有层叠到窗(1)上的视觉显示面板(5)。 视觉显示面板(5)包括夹在内部和外部基板(11,12)之间的胆甾醇型液晶介质(15),其被图案化为用于限定面板(8)的各个像素(8,19)的行和列电极(18,19) 5)。 紫外线膜过滤器(16)位于外保护面板(10)和外基板(11)之间。 像素(8)在上电时处于透光状态,并且在断电时处于光散射状态。 用于显示信息的字母和数字通过在光散射状态下操作适当的所选像素(8)而形成。 形成视觉显示面板(5)的背景的剩余像素(8)在透光状态下操作。 因此,面板便于在商店橱窗上显示信息,同时以观众的身份在面板(5)后面的商店橱窗中查看货物和其他物品的最小损害。
    • 2. 发明申请
    • A WIDE OPERATING TEMPERATURE RANGE ELECTROPHORETIC DEVICE
    • 宽操作温度范围电泳装置
    • WO2015059029A1
    • 2015-04-30
    • PCT/EP2014/072241
    • 2014-10-16
    • VLYTE INNOVATIONS LIMITED
    • O'KEEFFE, Donal
    • G02F1/167
    • G02F1/167E06B9/24E06B2009/2464G02F2001/1678
    • An electrophoretic device (101) comprises a first electrode (60) and a second electrode (60) spaced apart from the first electrode (60). An electrophoretic cell (809) containing an electrophoretic ink (830) and one or more optically-transparent, non-planar, solid polymer elements (808) is located between the electrodes (60). The ink (830) includes charged particles (11) of at least one type suspended in an optically- transparent suspending fluid (820). The refractive indices of the solid polymer elements (808) and the suspending fluid (820) are matched to have a difference of less than 0.0075, and for half or more of the operating temperature range of the device (0°C-70°C), the thermo- optic coefficients (temperature coefficient of refractive index per Kelvin) of the solid polymer elements (808) and the suspending fluid (820) are matched to have an arithmetic-mean difference of less than 0.0002/K in magnitude.
    • 电泳装置(101)包括与第一电极(60)间隔开的第一电极(60)和第二电极(60)。 包含电泳墨水(830)和一个或多个光学透明非平面固体聚合物元件(808)的电泳池(809)位于电极(60)之间。 油墨(830)包括悬浮在光学透明悬浮液(820)中的至少一种类型的带电粒子(11)。 固体聚合物元件(808)和悬浮液(820)的折射率匹配,具有小于0.0075的差值,并且对于器件的工作温度范围(0℃-70℃)的一半或更多 ),固体聚合物元件(808)和悬浮液(820)的热光系数(每开氏体的折射率的温度系数)相匹配,具有小于0.0002 / K的算术平均差。
    • 6. 发明申请
    • AN ELECTROPHORETIC INSULATED GLASS UNIT
    • 电泳绝缘玻璃单元
    • WO2014191233A1
    • 2014-12-04
    • PCT/EP2014/060075
    • 2014-05-16
    • VLYTE INNOVATIONS LIMITED
    • O'KEEFFE, Donal
    • E06B3/66E06B3/24G02F1/167
    • G02F1/167E06B9/24E06B2009/2417E06B2009/2423E06B2009/2464G02B5/282G02F2001/1678
    • An electrophoretic insulated glass unit (IGU) comprises an electrophoretic laminate and a pane spaced apart from the electrophoretic laminate, the respective inner faces of the laminate and the pane defining a sealed cavity there between. An outer face of the electrophoretic laminate is in contact with an environment. One inner face of the cavity has a coating that is transparent to visible light and which rejects infrared light greater than a cut-off wavelength. The electrophoretic laminate includes an electrophoretic device including charged particles of at least one type in an electrophoretic cell, the particles being responsive to an electric field applied to the electrophoretic device to move between: a first extreme light state in which particles are maximally spread within the cell to lie in the path of sunlight through the cell and to strongly absorb visible sunlight transmitted through the cell and a second extreme light state in which the particles are maximally concentrated within the cell to remove them from the path of sunlight through the cell and to substantially transmit visible sunlight through the cell. The coating is arranged to direct thermal radiation emitted by the charged particles to the environment in contact with the outer face, and the sealed cavity is arranged to direct thermal conduction diffusing from the charged particles to the environment in contact with the outer face.
    • 电泳绝缘玻璃单元(IGU)包括电泳层压板和与电泳层压板间隔开的窗格,层压板和窗格的相应内表面在其间限定密封空腔。 电泳层压板的外表面与环境接触。 空腔的一个内表面具有对可见光透明的并且抑制大于截止波长的红外光的涂层。 电泳层压板包括电泳装置,其包括至少一种类型的电泳细胞中的带电粒子,所述颗粒响应于施加到电泳装置的电场,以在第一极光状态之间移动,其中颗粒在 细胞位于通过细胞的阳光的路径中并且强烈吸收透过细胞的可见光,并且第二极光状态,其中颗粒最大程度地集中在细胞内以将它们从阳光通过细胞的道路移除,并且 基本上透过细胞的可见光。 该涂层被布置成将由带电粒子发射的热辐射引导到与外表面接触的环境中,并且密封腔被布置成引导从带电粒子向与外表面接触的环境的热传导扩散。
    • 9. 发明申请
    • AN ELECTROPHORETIC DEVICE HAVING A TRANSPARENT LIGHT STATE
    • 具有透明光状态的电泳装置
    • WO2014146937A2
    • 2014-09-25
    • PCT/EP2014/054734
    • 2014-03-11
    • VLYTE INNOVATIONS LIMITED
    • O'KEEFFE, Donal
    • G02F1/167
    • G02F1/167G02F1/13306G02F1/13392G02F2001/13396G02F2203/01
    • A light attenuator comprises a cell comprising a first substrate and a second substrate spaced apart from the first substrate. A layer between the substrates contains an electrophoretic ink, a surface of the layer adjacent the second substrate comprising a monolayer of closely packed protrusions projecting into the layer. The protrusions have surfaces defining a plurality of depressions in the volumes there between. The ink includes charged particles of at least one type, the particles being responsive to an electric field applied to the cell to move between a first extreme light state, in which particles are maximally spread within the cell to lie in the path of light through the cell and to strongly attenuate light transmitted through the cell; over the surface of the protrusions, which deflect the particles from their path from the first substrate to the second substrate; to a second extreme light state in which the particles are maximally concentrated within the depressions to remove them from the path of light through the cell and to substantially transmit light through the cell.
    • 一种光衰减器包括一个包含第一衬底和与第一衬底间隔开的第二衬底的电池。 衬底之间的层包含电泳油墨,邻近第二衬底的层的表面包括突出到层中的紧密堆积的突起的单层。 突起具有在其间的体积中限定多个凹陷的表面。 墨水包括至少一种类型的带电粒子,该粒子响应于施加到该细胞的电场在第一极光之间移动,在该第一极光之间,粒子在该细胞内最大限度地扩散以位于通过该细胞的光路中 并强烈衰减透过细胞的光; 在所述突起的表面上方,所述突起使颗粒从其第一基底的路径偏转到第二基底; 到第二极光状态,其中颗粒在凹陷中最大程度地集中,以将它们从通过电池的光路径移除,并且基本上透射光通过电池。
    • 10. 发明申请
    • A METHOD FOR MICROENCAPSULATING ELECTRO-OPTICAL FLUID
    • 一种用于微电解光电流体的方法
    • WO2013110564A1
    • 2013-08-01
    • PCT/EP2013/051016
    • 2013-01-21
    • VLYTE INNOVATIONS LIMITED
    • O'KEEFFE, Donal
    • C09K19/54G02F1/1334G02F1/167
    • G02F1/167C09K19/544G02F1/1334
    • A method for microencapsulating electro-optical fluid comprises dispersing the electro-optical fluid as discrete droplets in a continuous aqueous phase, the droplets having at least partly solubilized therein polymer precursors. Thermally initiated free- radical polymerisation of the polymer precursors microencapsulates droplets of the electro-optical fluid inside respective generally spherical polymer shells. The polymer wall of each shell has a densely-crosslinked, polymer-network structure to provide chemical resistance. The polymer wall of each shell also has spacing within the crosslinks of the densely-crosslinked, polymer network structure to provide mechanical flexibility.
    • 用于微胶囊化电光流体的方法包括将电光流体作为离散的液滴分散在连续的水相中,所述液滴在其中具有至少部分溶解的聚合物前体。 聚合物前体的热引发的自由基聚合将各种通常为球形的聚合物壳内的电光流体的液滴微胶囊化。 每个壳的聚合物壁具有致密交联的聚合物网络结构以提供耐化学性。 每个壳体的聚合物壁也在密集交联的聚合物网络结构的交联中具有间隔,以提供机械灵活性。