会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 2. 发明授权
    • “Eggcrate”底盘为扭转球显示
    • US5815306A
    • 1998-09-29
    • US773664
    • 1996-12-24
    • Nicholas K. SheridonLinda T. RomanoJames C. Mikkelsen, Jr.Edward A. RichleyJoseph M. Crowley
    • Nicholas K. SheridonLinda T. RomanoJames C. Mikkelsen, Jr.Edward A. RichleyJoseph M. Crowley
    • G02B26/02G09F9/37G02B26/00
    • G02B26/026G09F9/372
    • A gyricon or rotating-particle display having an "eggcrate" substrate. The display includes a substrate having a cavity-containing matrix whose cavities are disposed substantially in a single layer and are arranged within the matrix substantially in a geometrically regular pattern, and a plurality of optically anisotropic particles disposed in the cavities in the substrate, with each cavity containing at most one of the optically anistropic particles. A rotatable disposition of each particle is achievable while the particle is thus disposed in the substrate; the particle, when in its rotatable disposition, is not attached to the substrate. Each particle, for example, can have an anisotropy for providing an electrical dipole moment, the electrical dipole moment rendering the particle electrically responsive such that when the particle is rotatably disposed in an electric field while the electrical dipole moment of the particle is provided, the particle tends to rotate to an orientation in which the electrical dipole moment aligns with the field. The single layer of cavities can be substantially planar, and the geometrical pattern of cavities can be a two-dimensional array pattern in the plane of the layer, such as a hexagonal, rectangular, or rhomboidal array pattern. The substrate can further include first and second members between which members the matrix is disposed; at least one of the members can include an optically transmissive window through which a flux of optical energy can pass so as to be incident on the particles.
    • 具有“茄子”底物的陀螺仪或旋转粒子显示器。 显示器包括具有空腔的基体,其空腔基本上设置在单层中并且基本上以几何规则的图案布置在基体内,以及设置在基底中的空腔中的多个光学各向异性颗粒,每个 含有至多一个光学吸收性颗粒的空腔。 可以实现每个颗粒的可旋转布置,同时颗粒因此设置在基板中; 当处于其可旋转的位置时,颗粒不附着到基底上。 例如,每个颗粒可以具有用于提供电偶极矩的各向异性,电偶极矩使得颗粒电响应,使得当颗粒可旋转地设置在电场中同时提供颗粒的电偶极矩时, 颗粒倾向于旋转到电偶极矩与场对准的取向。 单层空腔可以是基本上平面的,空腔的几何图案可以是层的平面中的二维阵列图案,例如六边形,矩形或菱形阵列图案。 衬底还可以包括第一和第二构件,构件之间设置有矩阵; 所述构件中的至少一个可以包括光学透射窗口,光学能量通过该窗口可以通过以便入射到颗粒上。
    • 3. 发明授权
    • Twisting-cylinder display
    • US06497942B2
    • 2002-12-24
    • US09970070
    • 2001-10-02
    • Nicholas K. SheridonJoseph M. Crowley
    • Nicholas K. SheridonJoseph M. Crowley
    • B32B2714
    • G02B26/026G09F9/372Y10T428/1405Y10T428/24802
    • A gyricon or twisting-particle display based on nonspheroidal (e.g., substantially cylindrical) optically anisotropic particles disposed in a substrate. The particles can be either bichromal or polychromal cylinders, preferably aligned parallel to one another and packed close together in a monolayer. A rotatable disposition of each particle is achievable while the particle is thus disposed in the substrate; for example, the particles can already be rotatable in the substrate, or can be rendered rotatable in the substrate by a nondestructive operation performed on the substrate. In particular, the substrate can be made up of an elastomer that is expanded by application of a fluid thereto so as to render the particles rotatable therein. A particle, when in its rotatable disposition, is not attached to the substrate. The close-packed monolayer configuration of particles provides excellent brightness characteristics and relative ease of manufacture as compared with certain other high-brightness gyricon displays. The substrate containing the cylinders can be fabricated with the swelled-elastomer techniques known from spherical-particle gyricon displays, with a simple agitation process step being used to align the cylinders within the sheeting material. Techniques for fabricating the cylinders are also disclosed.
    • 4. 发明授权
    • Twisting-cylinder display
    • 扭转缸显示
    • US6055091A
    • 2000-04-25
    • US716672
    • 1996-09-13
    • Nicholas K. SheridonJoseph M. Crowley
    • Nicholas K. SheridonJoseph M. Crowley
    • G02B26/02G09F9/37G02B26/00
    • G02B26/026G09F9/372
    • A gyricon or twisting-particle display based on nonspheroidal (e.g., substantially cylindrical) optically anisotropic particles disposed in a substrate. The particles can be bichromal cylinders, preferably aligned parallel to one another and packed close together in a monolayer. A rotatable disposition of each particle is achievable while the particle is thus disposed in the substrate; for example, the particles can already be rotatable in the substrate, or can be rendered rotatable in the substrate by a nondestructive operation performed on the substrate. In particular, the substrate can be made up of an elastomer that is expanded by application of a fluid thereto so as to render the particles rotatable therein. A particle, when in its rotatable disposition, is not attached to the substrate. The close-packed monolayer configuration of particles provides excellent brightness characteristics and relative ease of manufacture as compared with certain other high-brightness gyricon displays. The substrate containing the cylinders can be fabricated with the swelled-elastomer techniques known from spherical-particle gyricon displays, with a simple agitation process step being used to align the cylinders within the sheeting material. Techniques for fabricating the cylinders are also disclosed.
    • 基于设置在基板中的非球形(例如,基本上圆柱形)的光学各向异性颗粒的陀螺仪或扭曲粒子显示器。 颗粒可以是双重色圆柱体,优选彼此平行排列并且以单层紧密堆积在一起。 可以实现每个颗粒的可旋转布置,同时颗粒因此设置在基板中; 例如,颗粒可以在衬底中可以旋转,或者可以通过在衬底上进行的非破坏性操作而在衬底中转动。 特别地,基板可以由弹性体构成,弹性体通过向其中施加流体而膨胀以使颗粒在其中可旋转。 当颗粒处于其可旋转的位置时,未附着到基底上。 与某些其他高亮度陀螺显示器相比,颗粒的紧密单层构造提供了优异的亮度特性和相对的制造容易度。 含有圆柱体的基材可以用球形颗粒陀螺仪显示器已知的膨胀弹性体技术制造,其中使用简单的搅拌工艺步骤使压片材料内的气缸对准。 还公开了用于制造气缸的技术。
    • 5. 发明授权
    • Twisting-cylinder display
    • 扭转缸显示
    • US06428868B1
    • 2002-08-06
    • US08960865
    • 1997-10-30
    • Nicholas K. SheridonJoseph M. Crowley
    • Nicholas K. SheridonJoseph M. Crowley
    • B32B3300
    • G02B26/026G09F9/372Y10T428/1405Y10T428/24802
    • A gyricon or twisting-particle display based on nonspheroidal (e.g., substantially cylindrical) optically anisotropic particles disposed in a substrate. The particles can be either bichromal or polychromal cylinders, preferably aligned parallel to one another and packed close together in a monolayer. A rotatable disposition of each particle is achievable while the particle is thus disposed in the substrate; for example, the particles can already be rotatable in the substrate, or can be rendered rotatable in the substrate by a nondestructive operation performed on the substrate. In particular, the substrate can be made up of an elastomer that is expanded by application of a fluid thereto so as to render the particles rotatable therein. A particle, when in its rotatable disposition, is not attached to the substrate. The close-packed monolayer configuration of particles provides excellent brightness characteristics and relative ease of manufacture as compared with certain other high-brightness gyricon displays. The substrate containing the cylinders can be fabricated with the swelled-elastomer techniques known from spherical-particle gyricon displays, with a simple agitation process step being used to align the cylinders within the sheeting material. Techniques for fabricating the cylinders are also disclosed.
    • 基于设置在基板中的非球形(例如,基本上圆柱形)的光学各向异性颗粒的陀螺仪或扭曲粒子显示器。 颗粒可以是双色或多色圆筒,优选彼此平行排列并以单层紧密堆积。 可以实现每个颗粒的可旋转布置,同时颗粒因此设置在基板中; 例如,颗粒可以在衬底中可以旋转,或者可以通过在衬底上进行的非破坏性操作而在衬底中转动。 特别地,基板可以由弹性体构成,弹性体通过向其中施加流体而膨胀以使颗粒在其中可旋转。 当颗粒处于其可旋转的位置时,未附着到基底上。 与某些其他高亮度陀螺显示器相比,颗粒的紧密单层构造提供了优异的亮度特性和相对的制造容易度。 含有圆柱体的基材可以用球形颗粒陀螺仪显示器已知的膨胀弹性体技术制造,其中使用简单的搅拌工艺步骤使压片材料内的气缸对准。 还公开了用于制造气缸的技术。
    • 8. 发明授权
    • Ink jet printer with satellite droplet control
    • 具有卫星液滴控制的喷墨打印机
    • US4734705A
    • 1988-03-29
    • US895417
    • 1986-08-11
    • Ivan RezankaJoseph M. Crowley
    • Ivan RezankaJoseph M. Crowley
    • B41J2/12G01D15/18
    • B41J2/12
    • An externally stimulated continuous stream ink jet printer which suppresses or controls the formation of satellite droplets so that they are not charged differently from the main droplets. Thus, when the two are merged, indeterminate charges are not produced which would impact the print quality of the printer. The satellites are suppressed by impressing on the printer ink streams a combination of time-varying pressures. In one embodiment, the time-varying pressures are generated by two time-varying voltages applied to the EHD electrodes. One pressure has a fundamental frequency with the second pressure having a second harmonic frequency, these two pressures having a predetermined phase and amplitudes with respect to each other. The fundamental frequency is selected for a required drop spacing to stream diameter ratio.
    • 外部刺激的连续流喷墨打印机,其抑制或控制卫星液滴的形成,使得它们不与主液滴不同地充电。 因此,当两者合并时,不产生将影响打印机的打印质量的不确定的费用。 通过在打印机墨水流上压缩时间压力的组合来抑制卫星。 在一个实施例中,时变压力由施加到EHD电极的两个时变电压产生。 一个压力具有基本频率,其中第二压力具有二次谐波频率,这两个压力具有相对于彼此的预定相位和振幅。 选择基本频率用于所需的液滴间距与流径比。