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    • 51. 发明授权
    • Image forming apparatus
    • 图像形成装置
    • US5305053A
    • 1994-04-19
    • US20392
    • 1993-02-22
    • Yasuhiro HattoriMasashi Tsuda
    • Yasuhiro HattoriMasashi Tsuda
    • G03B27/32G03F7/00G03B27/52
    • G03B27/32G03F7/0022G03B2227/325
    • An image forming apparatus for forming an image by use of photosensitive microcapsules each consisting of an outer shell and a liquid component encapsulated in the outer shell. The liquid component contains an image forming material and a photocuring substance that is polymerized by light. The microcapsules are electrically charged to be supported on a support member. Then, the microcapsules are exposed to light having image information to selectively harden the microcapsules. The microcapsules not cured are ruptured to discharge the image forming material, thereby forming an image by the image forming material on an image receiving paper. Then, a residue inclusive of the remaining microcapsules and a part of the liquid component left on the support member are exposed again to light to be cured and solidified. The solidified residue on the support member is wholly removed by a cleaning member. Accordingly, the support member can be repeatedly used and a clear image with no stain can be formed on the image receiving paper.
    • 一种图像形成装置,用于通过使用包封在外壳中的外壳和液体成分组成的感光微胶囊形成图像。 液体成分含有成像材料和光聚合的光固化物质。 微胶囊被充电以支撑在支撑构件上。 然后,将微胶囊暴露于具有图像信息的光以选择性硬化微胶囊。 未固化的微胶囊破裂以排出图像形成材料,从而通过图像形成材料在图像接收纸上形成图像。 然后,将剩余的微胶囊和留在支撑部件上的液体成分的一部分残留再次曝光以固化和固化。 支撑构件上的固化残留物被清洁构件完全除去。 因此,可以重复使用支撑构件,并且可以在图像接收纸上形成没有污点的清晰图像。
    • 52. 发明授权
    • Optical transmission line having a core of a non-linear optical material
coated with an improved cladding
    • 具有涂覆有改进的包层的非线性光学材料的芯的光传输线
    • US5214736A
    • 1993-05-25
    • US730481
    • 1991-07-16
    • Takafumi UemiyaNaoto UenishiAkira MizoguchiYasuzi OhgakiYasuhiro Hattori
    • Takafumi UemiyaNaoto UenishiAkira MizoguchiYasuzi OhgakiYasuhiro Hattori
    • G02B6/02G02F1/383
    • G02F1/383G02B6/02
    • A single crystal non-linear optical transmission line is manufactured by using a cladding made of a glass material that eliminates or reduces the formation of an uneven inner wall of an optical fiber cladding made of a glass mother material. The improved glass material suppresses the elution of metal mono-oxides on the inner wall and results in a high yield of non-defective fiber manufacturing. A glass mother material, such as SF1, having a low concentration of lead oxide does not contribute to the elution problem common to higher concentration glass mother materials. A glass mother material having no metal oxides also overcomes the problem of elusion since substitute molecules, such as TaC6, do not elute in water or in acid solutions. These glass materials can be used to successfully form a non-defective core having a low refractive index layer of the inner wall and make possible single mode propagation of a laser light in a single crystal non-linear optical transmission line.
    • 通过使用由玻璃材料制成的包层来制造单晶非线性光传输线,其消除或减少由玻璃母材制成的光纤包层的不均匀内壁的形成。 改进的玻璃材料抑制内壁上金属一氧化物的洗脱,导致无缺陷纤维制造的高产率。 具有低氧化铅浓度的诸如SF1的玻璃母材对于高浓度玻璃母材常见的洗脱问题没有贡献。 没有金属氧化物的玻璃母体也克服了由于诸如TaC6的替代分子不在水中或在酸性溶液中洗脱的问题。 这些玻璃材料可以用于成功地形成具有内壁的低折射率层的无缺陷芯,并且可以在单晶非线性光传输线中实现激光的单模传播。
    • 53. 发明授权
    • Image recording apparatus provided with a selective power applying device
    • 具有选择性供电装置的图像记录装置
    • US5214478A
    • 1993-05-25
    • US780239
    • 1991-10-22
    • Yoshiyasu HonmaYasuhiro HattoriShigeru Kagayama
    • Yoshiyasu HonmaYasuhiro HattoriShigeru Kagayama
    • G03B27/32G03F7/00G03G15/34
    • G03G15/342G03B27/32G03F7/0025G03B2227/325
    • The invention relates to a selective particle applying device provided with a developer applying device. The selective particle applying device applies a developer to the entire surface of a capsule sheet coated with microcapsules, disposes the capsule sheet with its surface coated with the developer facing a developer removing electrode provided with a photoconductive member to which a predetermined voltage is applied, splits a light beam by a light beam splitter, irradiates the developer removing electrode with one of the split light beams, and irradiates the capsule sheet with the other split light beam. Portions of the photoconductive member irradiated intensely with the split light beam become conductive to enhance the intensity of electric fields created between conductive portions of the developer removing electrode and the capsule sheet. Consequently, the developer coating portions of the capsule sheet, corresponding to the conductive portions of the developer removing electrode, are drawn to the developer removing electrode to leave the developer only in portions of the capsule sheet necessary for forming an image.
    • 本发明涉及一种设置有显影剂施加装置的选择性颗粒施加装置。 选择性颗粒施加装置将显影剂施加到涂覆有微胶囊的胶囊片的整个表面,将其表面涂覆有显影剂的胶囊片面向设置有施加了预定电压的感光体的显影剂除去电极,分裂 通过光束分离器的光束用分离光束之一照射显影剂移除电极,并且用另一个分割光束照射胶囊片材。 与分束光强烈照射的感光体的部分变得导电,以增强显影剂移除电极和胶囊片的导电部分之间产生的电场强度。 因此,与显影剂除去电极的导电部分相对应的胶囊片的显影剂涂布部分被吸引到显影剂移除电极,仅在形成图像所需的胶囊片的部分中留下显影剂。
    • 54. 发明授权
    • Image forming apparatus for forming an image on a pressure-deformable
material
    • 用于在压力可变形材料上形成图像的图像形成装置
    • US5164762A
    • 1992-11-17
    • US822659
    • 1992-01-21
    • Yasuhiro HattoriYoshiyasu Honma
    • Yasuhiro HattoriYoshiyasu Honma
    • G03B27/32G03F7/00
    • G03B27/32G03F7/0022G03B2227/325
    • An image forming apparatus for forming an image on a pressure-deformable or pressure-damageable image receiving member, such as corrugated cardboard, using a photosensitive, pressure-sensitive recording medium referred to as a microcapsule sheet which has a surface coated with an immense number of microcapsules encapsulating a chromogenic material therein. The microcapsule sheet is exposed to imaging light to form a latent image thereon. A developing agent is deposited on the latent image formed portion of the recording medium and a pressure is applied thereto to develop a visible image. The visible image is formed on the microcapsule or another member. In a thermal transfer section, the imaged microcapsule sheet and the image receiving member which are superposed one on the other are heated to transfer the image onto the surface of the image receiving member.
    • 一种图像形成装置,用于使用称为微胶囊片的感光性压敏记录介质在瓦楞纸板上形成压力可变形或可压缩损伤的图像接收部件上的图像,所述微胶囊片材具有涂覆有大量 的包封其中的显色材料的微胶囊。 将微胶囊片材暴露于成像光以在其上形成潜像。 将显影剂沉积在记录介质的潜像形成部分上,施加压力以形成可见图像。 可见图像形成在微胶囊或其他构件上。 在热转印部分中,加热彼此重叠的成像微胶囊片和图像接收部件,以将图像转印到图像接收部件的表面上。
    • 56. 发明授权
    • Imaging material providing device
    • 成像材料提供装置
    • US5099271A
    • 1992-03-24
    • US642845
    • 1991-01-18
    • Masataka MaedaYasuhiro Hattori
    • Masataka MaedaYasuhiro Hattori
    • B41J2/415G03B27/32G03G15/08
    • G03B27/32B41J2/4155G03G15/0805G03G15/0806
    • An imaging material providing device of the present invention comprises: means for carrying imaging material particles charged to a first polarity, the imaging material carrying means having a portion formed of elastic material for holding the imaging material particles; means for receiving imaging material particles, the imaging material carrying means being disposed apart from the imaging material carrying means with a gap therebetween and being charged to a second polarity opposite to the first polarity so that the imaging material particles may be electrostatically attached onto the imaging material receiving means; means for elastically deforming the elastic portion of the carrying means, the imaging material particles being introduced into the gap when the deformed elastic portion is restored; and means for generating an electric field in the gap and electrostatically attracting the charged imaging material particles in a direction toward the imaging material receiving means.
    • 本发明的成像材料提供装置包括:用于携带成像材料颗粒的装置,该装置具有第一极性,所述成像材料承载装置具有由用于保持成像材料颗粒的弹性材料形成的部分; 用于接收成像材料颗粒的装置,所述成像材料承载装置与所述成像材料承载装置分开设置,在所述成像材料承载装置之间具有间隙,并将其充电到与所述第一极性相反的第二极性,使得所述成像材料颗粒可以静电附着到所述成像 材料接收装置; 用于使承载装置的弹性部分弹性变形的装置,当变形的弹性部分恢复时,成像材料颗粒被引入到间隙中; 以及用于在间隙中产生电场并在朝向成像材料接收装置的方向上静电吸引带电成像材料颗粒的装置。
    • 58. 发明申请
    • Information processing apparatus, data transfer method, and computer-readable recording medium
    • 信息处理装置,数据传输方法和计算机可读记录介质
    • US20110055508A1
    • 2011-03-03
    • US12805961
    • 2010-08-26
    • Yasuhiro Hattori
    • Yasuhiro Hattori
    • G06F12/00
    • H04N1/00965G06F2221/2107H04N1/0097H04N1/32358H04N2201/0091
    • An information processing apparatus includes a first storage for storing pre-existing data including a program for operating the information processing apparatus; an input unit for inputting data into the information processing apparatus from outside via a recording medium; a detecting unit for detecting that a second storage is additionally installed in the information processing apparatus; a display unit for prompting input of the recording medium recording a data transfer program, when it is detected that the second storage is additionally installed; and a transfer unit for transferring the pre-existing data from the first storage to the second storage in accordance with the data transfer program, when the data transfer program recorded in the recording medium is input by the input unit. The transfer unit temporarily saves the pre-existing data in a save area in the recording medium before transferring the pre-existing data to the second storage unit.
    • 信息处理设备包括:第一存储器,用于存储包含用于操作信息处理设备的程序的预先存在的数据; 输入单元,用于经由记录介质从外部向所述信息处理设备输入数据; 检测单元,用于检测另外安装在所述信息处理设备中的第二存储器; 当检测到另外安装了第二存储器时,用于提示记录数据传送程序的记录介质的输入的显示单元; 以及传送单元,用于当由输入单元输入记录在记录介质中的数据传送程序时,根据数据传送程序将预先存储的数据从第一存储器传送到第二存储器。 在将预先存在的数据传送到第二存储单元之前,传送单元临时保存在记录介质中的保存区域中的预先存在的数据。
    • 59. 发明授权
    • Display medium and method of manufacturing display medium
    • 显示介质和制造显示介质的方法
    • US07706051B2
    • 2010-04-27
    • US11690817
    • 2007-03-24
    • Yasuhiro HattoriHiroyuki Enomoto
    • Yasuhiro HattoriHiroyuki Enomoto
    • G02B26/00G02B26/08G02F1/29
    • G02F1/167G02F1/133305G02F1/133377G02F2001/1672G02F2001/1678
    • A display medium includes a pair of substrates, an electrophoretic medium, and a partitioning medium. The pair of substrates is disposed in spaced-apart relation and substantially parallel to each other. The electrophoretic medium is disposed between the pair of substrates and contains charged particles. An electric field generated between the pair of substrates causes the charged particles contained in the electrophoretic medium to migrate for switching a display state. The partitioning medium has fluidity and is phase-separated from the electrophoretic medium at least at room temperature. The partitioning medium is in a phase-separated state phase-separated from the electrophoretic medium. The partitioning medium is disposed between the pair of substrates as a partition to partition the electrophoretic medium.
    • 显示介质包括一对基板,电泳介质和分隔介质。 一对基板以间隔的关系设置并且基本上彼此平行。 电泳介质设置在一对基板之间并且包含带电粒子。 在一对基板之间产生的电场使包含在电泳介质中的带电粒子迁移以切换显示状态。 分配介质具有流动性,并且至少在室温下与电泳介质相分离。 分配介质处于与电泳介质相分离的相分离状态。 分隔介质设置在一对基板之间,作为分隔电泳介质的隔板。