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    • 2. 发明授权
    • Two component development apparatus and process cartridge
    • 双组分开发设备和处理盒
    • US07003250B2
    • 2006-02-21
    • US10745532
    • 2003-12-29
    • Junichi SanoTakeyoshi Sekine
    • Junichi SanoTakeyoshi Sekine
    • G03G15/08G03G15/09
    • G03G15/0812G03G2215/0634G03G2221/183
    • A two-component developing apparatus includes a developer carrier, a first regulating member, a developer container, and a toner container. The developer carrier is configured to carry and transfer the two-component developer including a magnetic carrier. The first regulating member is configured to regulate an amount of the two-component developer carried and transferred by the developer carrier. The developer container is configured to receive the developer removed by the first, regulating member. The toner container is configured to supply toner to the developer carrier. The developer stirring member is configured to carry and stir the developer between the first regulating member and the second regulating member. The second regulating member includes a support member on one end side of the second regulating member in its longitudinal direction to which greater amount of the developer is supplied than to another end side of the second regulating member.
    • 双组分显影装置包括显影剂载体,第一调节构件,显影剂容器和调色剂容器。 显影剂载体构造成携带和转移包括磁性载体的双组分显影剂。 第一调节构件被配置为调节由显影剂载体承载和转移的双组分显影剂的量。 显影剂容器构造成接收由​​第一调节构件去除的显影剂。 调色剂容器被配置为向显影剂载体供应调色剂。 显影剂搅拌构件构造成携带和搅拌第一调节构件和第二调节构件之间的显影剂。 第二调节构件包括在第二限制构件的一个端侧上的支撑构件,该支撑构件在其纵向方向上与第二限制构件的另一端侧相比供给大量的显影剂。
    • 4. 发明授权
    • Method for manufacturing film formation member
    • 膜形成部件的制造方法
    • US08062714B2
    • 2011-11-22
    • US12535906
    • 2009-08-05
    • Junichi Sano
    • Junichi Sano
    • C08F2/46
    • G02B5/201
    • A method is provided for manufacturing a film formation member having a dividing wall provided on a substrate to form a plurality of partitioned sections with a film being formed within each of the partitioned sections by discharging a predetermined amount of liquid within each of the partitioned sections. The method includes identifying a position of at least one of the partitioned section as a partitioned section with nonuniform liquid affinity among the partitioned sections, and discharging the liquid over a wider discharge range inside the partitioned section with nonuniform liquid affinity than a discharge range inside a partitioned section other than the partitioned section with nonuniform liquid affinity.
    • 提供了一种用于制造具有设置在基板上的分隔壁的成膜部件的方法,以通过在每个分隔部分内排出预定量的液体而在每个分隔部分内形成具有膜的多个分隔部分。 该方法包括将分隔部分中的至少一个的位置识别为在分隔部分之间具有不均匀的液体亲和力的分隔部分,并且在分隔部分内的较宽排放范围内以不均匀的液体亲和力排出液体, 不同分隔部分的分隔部分具有不均匀的液体亲和力。
    • 7. 发明申请
    • Electro-optical device and electronic apparatus
    • 电光装置及电子设备
    • US20060192495A1
    • 2006-08-31
    • US11333383
    • 2006-01-18
    • Junichi Sano
    • Junichi Sano
    • G09G3/10
    • H01L27/3244H01L27/3204H01L27/3246
    • An electro-optical device includes a plurality of pixels arranged on a substrate. Each of the pixels includes a plurality of EL light-emitting elements that are disposed on the substrate and are connected in series. Each of the EL light-emitting elements includes a first electrode, a luminescent layer, and a second electrode that are disposed in a thickness direction of the substrate, and each of the EL light-emitting elements has a characteristic of emitting light in response both to a forward applied voltage and to a reverse applied voltage. The first electrodes or the second electrodes of neighboring EL light-emitting elements of the plurality of EL light-emitting elements are coupled to each other, so that the plurality of EL light-emitting elements are connected in series.
    • 电光装置包括布置在基板上的多个像素。 每个像素包括多个EL发光元件,其设置在基板上并串联连接。 每个EL发光元件包括沿基板的厚度方向设置的第一电极,发光层和第二电极,并且每个EL发光元件都具有响应两者的发光特性 到正向施加电压和反向施加电压。 多个EL发光元件的相邻EL发光元件的第一电极或第二电极彼此耦合,使得多个EL发光元件串联连接。
    • 8. 发明申请
    • METHOD OF MANUFACTURING COLOR FILTER, COLOR FILTER, IMAGE DISPLAY DEVICE AND ELECTRONIC APPARATUS
    • 制造彩色滤光片,彩色滤光片,图像显示装置和电子设备的方法
    • US20090130404A1
    • 2009-05-21
    • US12274628
    • 2008-11-20
    • Junichi Sano
    • Junichi Sano
    • B32B3/10B05D5/06
    • G02B5/201Y10T428/24802
    • A method includes supplying different colored inks to cells on a color filter substrate manufactured based on drawing pattern data; detecting a physical factor of the droplet ejection apparatus or ink affecting an ejected ink amount; determining whether the physical factor is acceptable; and producing correction data when the physical factor is unacceptable. The correction data producing step includes preparing a test substrate having cells corresponding to the cells of the substrate; supplying ink to cells of the test substrate based on the drawing pattern data; and detecting the amount supplied to each cell. The correction data is used to adjust the number of ink droplets supplied to each cell so that the ink amount equals a target amount. The correction data is used to correct the drawing pattern data, and the ink supplying step is then executed using the corrected drawing pattern data.
    • 一种方法包括向基于绘制图案数据制造的滤色器基底上的细胞提供不同颜色的油墨; 检测液滴喷射装置的物理因素或影响喷射墨水量的墨水; 确定物理因素是否可接受; 并且当物理因素不可接受时产生校正数据。 校正数据生成步骤包括制备具有与衬底的单元对应的单元的测试衬底; 基于所述绘制图案数据向所述测试基板的单元供应墨; 并检测提供给每个单元的量。 校正数据用于调节提供给每个单元的墨滴的数量,使得墨量等于目标量。 校正数据用于校正绘制图案数据,然后使用校正的绘制图案数据执行供墨步骤。
    • 10. 发明授权
    • Electrostatic capacitance sensing device and method of driving the same
    • 静电电容感测装置及其驱动方法
    • US07091726B2
    • 2006-08-15
    • US10932037
    • 2004-09-02
    • Junichi SanoMitsutoshi Miyasaka
    • Junichi SanoMitsutoshi Miyasaka
    • G01R27/26
    • G01D5/2405A61B5/1077A61B5/1172G06K9/0002
    • An electrostatic capacitance sensing device of exemplary embodiments of the present invention include M number of row lines, N number of column lines that are arranged in a matrix of M rows and N columns, N number of path gates for output signal, and electrostatic capacitance sensing elements provided at the intersections between the row and column lines. The electrostatic capacitance sensing element includes a signal sensing element, a signal amplifying element, a column selection element, and a row selection element. The signal sensing element includes a capacitance sensing electrode and a capacitance sensing dielectric film. The path gate for output signal, the signal amplifying element, the column selection element, and the row selection element are made up of thin-film semiconductor devices.
    • 本发明的示例性实施例的静电电容感测装置包括M行行,排列成M行和N列的N列列线,N个用于输出信号的路径门,以及静电电容感测 提供在行和列之间的交点处的元件。 静电电容感测元件包括信号感测元件,信号放大元件,列选择元件和行选择元件。 信号感测元件包括电容感测电极和电容感测电介质膜。 用于输出信号的路径栅极,信号放大元件,列选择元件和行选择元件由薄膜半导体器件组成。