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    • 1. 发明授权
    • Liquid electrophotographic developing apparatus using electrodes to charge toner particles
    • 使用电极对调色剂颗粒充电的液体电子照相显影装置
    • US06553200B2
    • 2003-04-22
    • US09812950
    • 2001-03-27
    • Yuji HiraokaDaisuke Hiraoka
    • Yuji HiraokaDaisuke Hiraoka
    • G03G1510
    • G03G15/101G03G2215/017
    • A liquid electrophotographic developing apparatus including a developing unit and a plurality of air transport members. The developing unit has an elongated opening disposed adjacent to a moving image-bearing surface of a photoreceptor, and it is used for converting an electrostatic latent image into a toner image. Electrodes formed within the elongated opening provide an electric field to charge toner particles in a liquid developer. The air transport members are provided around the elongated opening of the developing unit, and airflow therein has a predetermined air pressure to transport unused developer away from the image-bearing surface while permitting toner particles in the liquid developer deposited on the image-bearing surface to be retained by the image-bearing surface.
    • 一种液体电子照相显影装置,包括显影单元和多个空气传输构件。 显影单元具有与感光体的运动图像承载表面相邻设置的细长开口,并且用于将静电潜像转换成调色剂图像。 在细长开口内形成的电极提供电场以对液体显影剂中的调色剂颗粒充电。 空气传输构件设置在显影单元的细长开口周围,并且其中的气流具有预定的空气压力,以将未使用的显影剂输送到图像承载表面,同时允许沉积在图像承载表面上的液体显影剂中的调色剂颗粒 由图像承载面保持。
    • 8. 发明授权
    • Charging device for an electrophotographic imaging forming system
utilizing thin film conducting members
    • 一种利用薄膜导电元件的电子照相成像系统的充电装置
    • US6070033A
    • 2000-05-30
    • US982802
    • 1997-10-06
    • Yuji HiraokaBoba WangSheng-Jeng ChangMing-Chu Wu
    • Yuji HiraokaBoba WangSheng-Jeng ChangMing-Chu Wu
    • G03G15/02G03G17/00
    • G03G15/0291G03G2215/028
    • The specification discloses an electrophotographic image forming system. The system includes a photoconductor connected to a first electric potential constituting substantially an elongated cylindrical drum provided for rotating around an axis along an elongated direction of the cylindrical drum having an external charging surface disposed thereon. The electrophotographic system further includes a non-contact charger which includes a plurality of mutually insulated conductive films each having a sharp edge pointing perpendicularly to the charging surface. The non-contact charger further includes a packaging frame for securely attaching to and supporting the plurality of mutually insulated conductive films thereon. The plurality of mutually insulated conductive films are connected to a second electric potential different from the first electric potential for activating an electric discharge between the sharp edges of the conductive film and the charging surface.
    • 该说明书公开了一种电子照相成像系统。 该系统包括连接到构成基本上细长的圆柱形鼓的第一电位的光电导体,所述第一电位用于围绕沿着圆柱形鼓的细长方向围绕轴线旋转的第一电位,其具有设置在其上的外部充电表面。 电子照相系统还包括非接触充电器,其包括多个相互绝缘的导电膜,每个导电膜具有垂直于充电表面指向的尖锐边缘。 非接触充电器还包括用于牢固地附接到其上并且支撑多个彼此绝缘的导电膜的包装框架。 多个相互绝缘的导电膜连接到不同于第一电位的第二电位,用于激活导电膜的尖锐边缘与充电表面之间的放电。
    • 10. 发明申请
    • VEHICLE STATE DETECTING DEVICE AND VEHICLE STATE DETECTING SYSTEM
    • 车辆状态检测装置和车辆状态检测系统
    • US20120259499A1
    • 2012-10-11
    • US13516513
    • 2010-03-10
    • Yuji Hiraoka
    • Yuji Hiraoka
    • G01P15/18
    • B60R21/013B60R2021/01325
    • A vehicle state detecting device in accordance with the present invention is provided with acceleration sensors 1, 2, and 3 respectively disposed on three axes in such a way as to be able to detect acceleration in each of directions of three axes, and an arithmetic operation unit 7 for determining a gravity direction from the sum of vectors which are results of detection acquired by the acceleration sensors respectively disposed on the three axes to correct a mounting inclination thereof with respect to a vehicle, and for detecting acceleration in a longitudinal direction of the vehicle, acceleration in a rightward or leftward direction of the vehicle, and acceleration in an upward or downward direction of the vehicle.
    • 根据本发明的车辆状态检测装置设置有分别设置在三个轴上的加速度传感器1,2和3,以便能够检测三个轴的每个方向的加速度,以及算术运算 单元7,用于根据分别设置在三个轴上的加速度传感器获取的检测结果的向量总和来确定重力方向,以校正其相对于车辆的安装倾斜度,并且用于检测沿着纵向方向的加速度 车辆,车辆的向右方向的加速度,以及车辆的上下方向的加速度。