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    • 22. 发明授权
    • Electrostatic apparatus
    • 静电设备
    • US4488160A
    • 1984-12-11
    • US325852
    • 1981-11-30
    • Noriyoshi TarumiHaruo IwahashiMasahiko MatsunawaHiroshi Tokunaga
    • Noriyoshi TarumiHaruo IwahashiMasahiko MatsunawaHiroshi Tokunaga
    • H04N1/032H04N1/29G01D15/06
    • H04N1/032H04N1/29Y10S347/90
    • An electrostatic reproducing apparatus comprising a charged particle modulating electrode unit, wherein the common electrode and the control electrode are divided into a plurality of the groups, respectively, in the direction in which the particle passing apertures are arranged. Each of thus divided common electrode groups is disposed in a staggered manner with respect to the corresponding control electrode groups, and the same electric potential is applied to two adjacent common electrode groups opposed to that control electrode group through which a charged particle is to be modulated. The control electrode groups are disposed in such a manner that a boundary between two adjacent common electrode groups is aligned with the center line of the opposed control electrode group. At least one of the surfaces of said charged particle modulating electrode unit is provided with a solid state scanning system of wiring formed integrally therewith.
    • 一种静电再现装置,包括带电粒子调制电极单元,其中所述公共电极和所述控制电极分别沿着所述颗粒通过孔布置的方向分成多个组。 每个这样分开的公共电极组相对于相应的控制电极组以交错的方式设置,并且将相同的电位施加到与控制电极组相对的两个相邻的公共电极组,通过该控制电极组将要调制带电粒子 。 控制电极组以这样的方式设置,使得两个相邻公共电极组之间的边界与相对的控制电极组的中心线对齐。 所述带电粒子调制电极单元的至少一个表面设置有与其一体形成的布线的固态扫描系统。
    • 23. 发明授权
    • Method and apparatus for image reproduction
    • 图像再现方法和装置
    • US4430661A
    • 1984-02-07
    • US265353
    • 1981-05-20
    • Noriyoshi TarumiMasahiko MatsunawaHiroshi Tokunaga
    • Noriyoshi TarumiMasahiko MatsunawaHiroshi Tokunaga
    • G03G15/05B41J2/415H04N1/29G01D15/06
    • H04N1/29Y10S347/90
    • A method for image reproduction using an ion modulation electrode adapted to form images on a charge receptor. The ion modulation electrode is divided into a plurality of groups, and digital or analog image signals are held in element corresponding to the group and are formed parallel signals, and the parallel signals are applied to respective groups. The ion modulation electrode includes a continuous layer of conductive material, a segmented layer of conductive material and an insulating layer interposed therebetween. An image reproducing apparatus which includes an ion generator, an ion modulation electrode dividing electrically into a plurality of groups and modulating ion flow generated the ion generator, and a charge receptor receiving modulated ion flow. To the groups are applied image signals which are held in element corresponding to group and are formed parallel signals.
    • 使用适于在电荷受体上形成图像的离子调制电极进行图像再现的方法。 离子调制电极被分成多个组,数字或模拟图像信号保持在与组相对应的元素中,并且形成并行信​​号,并且并行信号被施加到相应的组。 离子调制电极包括导电材料的连续层,导电材料的分段层和插入其间的绝缘层。 一种图像再现装置,包括离子发生器,分离成多个组的离子调制电极和调制产生离子发生器的离子流,以及接受调制离子流的电荷接收体。 对于组,应用图像信号,其被保持在与组相对应的元素中,并且形成并行信​​号。
    • 27. 发明授权
    • Stress detection method for sensor device with multiple axis sensor and sensor device employing this method
    • 采用这种方法的多轴传感器和传感器装置的传感器装置的应力检测方法
    • US07320253B2
    • 2008-01-22
    • US11073944
    • 2005-03-08
    • Toshio HanazawaMasaaki OnoTsutomu MiyashitaHiroshi TokunagaHiroshi Ishikawa
    • Toshio HanazawaMasaaki OnoTsutomu MiyashitaHiroshi TokunagaHiroshi Ishikawa
    • G01P15/125
    • G01P15/123G01P15/18G01P21/00G01P2015/084
    • The present invention provides the stress detection method for force sensor device with multiple axis sensor device and force sensor device employing this method, whose installation angle is arbitrary. The stress detection method includes, first and second force sensors whose detection axes are orthogonal to each other. When the detection axis of first force sensor forms angle θ with direction of detected stress Ax, and the stress component of direction perpendicular to direction of the detected stress Ax is Az, output Apx of the axis direction of first force sensor is found as Apx=αx (Ax×cos θ+Az×sin θ), and output Apz of the axis direction of the second force sensor is found as Apz=αz (Ax×sin θ+Az×cos θ), and, when αx and αz are detection sensitivity coefficients of first and second force sensors respectively, the detection sensitivity coefficient αz of second force sensor is set as αz=αx tan θ, and the detected stress Ax is found as Ax=(Apx−Apz)/αx(cos θ−tan θ×sin θ).
    • 本发明提供了具有多轴传感器装置的力传感器装置和采用该方法的力传感器装置的应力检测方法,其安装角度是任意的。 应力检测方法包括检测轴彼此正交的第一和第二力传感器。 当第一力传感器的检测轴与检测到的应力Ax的方向形成角度θ,并且垂直于检测应力的方向的方向的应力分量为Az时,第一力传感器的轴方向的输出Apx被发现为Apx = (Axxcosθ+Azxsinθ),第二力传感器的轴方向的输出Apz被找到为Apz =αz(Axxsinθ+Azxcosθ) ,并且当αx和αz分别是第一和第二力传感器的检测灵敏度系数时,第二和第二力传感器的检测灵敏度系数αz 力传感器被设置为α =α×tanθθ,并且检测到的应力Ax被发现为Ax =(Apx-Apz)/α SUB>(cosθ-tan角蛋白θ)。
    • 29. 发明授权
    • Method for fabricating a micro machine
    • 微机制造方法
    • US06946398B2
    • 2005-09-20
    • US10651051
    • 2003-08-29
    • Shoji OkudaHiroshi TokunagaOsamu Tsuboi
    • Shoji OkudaHiroshi TokunagaOsamu Tsuboi
    • G02B26/08B81B3/00B81C1/00H01L21/302
    • B81C1/0019B81B2201/0271B81C2201/0136B81C2201/019
    • The method for fabricating a micro machine comprises the step of burying an oxide film 54 in a first semiconductor substrate 6, the step of bonding the first semiconductor substrate to the second semiconductor substrate with an insulation film 18 therebetween, the step of forming a first mask 66 with an opening in a first region and a second region on both sides of the first region, the step of etching the first semiconductor substrate with a first mask 66 and an oxide film 54 as a mask to thereby form a spring portion 20a integral with the first semiconductor substrate between the oxide film and the insulation film to thereby form a torsion bar including the spring portion, the step of forming a second mask 74 with an opening in the first region and the second region, the step of etching the second semiconductor substrate by using the second mask 74, and the step of etching the insulation film 18 in the first region and the second region. The thickness of the torsion bar can be easily controlled. Thus, a micro machine having a torsion bar can be fabricated with high yields.
    • 微机的制造方法包括在第一半导体基板6中埋入氧化膜54的步骤,将第一半导体基板与绝缘膜18接合在第二半导体基板上的工序,形成第一掩模 66,在第一区域的第一区域和第二区域的开口,第一区域的两侧的第二区域,用第一掩模66和氧化物膜54作为掩模蚀刻第一半导体衬底的步骤,从而形成一个一体化的弹簧部分20 其中第一半导体衬底在氧化物膜和绝缘膜之间,从而形成包括弹簧部分的扭杆,在第一区域和第二区域中形成具有开口的第二掩模74的步骤, 通过使用第二掩模74的半导体衬底以及蚀刻第一区域和第二区域中的绝缘膜18的步骤。 可以容易地控制扭杆的厚度。 因此,可以以高产率制造具有扭杆的微型机器。
    • 30. 发明申请
    • Image forming device and control method therefor
    • 图像形成装置及其控制方法
    • US20050062791A1
    • 2005-03-24
    • US10488831
    • 2003-07-08
    • Yuji YakuraKenji SuzukiHiroshi TokunagaShinichi Horii
    • Yuji YakuraKenji SuzukiHiroshi TokunagaShinichi Horii
    • B41J2/165
    • B41J2/16526
    • An image forming apparatus for forming an image on a recording medium is disclosed. The image forming apparatus includes a print head (4) having an ink emitting surface (6) in which there are formed a plural number of ink emitting openings (13). An ink is emitted from the ink emitting openings (13) for forming an image on a recording medium. The image forming apparatus also includes an emission controller (41) for controlling the ink emission from the ink emitting openings (13) formed in the ink emitting surface (6). The emission controller (41) is responsive to an input image signal to control the quantity of preliminary ink emission from one or more of the ink emitting openings (13) or to select one or more of the ink emitting openings (13). In this manner, the quantity of the preliminary ink emission from the ink emitting openings (13) is controlled, or one or more of the ink emitting openings (13) is selected, responsive to the image signal, to diminish the wasteful ink emission and to clean the ink emitting openings (13) or the vicinity without damaging the ink emitting surface (6).
    • 公开了一种用于在记录介质上形成图像的图像形成装置。 图像形成装置包括具有油墨发射表面(6)的打印头(4),其中形成有多个喷墨口(13)。 从用于在记录介质上形成图像的墨排出口(13)发出墨。 图像形成装置还包括用于控制从形成在墨水发射表面(6)中的墨水发射开口(13)的墨水排出的排放控制器(41)。 排放控制器(41)响应于输入图像信号来控制来自一个或多个喷墨孔(13)的初步墨水排放量,或者选择一个或多个喷墨孔(13)。 以这种方式,根据图像信号控制从油墨排出口(13)发出的预备油墨的量,或者选择一个或多个喷墨孔(13),以减少浪费的油墨排放, 以清洁墨水排出口(13)或附近,而不损坏墨水发射表面(6)。