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    • 2. 发明授权
    • Reciprocating travelling shear with plural NC controllers
    • 具有多个NC控制器的往复移动剪切
    • US4739490A
    • 1988-04-19
    • US890678
    • 1986-07-30
    • Shigeki HayashiShigeru KusakaKazuyoshi Komaya
    • Shigeki HayashiShigeru KusakaKazuyoshi Komaya
    • B23D25/04B23D36/00B26D1/56B23D21/00B23D25/00
    • B23D25/04B23D36/0058Y10T83/178Y10T83/4691Y10T83/4763
    • A first base supporting a lower blade is reciprocated horizontally by rotation of a first motor in one direction only. A second base supporting supporting an upper blade is reciprocated vertically by rotation of a second motor in one direction only. A signal corresponding to the movement of said work, preset length data and a signal corresponding to the rotation of said first motor are fed to first base numerical control means, and the first base is controlled during forward run of the first base by the first base numerical control means such as to follow the running of the work with the work projected by the preset length from the first base. A signal corresponding to the movement of the work or a signal corresponding to the rotation of the first motor, a signal corresponding to the rotation of the second motor and preset length or preset angle data are fed to the second base numerical control means, and the second motor is controlled by the second base numerical control means with the first base following the running of the work. Through the above control, the work is cut to the preset length by an upper blade supported by the second base and a lower blade.
    • 支撑下刀片的第一基座仅在一个方向上通过旋转第一马达而水平往复运动。 支撑上叶片的第二基座支撑件仅在一个方向上通过第二马达的旋转而垂直地往复运动。 对应于所述作业的移动的信号,预置长度数据和对应于所述第一电动机的旋转的信号被馈送到第一基本数值控制装置,并且第一基座在第一基座的正向运行期间被第一基座 数字控制装置,例如使用从第一基座预设的长度投影的工作跟随工作的运行。 对应于作业的移动的信号或对应于第一电动机的旋转的信号,对应于第二电动机的旋转的信号和预设长度或预设角度数据被馈送到第二基本数值控制装置,并且 第二电机由第二基础数值控制装置控制,第一基座在工作运行之后。 通过上述控制,通过由第二基座和下部叶片支撑的上部刀片将工件切割成预设长度。
    • 3. 发明授权
    • Servomechanism for rotary type flying cutting apparatus
    • 旋转式飞切机的伺服机构
    • US4091315A
    • 1978-05-23
    • US708528
    • 1976-07-26
    • Shigeki HayashiKazukuni NodaShigeru Kusaka
    • Shigeki HayashiKazukuni NodaShigeru Kusaka
    • B23D45/22G05B19/28
    • B23D45/22Y10T83/159
    • In a servomechanism in which a cutter is rotated by a servomotor to cut a moving member in a predetermined rotational angular range of the cutter and the servomotor is controlled in accordance with the difference between the number of length measuring pulses generated corresponding to the distance of movement of the moving member and the number of rotation measuring pulses generated corresponding to the rotation of the cutter, a correcting signal is read out of a memory with respect to each rotational angular position of the cutter in the above said predetermined rotational angular range. The correcting signal corresponds to the component of unit rotational distance of the cutter in the direction of travel of the moving member at each rotational angular position of the cutter in its predetermined rotational angular range. By the correcting signal, the difference between the number of the length measuring pulses and that of the rotation measuring pulses is decreased, whereby the distance of movement and moving speed of the moving member and the distance of movement and rotating speed of the cutter in the direction of travel of the moving member are made equal to each other.
    • 在伺服机构中,通过伺服电动机旋转切割器以在切割器的预定旋转角度范围内切割移动部件,并且根据与移动距离相对应产生的长度测量脉冲的数量之间的差来控制伺服马达 和与切割器的旋转相对应产生的旋转测量脉冲的数量,相对于上述预定旋转角度范围内的切割器的每个旋转角位置,从存储器读出校正信号。 校正信号对应于切割器在切割器的每个旋转角度位置处在其预定旋转角度范围内在移动部件的行进方向上的单位旋转距离的分量。 通过校正信号,长度测量脉冲的数量与旋转测量脉冲的数量之间的差减小,由此移动部件的移动距离和移动速度以及切割器的移动距离和旋转速度在 移动构件的行进方向彼此相等。
    • 5. 发明授权
    • Developing device and image forming apparatus
    • 显影装置和图像形成装置
    • US08588657B2
    • 2013-11-19
    • US13213548
    • 2011-08-19
    • Shigeki HayashiTakafumi Nagai
    • Shigeki HayashiTakafumi Nagai
    • G03G15/08
    • G03G15/0891G03G2215/0822G03G2215/083
    • In a developing device including a developer tank and a developing roller, an internal space of the developer tank is partitioned by a partition into a first conveying path, a second conveying path, a first communication path, and a second communication path. A first developer conveying section that conveys the developer in the developer tank in a first conveying direction X is disposed in the first conveying path. A second developer conveying section that conveys the developer in the developer tank in a second conveying direction Y is disposed in the second conveying path. The first developer conveying section includes a first spiral blade, and a rotation tube.
    • 在包括显影剂罐和显影辊的显影装置中,显影剂罐的内部空间被隔板分隔成第一输送路径,第二输送路径,第一通信路径和第二通信路径。 在第一传送路径中设置有将第一传送方向X上的显影剂槽中的显影剂输送的第一显影剂输送部。 在第二输送路径中配置有将显影剂槽中的显影剂沿第二输送方向Y输送的第二显影剂输送部。 第一显影剂输送部分包括第一螺旋叶片和旋转管。
    • 6. 发明申请
    • DEVELOPING DEVICE AND IMAGE FORMING APPARATUS HAVING THE DEVELOPING DEVICE
    • 具有开发设备的开发设备和图像形成装置
    • US20120014719A1
    • 2012-01-19
    • US13178860
    • 2011-07-08
    • Shigeki HayashiTakafumi Nagai
    • Shigeki HayashiTakafumi Nagai
    • G03G15/08
    • G03G15/0887G03G15/0853G03G15/0877G03G15/0879G03G15/0893G03G2215/0838
    • A developing device comprising: a developer tank housing a developer including a toner and a carrier; a toner replenishment port; a developing roller; a first developer conveying path and a second developer conveying path; a conducting plate for peeling a recovery developer on a surface of the developing roller after the toner is supplied to a photosensitive drum from the surface of the developing roller so as to guide the recovery developer to the first developer conveying path; and first and second developer conveying members arranged on the first and second developer conveying paths, wherein the first developer conveying member has a cylindrical hollow rotating shaft with opened both ends that is rotatably provided to the first developer conveying path, and divides the first developer conveying path into an external first developer conveying path and an internal first developer conveying path, an external spiral blade fixed to an outer periphery of the hollow rotating shaft, and an internal spiral blade fixed to an inner periphery of the hollow rotating shaft, a direction where the developer is conveyed by the external spiral blade is the same as a direction where the developer is conveyed by the second developer conveying member and is opposite to a direction where the developer is conveyed by the internal spiral blade.
    • 一种显影装置,包括:容纳包含调色剂和载体的显影剂的显影剂罐; 调色剂补充口; 显影辊; 第一显影剂输送路径和第二显影剂输送路径; 将调色剂从显影辊的表面供给到感光鼓之后,将显影辊的表面上的回收显影剂剥离的引导板,以将回收显影剂引导到第一显影剂输送路径; 以及布置在第一和第二显影剂传送路径上的第一和第二显影剂传送构件,其中第一显影剂传送构件具有圆柱形空心旋转轴,其两端敞开,可旋转地设置在第一显影剂输送路径上,并且将第一显影剂输送 进入外部第一显影剂输送路径和内部第一显影剂输送路径的路径,固定到中空旋转轴的外周的外部螺旋叶片和固定到中空旋转轴的内周的内部螺旋叶片, 由外部螺旋叶片输送的显影剂与显影剂被第二显影剂输送构件输送的方向相同,并且与由内部螺旋叶片传送显影剂的方向相反。
    • 7. 发明申请
    • X-RAY TUBE APPARATUS
    • US20100195799A1
    • 2010-08-05
    • US12671021
    • 2007-08-09
    • Sadamu TomitaShigeki Hayashi
    • Sadamu TomitaShigeki Hayashi
    • H01J35/14H01J35/10
    • H01J35/14H01J35/16H01J35/305H01J2235/1212H01J2235/1216H01J2235/162
    • Conventionally, the magnetic field generator was arranged perpendicularly to the axis of the electron beam. The magnetic field generator of this invention is arranged so as to be inclined relative to the plane perpendicular to the axis of the electron beam. Specifically, the magnetic field generator is arranged so as to be inclined relative to the plane perpendicular to the axis of the electron beam within the range in the cathode side from the focused and deflected electron beam. Inclination up to the anode side opposite to the cathode side will lead to a possibility of increasing the reduced X-ray source diameter. Thus, arranging the magnetic field generator so as to be inclined within the range in the cathode side from the electron beam may reduce the X-ray source diameter.
    • 通常,磁场发生器垂直于电子束的轴线布置。 本发明的磁场发生器被布置成相对于垂直于电子束轴的平面倾斜。 具体地说,磁场发生器被布置为相对于垂直于电子束轴线的平面在从聚焦偏转电子束的阴极侧范围内倾斜。 直到与阴极侧相反的阳极侧的倾斜将导致增加X射线源直径减小的可能性。 因此,将磁场发生器设置成在电子束的阴极侧的范围内倾斜,可能降低X射线源直径。
    • 9. 发明申请
    • Speed Changing Transmission Apparatus
    • 变速传动装置
    • US20090156345A1
    • 2009-06-18
    • US12281719
    • 2007-09-25
    • Shoso IshimoriYoshiyuki KatayamaYoshihiro UedaShinichi MoritaShinichi KawabataShigeki HayashiMasaaki NishinakaTakayasu KobayashiGo Takagi
    • Shoso IshimoriYoshiyuki KatayamaYoshihiro UedaShinichi MoritaShinichi KawabataShigeki HayashiMasaaki NishinakaTakayasu KobayashiGo Takagi
    • F16H37/00B60K17/06
    • F16H47/04F16H2037/088F16H2037/0886F16H2200/201
    • A composite planetary transmission section (P) is provided for synthesizing output from a stepless speed changing section (20) with an engine drive force. In a transmission line from the planetary transmission section (P) to an output rotational body (90), there are provided first clutch mechanism (60), a second clutch mechanism (70), a speed-reducing planetary transmission mechanism (80), an operable coupling clutch mechanism (110) and an output clutch mechanism (120). A ring gear (83) of the speed-reducing planetary transmission mechanism (80) includes a brake mechanism (100). A sun gear (43) of the planetary transmission section (P), an input side rotational member (62) of the first clutch mechanism (60), an input side rotational member (71) of the second clutch mechanism (70), a sun gear (84) of the speed-reducing planetary transmission mechanism (80), and an input side rotational member (122) of the output clutch mechanism (120) are rotatable about a common rotational axis. A rotational shaft (97) operably coupling a carrier (44) of the composite planetary transmission section (P) with the output rotational body (90) is inserted through a planetary transmission mechanism (50) of the composite planetary transmission section (P), the first clutch mechanism (60), the second clutch mechanism (70) and the speed-reducing planetary transmission mechanism (80).
    • 复合行星传动部分(P)用于合成来自无级变速部分(20)的输出与发动机驱动力。 在从行星传动部(P)到输出旋转体(90)的传输线中,设置有第一离合器机构(60),第二离合器机构(70),减速行星传动机构(80) 可操作的联接离合器机构(110)和输出离合器机构(120)。 减速行星传动机构(80)的齿圈(83)包括制动机构(100)。 行星传动部(P)的太阳齿轮(43),第一离合器机构(60)的输入侧旋转部件(62),第二离合器机构(70)的输入侧旋转部件(71) 减速行星传动机构80的太阳齿轮(84)和输出离合器机构(120)的输入侧旋转部件(122)能够绕公共旋转轴线旋转。 通过复合行星传动部(P)的行星传动机构(50)插入将复合行星传动部(P)的托架(44)与输出转动体(90)可操作地连接的旋转轴(97) 第一离合器机构(60),第二离合器机构(70)和减速行星传动机构(80)。
    • 10. 发明授权
    • Developing agent detecting mechanism section of developing apparatus
    • 显影装置的显影剂检测机构部分
    • US07319828B2
    • 2008-01-15
    • US11175025
    • 2005-07-06
    • Yohichi TakesawaShigeki HayashiEiichi KidoToshio Nishino
    • Yohichi TakesawaShigeki HayashiEiichi KidoToshio Nishino
    • G03G15/08
    • G03G15/0856G03G15/0858G03G15/0891
    • A development apparatus includes an auger conveyor member for stirring and conveying developer, the gravity of the developer being eccentrically distributed with respect to a center of rotation, a drive transfer member for driving and rotating the auger conveyor member, the drive transfer member being capable of being engaged and disengaged, and a rotation detector for detecting a rotational state of the auger conveyor member. The remaining amount of the developer is detected based on the rotational state detected by the rotation detector. Alternatively, a development apparatus includes the auger conveyor member and the drive transfer member, in which the eccentric gravity distribution is achieved by a rod-like weight member eccentrically provided with respect to a rotational axis, the auger conveyor member includes a first coil spring having an inner diameter larger than an outer diameter of the weight member, and the first coil spring is inserted around the weight member in a manner which allows the first coil spring to be rotated and limits an angle of rotation of the first coil spring to a predetermined angle. Alternatively, a development apparatus includes the auger conveyor member and the drive transfer member, in which the auger conveyor member is provided near a development supply roller, and a uniforming member for making the developer uniform is provided in a space portion between the development supply roller and the auger conveyor member.
    • 显影装置包括用于搅拌和输送显影剂的螺旋输送器构件,显影剂相对于旋转中心偏心分布的重力,用于驱动和旋转螺旋输送器构件的驱动传递构件,驱动传递构件能够 被接合和分离;以及旋转检测器,用于检测螺旋输送器构件的旋转状态。 基于由旋转检测器检测到的旋转状态来检测显影剂的剩余量。 或者,显影装置包括螺旋输送器构件和驱动传递构件,其中通过相对于旋转轴线偏心设置的杆状配重构件实现偏心重力分配,螺旋输送器构件包括第一螺旋弹簧,第一螺旋弹簧具有 内径大于配重构件的外径,并且第一螺旋弹簧以允许第一螺旋弹簧旋转的方式插入到配重构件周围,并将第一螺旋弹簧的旋转角度限制在预定的 角度。 或者,显影装置包括螺旋输送器构件和驱动传递构件,其中螺旋输送器构件设置在显影供给辊附近,并且用于使显影剂均匀的均匀构件设置在显影供给辊 和螺旋输送机构件。