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    • 4. 发明授权
    • Balance corrector for scanner motors and balance correcting method
thereof
    • 扫描电机平衡校正器及其平衡校正方法
    • US6145377A
    • 2000-11-14
    • US575886
    • 1995-12-20
    • Mikio NakasugiTaku FukitaIsshin Sato
    • Mikio NakasugiTaku FukitaIsshin Sato
    • H02K21/14F16F15/32G01M1/32H02K1/27H02K15/16G01M1/00
    • H02K15/165F16F15/32G01M1/32G06K2207/1016
    • The present invention is directed to a balance correcting method for scanning optical apparatus for deflection-scanning a light beam in such an arrangement that a drive motor is of an inner rotor type in which a rotary body having a drive magnet is disposed inside a stator and a rotary polygon mirror is mounted on the rotary body so as to enable deflection scanning of the light beam, wherein a mechanical part having the rotary body is arranged as separable from an electric circuit part having the stator, the mechanical part having the rotary body is separated from the electric circuit part upon balance correction, only the mechanical part is then mounted on a balance corrector, the mechanical part is rotated by a stator as a rotating device preliminarily provided in the balance corrector, and an amount of unbalance is measured and adjusted.
    • 本发明涉及一种用于扫描光学装置的平衡校正方法,所述光学装置用于使驱动电动机为具有驱动磁体的旋转体设置在定子内的内转子型的结构,以及 旋转多面镜安装在旋转体上以便能够对光束进行偏转扫描,其中具有旋转体的机械部件被布置成与具有定子的电路部分分离,具有旋转体的机械部件是 在平衡校正后与电路部分分离,仅将机械部件安装在平衡校正器上,机械部件作为预先设置在平衡校正器中的旋转装置的定子旋转,并且测量和调整不平衡量 。
    • 6. 发明授权
    • Bearing device and deflecting-scanning apparatus using the same
    • 轴承装置和使用其的偏转扫描装置
    • US06392771B1
    • 2002-05-21
    • US09092995
    • 1998-06-08
    • Taku FukitaMikio NakasugiYasuo SuzukiHideyuki MiyamotoIsshin SatoAkihiro Fukutomi
    • Taku FukitaMikio NakasugiYasuo SuzukiHideyuki MiyamotoIsshin SatoAkihiro Fukutomi
    • G02B2608
    • G02B26/121
    • A bearing device is structured to include a stator portion which includes one of a shaft and a sleeve, a rotor portion which includes the other of the shaft and the sleeve which are structured to be capable of relative rotation therebetween, a first permanent magnet mounted on the rotor portion, and a second permanent magnet mounted at a position opposed to the first permanent magnet. The rotor portion is floated up relative to the stator portion by a magnetic force working between the first permanent magnet and the second permanent magnet. The first permanent magnet is mounted on the upper end portion of the rotor portion, the second permanent magnet is mounted on the upper end portion of the stator portion, and the first permanent magnet and the second permanent magnet are provided in opposed relationship with each other in a circumferential direction perpendicular to an axial direction of the bearing device.
    • 轴承装置被构造成包括定子部分,该定子部分包括轴和套筒之一,转子部分包括被构造成能够相对于其间旋转的轴和套筒中的另一个;第一永磁体,安装在 转子部分和安装在与第一永磁体相对的位置处的第二永磁体。 转子部分通过在第一永磁体和第二永久磁铁之间工作的磁力相对于定子部分浮起。 第一永久磁铁安装在转子部分的上端部,第二永久磁铁安装在定子部分的上端部,第一永久磁铁和第二永久磁铁彼此相对设置 在垂直于轴承装置的轴向的圆周方向上。
    • 7. 发明申请
    • ROBOTIC CELL
    • 机器人细胞
    • US20110258847A1
    • 2011-10-27
    • US13079183
    • 2011-04-04
    • Ken MeishoMikio NakasugiMahito NegishiYuji Matsuo
    • Ken MeishoMikio NakasugiMahito NegishiYuji Matsuo
    • B23P19/00
    • B25J9/0084B23P19/00B23P21/00B25J9/0009B25J21/00Y10T29/53
    • A robotic cell enables a robotic station to be downsized and both high maintainability and high rigidity to be attained. To this end, the robotic cell for assembling parts by using multiple robots includes multiple booths for housing multiple trestles, on each of which a pair of robotic arms are mounted, with the trestles adjoining one another. Each trestle has an opening portion on one side surface thereof, through which a power controller box is carried in and out. To compensate for a decrease in rigidity of the trestle due to the opening portion, a connecting member is used for coupling two trestles adjacent to each other across the respective booths. Both end portions of each connecting member are fastened to the both trestles with screws, respectively.
    • 机器人电池使得机器人站能够被小型化,并且能够实现高可维护性和高刚度。 为此,通过使用多个机器人组装零件的机器人单元包括多个支架,用于容纳多个支架,每个支架上安装有一对机器人手臂,支架彼此相邻。 每个支架在其一个侧表面上具有开口部分,功率控制器盒通过该开口部分进出。 为了补偿由于开口部分引起的支架刚度的降低,连接构件用于将两个彼此相邻的两个支架联接在相应的展位上。 每个连接构件的两个端部分别用螺钉紧固到两个支架上。
    • 9. 发明授权
    • Gripping apparatus, robot system and gripping method
    • 抓握装置,机器人系统和夹紧方法
    • US08403387B2
    • 2013-03-26
    • US13153517
    • 2011-06-06
    • Mikio NakasugiYoshiyuki MiyazakiAkiyoshi Yokoi
    • Mikio NakasugiYoshiyuki MiyazakiAkiyoshi Yokoi
    • B25J15/08
    • B25J15/0009
    • A gripping apparatus includes a palm and a plurality of fingers having joints to grip a tool with the palm and the plurality of fingers. A palm side contact surface is provided on the palm and brought into contact with a tool side contact surface of the tool, and holes are provided in the palm side contact surface into which projections provided on the tool side contact surface of the tool can be inserted. Engagement of the projections in the holes determines a position of the tool in a tangential direction of the palm side contact surface and a position of the tool in a rotational direction around a normal line of the palm side contact surface which is a rotary shaft center.
    • 夹持装置包括手掌和多个手指,所述手指具有用手掌和多个手指夹持工具的关节。 手掌侧接触表面设置在手掌上并与工具的工具侧接触表面接触,并且在手掌侧接触表面上设置有孔,孔中可以插入设置在工具的工具侧接触表面上的突起 。 突起在孔中的接合决定了工具在手掌侧接触面的切线方向上的位置以及工具沿作为旋转轴中心的手掌侧接触面的法线的旋转方向的位置。
    • 10. 发明授权
    • Scanning optical apparatus
    • 扫描光学仪器
    • US6031651A
    • 2000-02-29
    • US961279
    • 1997-10-30
    • Mikio Nakasugi
    • Mikio Nakasugi
    • F16C39/06G02B26/12H02K5/167H02K7/09G02B26/08
    • F16C39/063G02B26/121H02K7/09
    • A scanning optical apparatus has a stationary shaft and a rotary sleeve rotatably fitting to each other. The apparatus is arranged to deflection-scan a light beam by rotating a rotary polygon mirror attached to the rotary sleeve. In the apparatus a second permanent magnet, which is repulsive to a first permanent magnet mounted on the stationary shaft, is disposed on a lower end side of the rotary sleeve. Further, a third permanent magnet is placed on a base to which the stationary shaft is fixed so that the third magnet can provide a repulsive force in a direction to urge the second permanent magnet toward the first permanent magnet.
    • 扫描光学装置具有可旋转地配合的固定轴和旋转套筒。 该装置被布置成通过旋转附接到旋转套筒的旋转多面镜来偏转扫描光束。 在装置中,安装在固定轴上的第一永久磁铁排斥第二永磁体设置在旋转套筒的下端侧。 此外,第三永磁体被放置在固定固定轴的基座上,使得第三磁体可以在朝向第一永磁体推动第二永磁体的方向上提供排斥力。