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    • 4. 发明申请
    • MICROSCOPE SYSTEM AND METHOD OF CONTROLLING A MICROSCOPE SYSTEM
    • 微阵列系统及其控制方法
    • US20110102572A1
    • 2011-05-05
    • US12912204
    • 2010-10-26
    • Nobuhiro KiharaKiyoshi OsatoKoichiro Kishima
    • Nobuhiro KiharaKiyoshi OsatoKoichiro Kishima
    • H04N7/18
    • G02B21/365G02B21/006G02B21/244G02B21/34G02B27/0025
    • A microscope system includes an accommodation unit, a stage, an optical system, an image pickup unit, a movement mechanism, a control unit, an image processing unit, and a display unit. The accommodation unit is capable of accommodating a plurality of specimens. On the stage, each of the specimens loaded from the accommodation unit is placed. The optical system includes a lens for spherical aberration correction. The image pickup unit is capable of capturing a partial image of each of the specimens placed on the stage, via the optical system. The movement mechanism moves the lens for spherical aberration correction along an optical axis. The control unit controls movement of the lens for spherical aberration correction by the movement mechanism and correct spherical aberration. The image processing unit combines the partial images captured by the image pickup unit and generate a composite image. The display unit displays the generated composite image.
    • 显微镜系统包括调节单元,台,光学系统,图像拾取单元,移动机构,控制单元,图像处理单元和显示单元。 住宿单元能够容纳多个标本。 在舞台上,放置从住宿单元装载的每个样本。 光学系统包括用于球面像差校正的透镜。 摄像单元能够通过光学系统拍摄放置在舞台上的每个样本的部分图像。 移动机构沿着光轴移动用于球面像差校正的透镜。 控制单元通过移动机构控制用于球面像差校正的透镜的移动,并且校正球面像差。 图像处理单元组合由图像拾取单元捕获的部分图像并生成合成图像。 显示单元显示生成的合成图像。
    • 5. 发明授权
    • Microscope system and method of controlling a microscope system
    • 显微镜系统和显微镜系统的控制方法
    • US08786693B2
    • 2014-07-22
    • US12912204
    • 2010-10-26
    • Nobuhiro KiharaKiyoshi OsatoKoichiro Kishima
    • Nobuhiro KiharaKiyoshi OsatoKoichiro Kishima
    • H04N9/47G02B21/36G02B21/00G02B27/00G02B21/34
    • G02B21/365G02B21/006G02B21/244G02B21/34G02B27/0025
    • A microscope system includes an accommodation unit, a stage, an optical system, an image pickup unit, a movement mechanism, a control unit, an image processing unit, and a display unit. The accommodation unit is capable of accommodating a plurality of specimens. On the stage, each of the specimens loaded from the accommodation unit is placed. The optical system includes a lens for spherical aberration correction. The image pickup unit is capable of capturing a partial image of each of the specimens placed on the stage, via the optical system. The movement mechanism moves the lens for spherical aberration correction along an optical axis. The control unit controls movement of the lens for spherical aberration correction by the movement mechanism and correct spherical aberration. The image processing unit combines the partial images captured by the image pickup unit and generate a composite image. The display unit displays the generated composite image.
    • 显微镜系统包括调节单元,台,光学系统,图像拾取单元,移动机构,控制单元,图像处理单元和显示单元。 住宿单元能够容纳多个标本。 在舞台上,放置从住宿单元装载的每个样本。 光学系统包括用于球面像差校正的透镜。 摄像单元能够通过光学系统拍摄放置在舞台上的每个样本的部分图像。 移动机构沿着光轴移动用于球面像差校正的透镜。 控制单元通过移动机构控制用于球面像差校正的透镜的移动,并且校正球面像差。 图像处理单元组合由图像拾取单元捕获的部分图像并生成合成图像。 显示单元显示生成的合成图像。
    • 9. 发明授权
    • Power supply device
    • 电源设备
    • US08421422B2
    • 2013-04-16
    • US12775183
    • 2010-05-06
    • Naoki ItoiMasayoshi MaedaNobuhiro KiharaKenji IshiHiroshi OkudaFumito Uemura
    • Naoki ItoiMasayoshi MaedaNobuhiro KiharaKenji IshiHiroshi OkudaFumito Uemura
    • H02P9/14
    • H02P9/48
    • A power supply device comprising: a magneto generator including a rotor including a magnet forming a magnetic field; a rectifying unit rectifying an alternating current of the generator to a direct current and supplying to an electrical load; a voltage detection unit detecting a voltage of the electrical load; an opening unit interrupting electrical conduction of an output of the generator; short-circuiting units electrically short-circuiting the output; a torque supplying device supplying torque to the rotor; a voltage control unit selectively performing one of opening-control of controlling on/off switching of the opening unit and short-circuit-control of controlling on/off switching of the short-circuiting units to control the voltage of the electrical load to a predetermined value in accordance with the voltage detected by the voltage detection unit; a switching control unit switching and controlling between the above two controls in accordance with an operating state regarding rotation of the rotor.
    • 一种电源装置,包括:磁电发生器,包括具有形成磁场的磁体的转子; 整流单元将发电机的交流电流整流到直流电并供给电负载; 电压检测单元,检测电负载的电压; 打开单元,中断发电机的输出的导电; 短路单元电气短路输出; 将转矩提供给转子的扭矩供给装置; 电压控制单元,选择性地执行控制开关单元的接通/断开切换的开启控制和控制短路单元的接通/断开切换的短路控制,以将电负载的电压控制为预定的 根据电压检测单元检测到的电压值; 开关控制单元根据关于转子旋转的操作状态来切换和控制上述两个控制。
    • 10. 发明授权
    • Optical molding apparatus and optical molding method
    • 光学成型设备和光学成型方法
    • US08226394B2
    • 2012-07-24
    • US12354396
    • 2009-01-15
    • Katsuhisa HondaNobuhiro KiharaJunichi Kuzusako
    • Katsuhisa HondaNobuhiro KiharaJunichi Kuzusako
    • B29C35/08
    • B29C64/135B33Y30/00B33Y40/00
    • An optical molding apparatus molds a three-dimensional model by stacking cured layers. Each cured layer is formed by emitting light according to cross-sectional-shape data of the three-dimensional model onto a surface of photo-curable resin. The optical molding apparatus includes a container that contains the photo-curable resin, a movable stage that is movable in a direction orthogonal to the surface of the photo-curable resin, an optical system that emits the light onto the surface of the photo-curable resin contained in the container so as to form each cured layer on the movable stage, and a discharging mechanism that performs a discharging operation for discharging new photo-curable resin onto a surface of each cured layer formed on the movable stage before stacking a subsequent cured layer.
    • 光学成型装置通过堆叠固化层来模制三维模型。 通过根据三维模型的横截面形状的数据将光照射到光固化树脂的表面上,形成各固化层。 光学成型装置包括容纳有光固化树脂的容器,可在与光固化树脂的表面正交的方向上移动的活动台,将光照射到光固化树脂的表面上的光学系统 包含在容器中的树脂,以便在可移动台上形成每个固化层;以及排出机构,其在堆叠后续固化后执行将新的光固化树脂排出到形成在可移动台上的每个固化层的表面上的排出操作 层。