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    • 24. 发明授权
    • Microscope whose enlargement magnification is changeable
    • 显微镜放大倍率可变
    • US4946265A
    • 1990-08-07
    • US282111
    • 1988-12-09
    • Yoshiyuki ShimizuReiko Ohyama
    • Yoshiyuki ShimizuReiko Ohyama
    • G02B21/00G02B21/02
    • G02B21/025
    • A microscope whose enlargement magnification is changeable includes a plurality of interchangeable first objective lenses of different focal lengths for changing a divergent light flux from an object on a stage into a parallel light flux, a first interchanging device for moving the first objective lenses and interchangeably installing them on a predetermined optic axis, a plurality of interchangeable second objective lenses of different focal lengths for condensing the parallel light flux from the first objective lenses and forming an enlarged image of the object at a predetermined position, an eyepiece for observing therethrough the enlarged image of the object formed by the second objective lenses, a prism for directing the light flux from the second objective lenses to the eyepiece, and a second interchanging device provided between the first interchanging device and the prism for moving the second objective lenses and interchangeably installing them on the predetermined optic axis.
    • 放大倍率可变的显微镜包括多个可变焦距的可互换的第一物镜,用于改变从舞台上的物体到平行光束的发散光束;第一交换装置,用于移动第一物镜,并可互换地安装 它们在预定的光轴上,多个可互换的不同焦距的可互换的第二物镜,用于聚集来自第一物镜的平行光束并在预定位置形成物体的放大图像,用于观察放大图像的目镜 由第二物镜形成的物体,用于将来自第二物镜的光束引导到目镜的棱镜,以及设置在第一交换装置与棱镜之间用于移动第二物镜并可互换安装的第二换向装置 在预定的光轴上。
    • 25. 发明授权
    • Epidark illumination system
    • Epidark照明系统
    • US4186993A
    • 1980-02-05
    • US835786
    • 1977-09-22
    • Yoshiyuki ShimizuTakeshi Sudo
    • Yoshiyuki ShimizuTakeshi Sudo
    • G02B21/06G02B21/08G02B21/10
    • G02B21/084G02B21/10
    • An epidark illumination system for use with a microscope in which a sample is illuminated from around an objective by a ring-shaped light flux having its center coincident with the optic axis of the objective to enable the sample to be observed in a dark field of view comprises a ring-shaped condenser lens member disposed adjacent to the forward end of the objective with the center of the lens member being coincident with the optic axis of the objective to condense the light flux upon the sample, and a scattering member for scattering the ring-shaped light flux disposed in the light path before the ring-shaped light flux reaches the ring-shaped condenser lens member.
    • 一种用于显微镜的分光照明系统,其中样品从物镜周围通过其中心与物镜的光轴重合的环形光束照射,以使得能够在暗视野中观察样品 包括邻近所述物镜的前端设置的环形聚光透镜部件,所述透镜部件的中心与所述物镜的所述光轴重合,以将所述光束冷凝在所述样品上;以及散射部件,用于散射所述环 在环形光束到达环状聚光透镜部件之前,设置在光路中的光束。
    • 28. 发明授权
    • Developer container, development device, process unit, and image forming apparatus
    • 显影剂容器,显影装置,处理单元和成像装置
    • US08811859B2
    • 2014-08-19
    • US13554270
    • 2012-07-20
    • Shoh TsuritaniMasanari FujitaYoshiyuki ShimizuTomohiro KubotaNaoki Nakatake
    • Shoh TsuritaniMasanari FujitaYoshiyuki ShimizuTomohiro KubotaNaoki Nakatake
    • G03G15/08
    • G03G15/0877G03G15/0875G03G2215/0132
    • A developer container includes a container body in which a developer containing chamber and a discharge outlet are formed, a developer conveyance member disposed inside the developer containing chamber and including a first conveyance portion and a second conveyance portion downstream from the first conveyance portion in a developer conveyance director, a canopy disposed inside the container body and facing the discharge outlet, a developer conveyance chamber defined by the canopy and an inner face of the container body in which the discharge outlet is formed, and a return opening formed in the canopy downstream from the discharge outlet. A developer conveyance velocity (Q2) of the second conveyance portion of the developer conveyance member to transports the developer toward the return opening is slower than a developer conveyance velocity (Q1) of the first conveyance portion of the developer conveyance member.
    • 显影剂容器包括形成有显影剂容纳室和排出口的容器主体,显影剂传送构件,其设置在显影剂容纳室的内部,并且包括在显影剂中的第一输送部下游的第一输送部和第二输送部 输送导向器,设置在容器主体内并且面向排出口的顶盖,由顶盖限定的显影剂输送室和形成有排出口的容器主体的内表面,以及形成在下游的顶盖的返回开口 排放口。 用于将显影剂输送到返回开口的显影剂输送部件的第二输送部分的显影剂输送速度(Q2)比显影剂输送部件的第一输送部分的显影剂输送速度(Q1)慢。
    • 29. 发明授权
    • Image forming apparatus
    • 图像形成装置
    • US08805214B2
    • 2014-08-12
    • US13405675
    • 2012-02-27
    • Masanari FujitaKenji NakamuraTomohiro KubotaYoshiyuki ShimizuMasato TsujiShoh Tsuritani
    • Masanari FujitaKenji NakamuraTomohiro KubotaYoshiyuki ShimizuMasato TsujiShoh Tsuritani
    • G03G15/08
    • G03G15/0862G03G2215/0132G03G2221/1636
    • An image forming apparatus includes an image bearer, an optical writing unit to writing an electrostatic latent image on the image bearer, the optical writing unit including multiple optical writing elements arranged in a longitudinal direction of the image bearer and a frame to hold the multiple optical writing elements, a development device to develop the electrostatic latent image on the image bearer with developer, a developer container for containing the developer supplied to the development device, and a developer amount detector to detect an amount of developer contained in the developer container based on a light transmission amount between a light-emitting element and a light-receiving element. At least one of the light-emitting element and the light-receiving element of the developer amount detector is attached to the optical writing unit.
    • 图像形成装置包括图像载体,将静电潜像写入图像载体上的光学写入单元,所述光学写入单元包括沿图像载体的纵向布置的多个光学书写元件和保持多个光学 书写元件,利用显影剂在图像载体上显影静电潜像的显影装置,用于容纳提供给显影装置的显影剂的显影剂容器和显影剂量检测器,用于检测包含在显影剂容器中的显影剂量,基于 光发射元件和光接收元件之间的透光量。 显影剂量检测器的发光元件和受光元件中的至少一个安装在光学写入单元上。