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    • 1. 发明申请
    • MICROSCOPE AND A FLUORESCENT OBSERVATION METHOD USING THE SAME
    • 显微镜和使用其的荧光观察方法
    • US20110242308A1
    • 2011-10-06
    • US13061705
    • 2009-06-10
    • Yasunobu IgarashiTakeshi ObaraYuki DeguchiTakeshi SuzukiKoichi Hashimoto
    • Yasunobu IgarashiTakeshi ObaraYuki DeguchiTakeshi SuzukiKoichi Hashimoto
    • H04N7/18
    • G02B21/0088G01N21/6458G02B21/0076G02B21/16G02B21/26G02B21/34
    • A microscope capable of controlling the position and fluorescent recording of an object under observation such as cells is provided with the fluorescent observation method using the microscope. The microscope 1 comprises: a stage 3 on which the object under observation 2 is placed; an illumination light source 4 for the object under observation 2; an excitation light source 5 for exciting fluorescent light F to the object under observation 2; an image information detecting part 16 for detecting the image information formed with the light T generated at the object under observation 2; a fluorescent image information detecting part 17 for detecting the fluorescent image information formed with fluorescent light F; and a control part 20, which determines the fluorescent observation area of the object under observation 2 based on the dynamic model of the object under observation 2 and its image information entered from the image information detecting part 16, and then obtains the image information of the object under observation 2 entered from the image information detecting part 16 and the fluorescent image information entered from the fluorescent image information detecting part 17 at specified interval within the fluorescent observation area.
    • 在使用显微镜的荧光观察方法中,提供能够控制诸如细胞等观察对象的位置和荧光记录的显微镜。 显微镜1包括:放置观察对象物2的台3; 用于被观察物体2的照明光源4; 用于将荧光F激励到观察对象物2的激发光源5; 用于检测由在观察对象物体2处产生的光T形成的图像信息的图像信息检测部分16; 用于检测由荧光F形成的荧光图像信息的荧光图像信息检测部17; 以及控制部20,其基于观察对象物2的动态模型及其从图像信息检测部16输入的图像信息,确定观察对象物的荧光观察区域2,然后获得图像信息 从图像信息检测部16输入的观察对象物2和从荧光图像信息检测部17输入的荧光图像信息以规定的间隔在荧光观察区域内。
    • 2. 发明授权
    • Microscope and a fluorescent observation method using the same
    • 显微镜和使用其的荧光观察方法
    • US09019360B2
    • 2015-04-28
    • US13061705
    • 2009-06-10
    • Yasunobu IgarashiTakeshi ObaraYuki DeguchiTakeshi SuzukiKoichi Hashimoto
    • Yasunobu IgarashiTakeshi ObaraYuki DeguchiTakeshi SuzukiKoichi Hashimoto
    • H04N7/18G02B21/00G01N21/64G02B21/16G02B21/34G02B21/26
    • G02B21/0088G01N21/6458G02B21/0076G02B21/16G02B21/26G02B21/34
    • A microscope capable of controlling the position and fluorescent recording of an object under observation such as cells is provided with the fluorescent observation method using the microscope. The microscope 1 comprises: a stage 3 on which the object under observation 2 is placed; an illumination light source 4 for the object under observation 2; an excitation light source 5 for exciting fluorescent light F to the object under observation 2; an image information detecting part 16 for detecting the image information formed with the light T generated at the object under observation 2; a fluorescent image information detecting part 17 for detecting the fluorescent image information formed with fluorescent light F; and a control part 20, which determines the fluorescent observation area of the object under observation 2 based on the dynamic model of the object under observation 2 and its image information entered from the image information detecting part 16, and then obtains the image information of the object under observation 2 entered from the image information detecting part 16 and the fluorescent image information entered from the fluorescent image information detecting part 17 at specified interval within the fluorescent observation area.
    • 在使用显微镜的荧光观察方法中,提供能够控制诸如细胞等观察对象的位置和荧光记录的显微镜。 显微镜1包括:放置观察对象物2的台3; 用于被观察物体2的照明光源4; 用于将荧光F激励到观察对象物2的激发光源5; 用于检测由在观察对象物体2处产生的光T形成的图像信息的图像信息检测部分16; 用于检测由荧光F形成的荧光图像信息的荧光图像信息检测部17; 以及控制部20,其基于观察对象物2的动态模型及其从图像信息检测部16输入的图像信息,确定观察对象物的荧光观察区域2,然后获得图像信息 从图像信息检测部16输入的观察对象物2和从荧光图像信息检测部17输入的荧光图像信息以规定的间隔在荧光观察区域内。
    • 3. 发明授权
    • Rolled thermal transfer carbon ribbon structure with lead tape
    • 带导热胶带的热转印碳带结构
    • US4612232A
    • 1986-09-16
    • US688435
    • 1985-01-02
    • Takeshi ObaraToshirou GotouKazuyuki Kobayashi
    • Takeshi ObaraToshirou GotouKazuyuki Kobayashi
    • B41J31/00B41J17/22B32B3/16B65H81/06C09J7/02
    • B41J17/22Y10T156/1052Y10T428/1481Y10T428/24612Y10T428/24777Y10T428/28Y10T428/2839
    • A web in the form of a thermal transfer carbon ribbon has a lead tape adhered to the leading end of the web, that is to the outermost end portion of the web wound upon a core. The lead tape includes a base and a pressure-sensitive adhesive layer backing the base. The lead tape is adhered to the surface of the outermost circumference of the carbon ribbon and the end of the lead tape tape is coextensive with the end of the carbon ribbon, which strengthens the then leading end of the carbon ribbon. In forming this carbon ribbon and lead tape combination, the carbon ribbon is let off from a thickly rolled raw ribbon and is taken up on a core. The lead tape is applied to the running surface of the carbon ribbon on the raw roll at the location immediately before the carbon ribbon has been fully taken up on the core. Then the carbon ribbon is cut at the trailing end of the lead tape when the carbon ribbon has been substantially fully taken up to make the ends of the carbon ribbon and of the lead tape coextensive.
    • 热转印碳带形式的幅材具有粘附到幅材的前端的引线,即卷绕在芯上的幅材的最外端部分。 引线带包括底座和背衬基底的压敏粘合剂层。 引线带粘附到碳带的最外周表面,引带带的端部与碳带的端部共同延伸,这加强了碳带的前端。 在形成该碳带和引线带组合时,碳带从厚轧的原料带中脱落并且被卷绕在芯上。 在碳带已经完全卷绕在芯上之前的位置,将引线带施加到生辊上的碳带的运行表面。 然后当碳带基本上被完全吸收以使碳带和引线带的端部共同延伸时,在引带的尾端处切割碳带。