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    • 2. 发明授权
    • Method of preparing barium fluorohalide phosphor
    • 制备卤化砷鎓荧光粉的方法
    • US06361714B1
    • 2002-03-26
    • US09586595
    • 2000-06-02
    • Yasuo IwabuchiChiyuki UmemotoKenji TakahashiKazuhiro Hasegawa
    • Yasuo IwabuchiChiyuki UmemotoKenji TakahashiKazuhiro Hasegawa
    • C09K1100
    • C09K11/7706C09K11/7705
    • A method of preparing a barium fluorohalide phosphor including a mixing step in which phosphor materials are mixed, a firing step in which a resulting mixture of phosphor materials is fired, an annealing step, and a cooling step in which the mixture of phosphor materials is cooled to the ordinary temperature. In the firing step, after the mixture of phosphor materials has been fired at a constant temperature, an atmosphere at the time of the firing is removed while the constant temperature is maintained, and is replaced with an atmosphere different from the atmosphere at the time of the firing, and thereafter, annealing is carried out. In the cooling step, the atmosphere at the time of the firing is removed and replaced with a first different atmosphere, and then first cooling is carried out. Further, the first atmosphere is removed and replaced with a second atmosphere, and then second cooling is carried out. Alternatively, in the cooling step, the atmosphere at the time of the firing is removed and replaced with vacuum or a neutral gas atmosphere, and then cooling is carried out.
    • 一种制备包括混合荧光体材料的混合步​​骤的卤化钡荧光粉的方法,煅烧所得的荧光体材料混合物的烧制步骤,退火步骤和冷却步骤,其中将荧光体材料的混合物冷却 达到常温。 在烧成工序中,将荧光体材料的混合物在恒定温度下烧成后,在保持恒温的同时除去烧成时的气氛,并且在不同于大气的气氛 进行烧成,然后进行退火。 在冷却步骤中,除去烧成时的气氛并用第一不同的气氛代替,然后进行第一次冷却。 此外,除去第一气氛并用第二气氛替换,然后进行第二冷却。 或者,在冷却步骤中,除去烧成时的气氛,用真空或中性气体气体置换,然后进行冷却。
    • 3. 发明授权
    • Electrostatic capacity type touch sensor
    • 静电容量型触摸传感器
    • US09041683B2
    • 2015-05-26
    • US13029655
    • 2011-02-17
    • Takayasu OtagakiAtsuhiro IchikawaHiroya ItoKazuhiro Hasegawa
    • Takayasu OtagakiAtsuhiro IchikawaHiroya ItoKazuhiro Hasegawa
    • G06F3/044
    • G06F3/044
    • The invention provides an electrostatic capacity type touch sensor that is not influenced by a parasitic capacitor formed between a sensor line connected to a touch sensor pad and other signal line and provides a stable sensor output. A sensor line connected to a touch sensor pad is connected to a non-inverting input terminal (+) of a charge amplifier. An LED is disposed in the touch sensor pad, and the cathode of the LED is connected to an LED signal line. Since the LED signal line is disposed adjacent to the sensor line, a parasitic capacitor is formed between the LED signal line and the sensor line. In order to keep the capacitance of this parasitic capacitor constant, a pull-up resistor is connected to the LED signal line. The LED signal line is biased to a power supply potential Vdd by the pull-up resistor.
    • 本发明提供一种静电容量型触摸传感器,其不受在连接到触摸传感器焊盘的传感器线和其它信号线之间形成的寄生电容的影响,并提供稳定的传感器输出。 连接到触摸传感器垫的传感器线连接到电荷放大器的非反相输入端(+)。 在触摸传感器衬垫中设置LED,并且LED的阴极连接到LED信号线。 由于LED信号线与传感器线相邻配置,所以在LED信号线和传感器线之间形成寄生电容。 为了保持该寄生电容的电容恒定,上拉电阻连接到LED信号线。 LED信号线被上拉电阻偏置到电源电位Vdd。
    • 4. 发明授权
    • Microscope
    • 显微镜
    • US08223428B2
    • 2012-07-17
    • US12951298
    • 2010-11-22
    • Kazuhiro Hasegawa
    • Kazuhiro Hasegawa
    • G02B21/00
    • G02B21/248
    • A microscope includes a microscope main body, a revolving nosepiece rotatably mounted on the microscope main body and equipped with plural objective lenses, and focusing handles that adjust focal points of the objective lenses. The microscope further includes operation knobs mounted in a vicinity of the focusing handles and configured to move by a predetermined amount in a predetermined direction, and an operating-force transmitting mechanism provided between the operation knobs and the revolving nosepiece and configured to transmit, when the operation knobs move, operating force to the revolving nosepiece to cause the movable member to move so that the objective lenses can be switched from one to the other through a single moving operation of the operation knobs by the predetermined amount.
    • 显微镜包括显微镜主体,可旋转地安装在显微镜主体上并配备有多个物镜的旋转鼻梁以及调节物镜的焦点的聚焦手柄。 显微镜还包括安装在聚焦手柄附近并被构造成沿预定方向移动预定量的操作旋钮,以及设置在操作旋钮和旋转鼻罩之间的操作力传递机构,并且被配置为当 操作旋钮移动到操作力到旋转鼻梁以使可动构件移动,使得物镜可以通过操作旋钮的单次移动操作而从一个切换到另一个预定量。
    • 5. 发明授权
    • Inverted microscope provided with blockage member for preventing spillage of fluid
    • 倒置显微镜配有堵塞件,用于防止流体溢出
    • US08027084B2
    • 2011-09-27
    • US12135347
    • 2008-06-09
    • Kazuhiro Hasegawa
    • Kazuhiro Hasegawa
    • G02B21/00
    • G02B21/0088G02B21/248
    • An inverted microscope includes a lens holding mechanism which holds an objective lens arranged under a sample and used to form an observation image of the sample; a focusing mechanism which holds the lens holding mechanism on its upper part and moves the objective lens up and down together with the lens holding mechanism; and a microscope main body which serves as a casing including the focusing mechanism therein, and includes an opening allowing an attachment of the focusing mechanism and the lens holding mechanism in its upper wall surface. A size of the lens holding mechanism in a horizontal plane is larger than a size of an image projected onto the horizontal plane of the opening.
    • 倒置显微镜包括:透镜保持机构,其保持配置在样品下方的物镜,用于形成样品的观察图像; 聚焦机构,其将透镜保持机构保持在其上部,并与透镜保持机构一起上下移动物镜; 以及作为其中包括聚焦机构的壳体的显微镜主体,并且包括允许聚焦机构和透镜保持机构附接在其上壁表面中的开口。 水平面中透镜保持机构的尺寸大于投影在开口的水平面上的图像的尺寸。
    • 7. 发明授权
    • Image heating apparatus including pads and belts forming a pressurized nip
    • 图像加热装置包括形成加压压区的垫和带
    • US07406288B2
    • 2008-07-29
    • US11275017
    • 2005-12-01
    • Ikuo NakamotoKazuhiro Hasegawa
    • Ikuo NakamotoKazuhiro Hasegawa
    • G03G15/20
    • G03G15/2053G03G15/206G03G2215/2016G03G2215/2022G03G2215/2032G03G2215/2038G03G2215/2041
    • The present invention relates to an image heating device comprising, a first belt which heats an image on a recording material at a nip, a second belt which forms the nip with the first belt, a first pressure member and a first rotating member which press the first belt at the nip, the first pressure member and the first rotating member being provided while not being in contact with each other; and a second pressure member and a second rotating member which press the second belt at the nip, the second pressure member and the second rotating member being provided while not being in contact with each other. The nip is formed by a region where at least one of the first pressure member, the first rotating member, the second pressure member, and the second rotating member is in contact with the corresponding belt.
    • 图像加热装置技术领域本发明涉及一种图像加热装置,包括:第一带,其在辊隙处加热记录材料上的图像,第二带与第一带形成辊隙;第一压力构件和第一旋转构件, 所述第一压力部件和所述第一旋转部件在不彼此接触的同时被设置; 以及第二压力构件和第二旋转构件,其在所述辊隙处按压所述第二带,所述第二压力构件和所述第二旋转构件设置成彼此不接触。 辊隙由第一压力构件,第一旋转构件,第二压力构件和第二旋转构件中的至少一个与相应的皮带接触的区域形成。
    • 10. 发明申请
    • Observation apparatus and observation method
    • 观察仪器和观察方法
    • US20070070498A1
    • 2007-03-29
    • US11517874
    • 2006-09-08
    • Hideaki EndoAkitsugu KagayamaAtsuhiro TsuchiyaKazuhiro Hasegawa
    • Hideaki EndoAkitsugu KagayamaAtsuhiro TsuchiyaKazuhiro Hasegawa
    • G02B23/24
    • G02B21/367
    • An observation apparatus includes an incident-light illumination optical system, a transmitting illumination optical system, an imaging unit, an input device, a storage unit, an imaging controller, a microscope controller, an imaging information management unit. The imaging information management unit compares an area position, of an imaging area of the imaging unit, indicated by position information input from the input device with an area position stored in the storage unit to determine whether the area position indicated by the position information is stored in the storage unit. When the area position is not stored in the storage unit, the imaging controller controls the imaging unit to image the specimen and to generate an observation image, and stores the observation image in the storage unit. The microscope controller controls one of the optical systems to illuminate the specimen only during an imaging period, when the imaging unit images the specimen.
    • 观察装置包括入射光照明光学系统,发射照明光学系统,成像单元,输入装置,存储单元,成像控制器,显微镜控制器,成像信息管理单元。 成像信息管理单元将从输入设备输入的由位置信息指示的摄像单元的成像区域的区域位置与存储在存储单元中的区域位置进行比较,以确定是否存储由位置信息指示的区域位置 在存储单元中。 当区域位置不存储在存储单元中时,成像控制器控制成像单元对样本进行成像并生成观察图像,并将观察图像存储在存储单元中。 显微镜控制器控制其中一个光学系统仅在成像周期期间,当成像单元对样本进行成像时照亮样本。