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    • 4. 发明授权
    • Ink jet printer of the ink-on-demand type
    • 喷墨打印机的墨水点播型
    • US4806955A
    • 1989-02-21
    • US170615
    • 1988-03-11
    • Haruhiko KotoJunichi OkadaHiroshi IshiiKenji Sawada
    • Haruhiko KotoJunichi OkadaHiroshi IshiiKenji Sawada
    • B41J2/165B41J2/175B41J2/19G01D15/18
    • B41J2/19B41J2/16544B41J2/16547B41J2/17596
    • An ink-on-demand type ink jet printer includes a printer head having at least one nozzle, pressure chamber and means for pressurizing an ink in the pressure chamber so as to effect ejection of an ink droplet from a nozzle to effect printing during a printing operation. The printer further includes a pump for pressurizing an ink in the printer head and a pump driver for driving the pump continuously for a predetermined period of time after the printing operation has ceased during which a small amount of ink is partially ejected from the nozzle. A nozzle cover is provided for selectively covering the nozzle, with the nozzle cover moving to cover the nozzle during the predetermined period of time when the pump driving means is operating while ink is partially ejected from the nozzle to prevent ink clogging during a no-print condition after the printing operation has ceased.
    • 一种按需喷墨型喷墨打印机包括具有至少一个喷嘴,压力室的打印头和用于对压力室中的墨进行加压的装置,以便实现墨滴从喷嘴喷射以在打印期间进行打印 操作。 打印机还包括用于对打印机头中的墨进行加压的泵和用于在打印操作停止之后连续驱动泵一段时间的泵驱动器,在此期间少量的油墨从喷嘴部分喷出。 提供喷嘴盖,用于选择性地覆盖喷嘴,喷嘴盖在泵驱动装置正在操作的预定时间段期间移动以覆盖喷嘴,同时墨水从喷嘴部分地喷射以防止墨水在无打印期间堵塞 打印操作停止后的状态。
    • 5. 发明授权
    • Ink jet printer of the ink-on-demand type
    • 喷墨打印机的墨水点播型
    • US4620202A
    • 1986-10-28
    • US764699
    • 1985-08-12
    • Haruhiko KotoJunichi OkadaHiroshi IshiiKenji Sawada
    • Haruhiko KotoJunichi OkadaHiroshi IshiiKenji Sawada
    • B41J2/165B41J2/175B41J2/19G01D15/18
    • B41J2/19B41J2/16544B41J2/16547B41J2/17596
    • An ink-on-demand type ink jet printer including a printer head and an ink container. The printer head includes nozzles for ejecting ink droplets, pressure chambers for pressurizing ink therein and ink passageways for supplying ink from the ink container to the pressure chambers. The printer head is movable in a linear direction for printing across a sheet of recording paper. The ink container includes a vertical partition with the vertical partition having a wall disposed adjacent to an outlet of the ink container and extending substantially perpendicularly to the direction of movement of the printer head. The ink container includes an interior divided by the vertical partition into a main chamber of a first volume defined between one wall surface of the vertical partition and a wall surface of the ink container and an auxiliary chamber of smaller volume defined between the opposite wall surface of the vertical partition and another wall surface of the ink container. The ink is supplied to the nozzles from the auxiliary chamber with the level of ink in the auxiliary chamber being different than the level of ink in the main chamber.
    • 一种按需喷墨打印机,包括打印头和墨盒。 打印头包括用于喷射墨滴的喷嘴,用于对其中的油墨加压的压力室和用于将油墨从油墨容器供应到压力室的油墨通道。 打印机头可沿直线方向移动以便在一张记录纸上打印。 墨水容器包括垂直隔板,垂直隔板具有邻近墨水容器的出口设置的壁,并基本上垂直于打印头的移动方向延伸。 油墨容器包括由垂直隔板分隔成内垂直分隔壁的一个壁面和油墨容器的壁面之间的第一容积的主室和容积较小的辅助室之间的内部, 垂直隔板和墨水容器的另一个壁面。 油墨从辅助室供给到喷嘴,辅助室中的油墨水平与主室中的油墨水平不同。
    • 6. 发明授权
    • Method for measuring carbon concentration in polycrystalline silicon
    • 多晶硅碳浓度测定方法
    • US08963070B2
    • 2015-02-24
    • US14110013
    • 2012-04-03
    • Junichi OkadaKouichi KobayashiFumitaka Kume
    • Junichi OkadaKouichi KobayashiFumitaka Kume
    • G01D18/00G12B13/00G01J3/42G01N21/3563G01N21/27
    • G01J3/42G01N21/274G01N21/3563
    • The present invention provides a method for making it possible to easily and simply measure approximate concentration of substitutional carbon impurities in a desired position in a polycrystalline silicon rod. A polycrystalline silicon plate is sliced out from a polycrystalline silicon rod and both surfaces of the polycrystalline silicon plate are mirror-polished to reduce the polycrystalline silicon plate to thickness of 2.12±0.01 mm. A calibration curve is created according to an infrared absorption spectroscopy and on the basis of a standard measurement method using a single crystal silicon standard sample having known substitutional carbon concentration and thickness of 2.00±0.01 mm, an infrared absorption spectrum in a frequency domain including an absorption zone peak of substitutional carbon of the polycrystalline silicon plate after the mirror polishing is calculated under conditions same as conditions during the calibration curve creation, and substitutional carbon concentration is calculated without performing thickness correction.
    • 本发明提供了一种使得可以容易且简单地测量多晶硅棒中期望位置中的取代碳杂质的近似浓度的方法。 将多晶硅板从多晶硅棒切出,并将多晶硅板的两个表面进行镜面抛光以将多晶硅板的厚度减小到2.12±0.01mm。 根据红外吸收光谱法和基于使用具有已知的取代碳浓度和厚度为2.00±0.01mm的单晶硅标准样品的标准测量方法产生校准曲线,在频域中的红外吸收光谱包括 在与校准曲线生成期间的条件相同的条件下计算镜面抛光后的多晶硅板的取代碳的吸收峰的峰值,并且计算替代碳浓度而不进行厚度校正。
    • 10. 发明授权
    • Multiphoton-excitation observation apparatus
    • 多光子激发观测装置
    • US07488955B2
    • 2009-02-10
    • US11726577
    • 2007-03-22
    • Junichi OkadaMakio UenoYasunari Matsukawa
    • Junichi OkadaMakio UenoYasunari Matsukawa
    • G02B21/06
    • G01N21/6458
    • The invention provides a multiphoton-excitation observation apparatus comprising a light-source unit for emitting pulsed laser light; an observation apparatus main unit for irradiating a specimen with laser light emitted from the light-source unit and observing fluorescence emitted from the specimen; an incidence adjusting device, disposed between the light-source unit and the observation apparatus main unit, for adjusting the beam diameter of the laser light emitted from the light-source unit; and a control apparatus for controlling the incidence-adjusting unit according to the depth of an observation plane in the specimen.
    • 本发明提供了一种多光子激发观测装置,包括用于发射脉冲激光的光源单元; 观察装置主单元,用于从从所述光源单元发射的激光照射样本并观察从所述样本发射的荧光; 入射调节装置,设置在所述光源单元和所述观察装置主单元之间,用于调节从所述光源单元发射的所述激光的光束直径; 以及控制装置,用于根据样本中观察平面的深度来控制入射调节单元。