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    • 1. 发明授权
    • Vehicle discharge lamp
    • 车辆放电灯
    • US08350478B2
    • 2013-01-08
    • US13309781
    • 2011-12-02
    • Toru ItoToshiaki Tsuda
    • Toru ItoToshiaki Tsuda
    • H01J17/16
    • H01J61/33H01J61/366H01J61/827
    • A vehicle discharge lamp includes: an arc tube including a light emitter, a cathode side fine tube and an anode side fine tube; a cathode side connecting rod; an anode side connecting rod; a cathode side electrode and an anode side electrode disposed within the arc tube. The anode side fine tube includes an expansion portion and an insertion portion formed continuously with the expansion portion, a portion of the anode side electrode is situated within the expansion portion with a clearance, the expansion portion includes a uniform diameter portion with its inside diameter set uniform in an anode side electrode's axial direction, the light emitter includes a flat portion with its axial direction set coincident with the anode side electrode's axial direction, and an inside diameter of the uniform diameter portion is set larger than that of the insertion portion and smaller than that of the flat portion.
    • 车辆放电灯包括:发光管,包括发光体,阴极侧细管和阳极侧细管; 阴极侧连接杆; 阳极侧连接杆; 设置在电弧管内的阴极侧电极和阳极侧电极。 阳极侧细管包括膨胀部和与膨胀部连续形成的插入部,阳极侧电极的一部分以间隙位于膨胀部内,膨胀部包括均匀的直径部,其内径设定 阳极侧电极的轴向均匀,发光体包括其轴向设定为与阳极侧电极的轴向一致的平坦部分,并且均匀直径部分的内径设定为大于插入部的内径,并且较小 比平坦部分高。
    • 3. 发明申请
    • PLASMA MEASURING METHOD, PLASMA MEASURING DEVICE AND STORAGE MEDIUM
    • 等离子体测量方法,等离子体测量装置和储存介质
    • US20100321029A1
    • 2010-12-23
    • US12867120
    • 2009-01-30
    • Toru ItoMasato KawakamiSumie NagasekiKazuki Denpoh
    • Toru ItoMasato KawakamiSumie NagasekiKazuki Denpoh
    • G01N27/62
    • H01J37/3244H01J37/32449H01J37/32935
    • Provided is a technique capable of ascertaining the process condition of the boundary between electrically positive and negative plasma regions. In a vacuum chamber, one of the parameters of process conditions is stepwisely changed to generate a plasma under at least three process conditions. The parameters include a flow rate ratio between an electrically negative gas and an electrically positive gas, a pressure in the vacuum chamber and the magnitude of an energy supplied to the gases. Next, a voltage is applied to a Langmuir probe positioned in that plasma, and a current-voltage curve indicating the relationship between the applied voltage and the electric current to flow through the probe is acquired for each of the process conditions. On the basis of the current-voltage curve group acquired, the process conditions are determined for the boundary between the electrically positive and negative plasma regions.
    • 提供了一种能够确定电正极和负电等离子体区域之间的边界的工艺条件的技术。 在真空室中,逐步改变工艺条件的参数之一,以在至少三个工艺条件下产生等离子体。 参数包括电负气体和电正气体之间的流量比,真空室中的压力和供应给气体的能量的大小。 接下来,对位于该等离子体中的Langmuir探针施加电压,并且针对每个处理条件获取指示施加的电压和流过探针的电流之间的关系的电流 - 电压曲线。 基于所获得的电流 - 电压曲线组,确定电气正电压和负电压区域之间的边界的工艺条件。
    • 7. 发明授权
    • Motor drive camera
    • 电机驱动相机
    • US06574438B2
    • 2003-06-03
    • US10184871
    • 2002-07-01
    • Kenji YamaneToru Ito
    • Kenji YamaneToru Ito
    • G03B1700
    • G03B17/425
    • A zoom lens device is attached in front of a main body. The main body has a film cartridge chamber and a take-up chamber. A take-up spool is rotatably positioned into the take-up chamber. The zoom lens device consists of a fixed lens barrel and plural movable lens barrels. The movable lens barrels move along a photographic optical axis in order to perform zooming. Rotation of a film motor is transmitted to the take-up spool through a film advance gear train. Rotation of the lens motor is transmitted to the zoom lens device through a lens drive gear train. The film advance gear train and the lens drive gear train are positioned side by side on the lower part of the main body.
    • 变焦镜头装置安装在主体前面。 主体具有暗盒室和卷取室。 卷取卷轴可旋转地定位在卷取室中。 变焦透镜装置由固定镜筒和多个可移动透镜筒组成。 可移动透镜筒沿着摄影光轴移动,以进行变焦。 胶片电动机的旋转通过胶片前进齿轮系传递到卷取卷轴。 镜头马达的旋转通过透镜驱动齿轮系传递到变焦镜头装置。 胶卷推进齿轮系和镜头驱动齿轮系并排设置在主体的下部。
    • 8. 发明授权
    • Positioning system and fixed station and positioning apparatus for
employing the same
    • 定位系统和固定站及其采用定位装置
    • US5990825A
    • 1999-11-23
    • US903433
    • 1997-07-30
    • Toru Ito
    • Toru Ito
    • G01C21/00G01S5/00G01S19/07G01S19/48H04B7/15G01S5/02
    • G01S19/07G01S19/41G01S5/009
    • DGPS data obtained from an FM broadcast wave is extracted by a DGPS data extraction section (226). Adjustment error, the accuracy of which is not very high, has been appended to correction data to be used in actual positioning correction within the obtained DGPS data. A correction value creation section (228) judges, from the contents of DGPS data, which data in a correction value table (230) may be read. The method of this judgment is predetermined. Then, the correction value is created by reading the corresponding correction value from correction value table (230). Next, the correction value and correction data are added in a DGPS data specifying section (232) to yield proper correction data. Position information having high accuracy can be obtained from the obtained proper correction data.
    • 由DGPS数据提取部(226)提取从FM广播波获得的DGPS数据。 调整误差,其精度不是非常高,已被附加到校正数据,以用于所获得的DGPS数据内的实际定位校正。 校正值生成部(228)从DGPS数据的内容判断可以读取校正值表(230)中的哪个数据。 该判断的方法是预先确定的。 然后,通过从校正值表读取对应的校正值来创建校正值(230)。 接下来,将校正值和校正数据添加到DGPS数据确定部(232)中,以产生适当的校正数据。 可以从获得的适当的校正数据中获得具有高精度的位置信息。