会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 3. 发明授权
    • Discharge lamp electrode
    • 放电灯电极
    • US06172453B2
    • 2001-01-09
    • US08341617
    • 1994-11-17
    • Munemitsu HamadaMasaru FukudaHaruo TaguchiShoichi IwayaHiroaki Abe
    • Munemitsu HamadaMasaru FukudaHaruo TaguchiShoichi IwayaHiroaki Abe
    • H01J102
    • H01J61/067C04B35/465C04B35/486H01J9/022H01J61/0675H01J61/09H01J61/24H01J61/70H01J61/72H01J61/78
    • The present invention provides an electrode for a ceramic electrode fluorescent discharge lamp; an electrode material for a discharge lamp, which has high electron flow density, high thermal shock resistance, and reduced deterioration due to sputtering; and also a method for manufacturing the same. The invention makes it possible to reduce the tube diameter of the ceramic electrode fluorescent discharge lamp. An electrode material for a discharge lamp is obtained from a first component of 0.5 to 1.5 mols of BaO, CaO or SrO, a second component of 0.05 to less than 0.3 mols or more than 0.7 to 0.95 mols of ZrO2 or TiO2, and a third component of 0.025 to less than 0.3 mols of V2O5, Nb2O5, Ta2O5, Sc2O3, Y2O3, La2O3, Dy2O3, or Ho2O3, or 0.05 to less than 0.15 mols or more than 0.35 to 0.95 mols of HfO2, CrO3, MoO3 or WO3. This electrode material is granulated and is turned into a massive, granular, or porous electrode material. This is placed in a cylindrical semiconductor ceramic container with a closed bottom and is reduced and fired to prepare an electrode. A mercury dispenser of the ceramic electrode fluorescent discharge lamp is disposed in series between the cylindrical semiconductor ceramic container with a closed bottom and a lead-in portion of the lead wire.
    • 本发明提供一种陶瓷电极荧光放电灯用电极, 用于放电灯的电极材料,其电子密度高,耐热冲击性高,并且由于溅射而导致的劣化降低; 以及其制造方法。 本发明可以减小陶瓷电极荧光放电灯的管径。 用于放电灯的电极材料由0.5至1.5摩尔的BaO,CaO或SrO的第一组分,0.05至小于0.3摩尔或大于0.7至0.95摩尔的ZrO 2或TiO 2的第二组分和第三组分 0.025至小于0.3摩尔的V 2 O 5,Nb 2 O 5,Ta 2 O 5,Sc 2 O 3,Y 2 O 3,La 2 O 3,Dy 2 O 3或Ho 2 O 3,或0.05至小于0.15摩尔或大于0.35至0.95摩尔的HfO 2,CrO 3,MoO 3或WO 3。 将该电极材料造粒并变成块状,粒状或多孔的电极材料。 将其放置在具有封闭底部的圆筒形半导体陶瓷容器中并且被还原和烧制以制备电极。 陶瓷电极荧光放电灯的水银分配器串联设置在具有封闭底部的圆筒形半导体陶瓷容器和引线的引入部分之间。
    • 7. 发明授权
    • Process and apparatus for electrical discharge machining of cylindrical
work
    • 圆柱形工件放电加工的工艺和装置
    • US4219718A
    • 1980-08-26
    • US920987
    • 1978-06-30
    • Kunihiko SatoTetsuro UrataTetsuhiro AsamotoKobun AsakawaTakeo UebayashiHaruo Taguchi
    • Kunihiko SatoTetsuro UrataTetsuhiro AsamotoKobun AsakawaTakeo UebayashiHaruo Taguchi
    • B23H9/04B23P1/08
    • B23H9/04
    • Disclosed are a process and apparatus for subjecting the outer surface of a satinizing roll to electrical discharge machining to produce a satin-like roughened surface of a uniform roughness. With this electrical discharge machining process, the electrical discharge machining speed of a plurality of electrodes mounted on a plurality of head columns is held lower than a steady state working speed until the electrodes on all the head columns start discharging, and in response to the detection of the discharge of every electrode on the head columns the working speed is changed to the steady state working speed and the head columns are simultaneously moved traversely along the axis of rotation of a cylindrical work, thus preventing the occurrence of a difference in the depth of erosion or stepped portions on the surface of the work during the initial working period. The apparatus for performing this electrical discharge machining process comprises a working power source including means for controlling the working speed, and detecting means for detecting that every electrode has started discharging so as to direct the working power source to change the working speed and so as to simultaneously actuate a head column transverse feed unit.
    • 公开了一种使饱和辊的外表面进行放电加工以产生均匀粗糙度的缎状粗糙表面的方法和装置。 利用该放电加工工艺,安装在多个头列上的多个电极的放电加工速度保持低于稳态工作速度,直到所有头部柱上的电极开始放电,并且响应于检测 在头柱上的每个电极的放电,工作速度变为稳态工作速度,并且头柱同时沿着圆柱形工件的旋转轴线横移移动,从而防止了深度的差异的发生 在初始工作期间工作表面上的侵蚀或阶梯部分。 用于执行该放电加工工艺的装置包括工作电源,包括用于控制工作速度的装置,以及检测装置,用于检测每个电极已经开始放电,以便引导工作电源改变工作速度,并且 同时致动头柱横向进给单元。
    • 9. 发明授权
    • Display apparatus having temperature compensation function
    • 具有温度补偿功能的显示装置
    • US07466300B2
    • 2008-12-16
    • US11356745
    • 2006-02-17
    • Takashi NaikiHaruo Taguchi
    • Takashi NaikiHaruo Taguchi
    • G09G3/36
    • H02M3/073G09G3/3696G09G2320/041H02M2001/0025
    • The invention provides a display apparatus having a temperature sensor and a step-up circuit generating a drive voltage of the display apparatus by stepping up a power source voltage. The temperature sensor provides temperature data indicative of the temperature of the display panel with a reduced measurement error without limiting the operation of the step-up circuit. To do so, in view of the fact that the step-up circuit has alternating active state in which the circuit is stepping up a source voltage to output a required step-up voltage and inactive state in which no stepping operation is made, the temperature sensor is adapted to obtain temperature data while the step-up circuit is inactive. The temperature data obtained is supplied to a temperature compensation means for changing the drive condition setting value that define the drive condition of the display panel to compensate for the temperature change.
    • 本发明提供一种具有温度传感器和升压电路的显示装置,该升压电路通过升高电源电压来产生显示装置的驱动电压。 温度传感器以降低的测量误差提供表示显示面板的温度的温度数据,而不限制升压电路的操作。 为了做到这一点,鉴于升压电路具有交替的有源状态,其中电路正在升高源电压以输出所需的升压电压和不进行步进操作的无效状态,温度 传感器适用于在升压电路无效时获得温度数据。 获得的温度数据被提供给温度补偿装置,用于改变限定显示面板的驱动条件的驱动条件设定值,以补偿温度变化。
    • 10. 发明申请
    • Display apparatus having temperature compensation function
    • 具有温度补偿功能的显示装置
    • US20060139296A1
    • 2006-06-29
    • US11356745
    • 2006-02-17
    • Takashi NaikiHaruo Taguchi
    • Takashi NaikiHaruo Taguchi
    • G09G3/36
    • H02M3/073G09G3/3696G09G2320/041H02M2001/0025
    • The invention provides a display apparatus having a temperature sensor and a step-up circuit generating a drive voltage of the display apparatus by stepping up a power source voltage. The temperature sensor provides temperature data indicative of the temperature of the display panel with a reduced measurement error without limiting the operation of the step-up circuit. To do so, in view of the fact that the step-up circuit has alternating active state in which the circuit is stepping up a source voltage to output a required step-up voltage and inactive state in which no stepping operation is made, the temperature sensor is adapted to obtain temperature data while the step-up circuit is inactive. The temperature data obtained is supplied to a temperature compensation means for changing the drive condition setting value that define the drive condition of the display panel to compensate for the temperature change.
    • 本发明提供一种具有温度传感器和升压电路的显示装置,该升压电路通过升高电源电压来产生显示装置的驱动电压。 温度传感器以降低的测量误差提供表示显示面板的温度的温度数据,而不限制升压电路的操作。 为了做到这一点,鉴于升压电路具有交替的有源状态,其中电路正在升高源电压以输出所需的升压电压和不进行步进操作的无效状态,温度 传感器适用于在升压电路无效时获得温度数据。 获得的温度数据被提供给温度补偿装置,用于改变限定显示面板的驱动条件的驱动条件设定值,以补偿温度变化。