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    • 2. 发明授权
    • Solid electrolytic capacitor and method of manufacturing the capacitor
    • 固体电解电容器及其制造方法
    • US06771488B2
    • 2004-08-03
    • US10451748
    • 2003-11-14
    • Seiji TakagiAyumi KochiYuji MidYasuo Kanemitsu
    • Seiji TakagiAyumi KochiYuji MidYasuo Kanemitsu
    • H01G900
    • H01G9/012H01G9/15H01G9/26
    • A capacitor includes a valve metal foil including a valve metal porous body and a lead portion, a dielectric layer provided on the valve metal porous body, a solid electrolyte layer on the dielectric layer, a collector layer on the solid electrolyte layer, an anode lead connected to the lead portion, a housing for accommodating the valve metal porous body, the dielectric layer, the solid electrolyte layer, the collector layer, and the anode lead, and for having an end of the anode lead exposed from a surface of the housing, an anode external terminal provided over the housing and connected with the end of the anode lead, and a cathode external terminal provided over the housing and coupled with the collector layer. The capacitor has a large capacitance, a small ESR, and a small ESL.
    • 电容器包括阀金属箔,其包括阀金属多孔体和引线部分,设置在阀金属多孔体上的电介质层,介电层上的固体电解质层,固体电解质层上的集电层,阳极引线 连接到引线部分,用于容纳阀金属多孔体的壳体,电介质层,固体电解质层,集电层和阳极引线,并且用于使阳极引线的端部从壳体的表面暴露出来 ,设置在外壳上并与阳极引线的端部连接的阳极外部端子,以及设置在壳体上并与集电器层耦合的阴极外部端子。 电容器具有大电容,小ESR和小ESL。
    • 4. 发明授权
    • Apparatus for detecting position of underground excavator and magnetic
field producing cable
    • 检测地下挖掘机和磁场生产电缆位置的装置
    • US5240350A
    • 1993-08-31
    • US773579
    • 1991-11-07
    • Hiroaki YamaguchiShuji ArakawaTomoyuki AbeYasuhiko IchimuraYasuo Kanemitsu
    • Hiroaki YamaguchiShuji ArakawaTomoyuki AbeYasuhiko IchimuraYasuo Kanemitsu
    • E21D9/06E21B47/022E21D9/00E21D9/093G01C15/00G01V3/08
    • E21B47/02224E21D9/003E21D9/004G01C15/00G01V3/08
    • Magnetic field producers are disposed either at the leading portion of an underground excavator or at a reference position in front of the underground excavator. The magnetic field producers can be constituted by a plurality of rectangular loops disposed to run parallel to one another and to overlap one another. The rectangular loops can be individually excited sequentially or they can be simultaneously excited at different frequencies. The magnetic field produced by a magnetic field producer can be detected by a first magnetic field detector and by a second magnetic field detector disposed to the rear of the first magnetic field detector so that the inclination angle of the underground excavator can be obtained from the difference between the positions of the two detectors. A loop of a magnetic field producing cable can be covered by a non-magnetic metal member so that wear and disconnection are prevented. A double loop structure can be employed so that measurement can be performed even if one of the loops is disconnected.
    • PCT No.PCT / JP91 / 00318 Sec。 371日期1991年11月7日 102(e)1991年11月7日PCT PCT 1991年3月8日PCT。 出版物WO91 / 14079 日期1991年9月19日。磁场生产者处置在地下挖掘机的前部或地下挖掘机前面的参考位置。 磁场产生器可以由多个矩形环构成,这些矩形环设置为彼此平行并彼此重叠。 矩形环可以依次单独激励,也可以以不同频率同时激励。 由磁场产生器产生的磁场可以由第一磁场检测器和设置在第一磁场检测器后面的第二磁场检测器检测,从而可以从差异获得地下挖掘机的倾斜角 在两个检测器的位置之间。 磁场产生电缆的环可以被非磁性金属部件覆盖,从而防止磨损和断开。 可以采用双环结构,使得即使其中一个环路断开也可以进行测量。
    • 5. 发明授权
    • Method and apparatus for detecting collapse of natural ground in shield
driving method
    • 用于检测盾构驱动方法中自然接地褶皱的方法和装置
    • US5199818A
    • 1993-04-06
    • US773560
    • 1991-11-06
    • Masahiko YamamotoKanji ShibataniHiroaki YamaguchiYasuo KanemitsuTetsuya ShinboTomoyuki AbeYasuhiko IchimuraShoichi Sakanishi
    • Masahiko YamamotoKanji ShibataniHiroaki YamaguchiYasuo KanemitsuTetsuya ShinboTomoyuki AbeYasuhiko IchimuraShoichi Sakanishi
    • E21D9/06E21D9/087E21D9/093
    • E21D9/093
    • A method and an apparatus for performing measurement by a resistivity method in order to detect the thickness of a sludge layer on the outer periphery of a shield machine. A Wenner electrode row (14) on the outer periphery of the machine is used to measure reference resistivities to thereby detect certain resistivities in the depth direction of the natural ground and the sludge layer thickness. At the same time, a dipole electrode row (16) is used to measure voltage distributions in the depth direction of the natural ground and in the direction of the arrangement of the electrodes. The ratios of the values measured by the measurement dipole electrodes to those measured by the reference Wenner electrodes are calculated, and their distribution is charted. When mutually equal values in the distribution map are connected together by continuous curves, a contour-pattern image is obtained, which enables a configuration of the collapse of natural ground to be determined. Such as image can be displayed either two-dimensionally or three-dimensionally by image processing. If a plurality of sets of electrode rows (14) and (16) are arranged in the circumferential direction of the machine, and resistivities are detected while current having different frequencies is supplied, the collapse of the natural ground can be measured quickly.
    • PCT No.PCT / JP91 / 00317 Sec。 371日期1991年11月6日 102(e)日期1991年11月6日PCT 1991年3月8日PCT公布。 出版物WO91 / 14078 日期1991年9月19日。一种用于通过电阻率法进行测量以便检测盾构机外周上的污泥层的厚度的方法和装置。 使用机器外周的文纳电极列(14)来测量参考电阻,从而检测天然地面深度方向上的某些电阻率和污泥层厚度。 同时,使用偶极电极列(16)测量自然地面的深度方向和电极排列方向上的电压分布。 计算由测量偶极子电极测量的值与通过参考Wenner电极测量的值的比率,并绘制其分布。 当通过连续曲线将分布图中的相互相等的值连接在一起时,获得轮廓图案图像,其能够确定自然地面的崩溃的配置。 诸如图像可以通过图像处理二维或三维地显示。 如果在机器的圆周方向上布置多组电极列(14)和(16),并且在提供具有不同频率的电流的同时检测电阻率,则可以快速测量自然地面的塌陷。