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    • 3. 发明授权
    • X-ray tube device
    • X射线管装置
    • US09437390B2
    • 2016-09-06
    • US14437491
    • 2012-10-22
    • SHIMADZU CORPORATION
    • Sadamu TomitaMasaaki Ukita
    • H01J35/30H01J35/14H01J35/16
    • H01J35/14H01J35/16H01J35/305H01J2235/02H01J2235/16H01J2235/168
    • An X-ray tube device according to the present invention includes a cathode generating an electron beam, an anode generating an X-ray by collision of the electron beam from the cathode, an envelope internally housing the cathode and the anode, a magnetic field generator including a magnetic pole arranged to be opposed to the envelope, generating a magnetic field for focusing and deflecting the electron beam from the cathode to the anode, and an electric field relaxing electrode arranged between the magnetic pole and the envelope, having an outer surface having a rounded shape. Thus, the magnetic field generator can be placed closer to the envelope while a tip end of the magnetic field generator is suppressed from being a discharge start point, and hence the effect of being capable of downsizing the X-ray tube device is achieved.
    • 根据本发明的X射线管装置包括产生电子束的阴极,通过来自阴极的电子束的碰撞产生X射线的阳极,内部容纳阴极和阳极的外壳,磁场发生器 包括设置成与外壳相对的磁极,产生用于使电子束从阴极到阳极聚焦和偏转的磁场,以及布置在磁极和外壳之间的电场弛豫电极,其外表面具有 圆形。 因此,可以将磁场发生器放置得更靠近封套,同时将磁场发生器的前端抑制为放电开始点,从而实现能够使X射线管装置小型化的效果。
    • 5. 发明申请
    • X-RAY TUBE APPARATUS
    • US20100195799A1
    • 2010-08-05
    • US12671021
    • 2007-08-09
    • Sadamu TomitaShigeki Hayashi
    • Sadamu TomitaShigeki Hayashi
    • H01J35/14H01J35/10
    • H01J35/14H01J35/16H01J35/305H01J2235/1212H01J2235/1216H01J2235/162
    • Conventionally, the magnetic field generator was arranged perpendicularly to the axis of the electron beam. The magnetic field generator of this invention is arranged so as to be inclined relative to the plane perpendicular to the axis of the electron beam. Specifically, the magnetic field generator is arranged so as to be inclined relative to the plane perpendicular to the axis of the electron beam within the range in the cathode side from the focused and deflected electron beam. Inclination up to the anode side opposite to the cathode side will lead to a possibility of increasing the reduced X-ray source diameter. Thus, arranging the magnetic field generator so as to be inclined within the range in the cathode side from the electron beam may reduce the X-ray source diameter.
    • 通常,磁场发生器垂直于电子束的轴线布置。 本发明的磁场发生器被布置成相对于垂直于电子束轴的平面倾斜。 具体地说,磁场发生器被布置为相对于垂直于电子束轴线的平面在从聚焦偏转电子束的阴极侧范围内倾斜。 直到与阴极侧相反的阳极侧的倾斜将导致增加X射线源直径减小的可能性。 因此,将磁场发生器设置成在电子束的阴极侧的范围内倾斜,可能降低X射线源直径。
    • 7. 发明授权
    • X-ray unit having an x-ray radiator with a thermionic photocathode and a control circuit therefor
    • 具有具有热离子光电阴极的x射线辐射体的X射线单元及其控制电路
    • US07496179B2
    • 2009-02-24
    • US11752423
    • 2007-05-23
    • Joerg FreudenbergerSven FritzlerManfred FuchsMatthias MaierDetlef MatternPeter RoehrerPeter Schardt
    • Joerg FreudenbergerSven FritzlerManfred FuchsMatthias MaierDetlef MatternPeter RoehrerPeter Schardt
    • H01J35/06H05G1/36H05G1/46
    • H01J35/065H01J35/305H01J2235/162
    • An x-ray unit has an x-ray radiator having an anode that emits x-rays upon being struck by electrons, a cathode that thermionically emits electrons upon irradiation thereof by a laser beam, electrical connections for application of a high voltage between the anode and the cathode to accelerate the emitted electrons toward the anode as an electron beam, a vacuum housing that can be rotated around an axis, an insulator that is part of the vacuum housing and that separates the cathode from the anode, a drive that rotates the vacuum housing around its axis, an arrangement for cooling components of the x-ray radiator, and an arrangement that directs the laser beam from a stationary source, arranged outside of the vacuum housing, onto a spatially stationary laser focal spot on the cathode and that focuses the laser beam. The x-ray unit furthermore has a control circuit with which an operating property of the x-ray unit is adjusted and at least one measurement element for measurement of a measurement quantity is effectively correlated with the temperature of the cathode. The control circuit adjusts the operating property dependent on the measurement of the measurement quantity.
    • x射线单元具有:x射线辐射体,其具有在被电子撞击时发射x射线的阳极;通过激光束照射电子时发射电子的阴极;用于在阳极之间施加高电压的电连接 以及用于将发射的电子作为电子束加速到阳极的阴极,可以围绕轴线旋转的真空壳体,作为真空壳体的一部分并将阴极与阳极分离的绝缘体,使得阴极与阳极分离的驱动器, 围绕其轴线的真空壳体,用于冷却x射线辐射器的部件的布置,以及将来自设置在真空壳体外部的固定源的激光束引导到阴极上的空间静止的激光焦点上的布置, 聚焦激光束。 X射线单元还具有调整X射线单元的工作特性的控制电路,并且用于测量量的至少一个测量元件与阴极的温度有效地相关。 控制电路根据测量量的测量来调整工作特性。