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    • 22. 发明授权
    • Thermal energy storage and transfer assembly
    • 热能储存和转移组件
    • US06215852B1
    • 2001-04-10
    • US09208961
    • 1998-12-10
    • Carey S. RogersCharles B. KendallDouglas J. SnyderBrian D. Lounsberry
    • Carey S. RogersCharles B. KendallDouglas J. SnyderBrian D. Lounsberry
    • H01J3516
    • H01J35/105H01J35/18H05G1/025H05G1/04
    • A thermal energy storage and transfer assembly is disclosed for use in electron beam generating devices that generate residual energy. The residual energy comprises radiant thermal energy and kinetic energy of back scattered electrons. The thermal energy storage and transfer assembly absorbs and stores an amount of the residual energy to reduce the heat load on other components in the electron beam generating device. The thermal energy storage and transfer device comprises a body portion of a sufficient thermal capacity to permit the rate of transfer of the amount of the residual energy absorbed into the assembly to substantially exceed the rate of transfer of the amount of the residual energy out of the assembly. The assembly also comprises a heat exchange chamber filled with a circulating fluid that transfers the thermal energy out of the assembly. Additionally, in an x-ray generating device, an x-ray transmissive filter suitable for absorbing residual energy is positioned between the anode and an x-ray transmissive window. The filter reduces the exposure of the window to the residual energy. The filter may additionally comprise a coating layer that further reduces the exposure of the window to the residual energy.
    • 公开了用于产生残余能量的电子束产生装置中的热能存储和转移组件。 剩余能量包括辐射热能和背散射电子的动能。 热能储存和转移组件吸收和储存一定量的剩余能量以减少电子束发生装置中其它部件上的热负荷。 热能储存和转移装置包括具有足够热容量的主体部分,以允许吸收到组件中的剩余能量的量的转移速率基本上超过剩余能量的转移速率 部件。 组件还包括填充有循环流体的热交换室,该循环流体将热能转移出组件。 另外,在x射线产生装置中,适于吸收残余能量的x射线透射滤光器位于阳极和x射线透射窗之间。 过滤器可以减少窗口对剩余能量的暴露。 过滤器可以另外包括涂层,其进一步减少窗口暴露于剩余能量。
    • 23. 发明授权
    • Anode mounting apparatus with thermal growth compensation for x-ray tube
    • 阳极安装装置,具有X射线管的热增长补偿
    • US5867556A
    • 1999-02-02
    • US957056
    • 1997-10-24
    • Douglas J. SnyderThomas BlockDale G. Chrisien
    • Douglas J. SnyderThomas BlockDale G. Chrisien
    • H01J35/28
    • H01J35/10
    • In an X-ray tube having a housing, an outer frame for providing a vacuum, a cathode mounted in the outer frame to project a stream of electrons, and an anode disposed to receive the electron stream at a focal spot position to produce X-rays, apparatus is provided for selectively mounting the anode within the housing. More particularly, the apparatus is disposed to respond to the heat generated by the X-ray production process to provide compensation for undesirable effects resulting from thermal expansion of the anode. The apparatus generally comprises an anode frame structure disposed to support the anode for rotation about a specified axis, and further comprises an anode plate joined to the frame structure for locating the anode at an initial position, in spaced-apart relationship with the cathode and with the aperture of a collimator in fixed relation to the tube, and for displacing the anode away from the initial position, in a direction opposite to the direction of anode thermal expansion, to provide compensation therefor. A compliant plate mounting arrangement is provided for selectively attaching the anode plate to the housing.
    • 在具有壳体的X射线管,用于提供真空的外框架,安装在外框架中以投射电子流的阴极以及设置成在焦点位置处接收电子流以产生X射线的X射线管, 提供了用于选择性地将阳极安装在壳体内的装置。 更具体地说,该设备被设置为响应由X射线生产过程产生的热量,以补偿由阳极的热膨胀引起的不良影响。 该装置通常包括阳极框架结构,其设置成支撑阳极以围绕指定的轴线旋转,并且还包括连接到框架结构的阳极板,用于将阳极定位在与阴极隔开关系的初始位置处, 准直器的孔与管固定,并且用于使阳极远离初始位置,沿与阳极热膨胀方向相反的方向移位,以提供补偿。 提供了一种柔性板安装装置,用于选择性地将阳极板连接到壳体。
    • 29. 发明授权
    • Method for balancing rotatable anodes for X-ray tubes
    • 用于平衡X射线管可旋转阳极的方法
    • US5689543A
    • 1997-11-18
    • US768642
    • 1996-12-18
    • Brian J. GravesThomas G. EbbenDouglas J. Snyder
    • Brian J. GravesThomas G. EbbenDouglas J. Snyder
    • H05G1/66H01J35/10
    • H01J35/101
    • A method of balancing X-ray anodes wherein the anode rotor is dynamically balanced separately from the anode target, the anode target is then attached to the anode rotor to provide the assembled anode, and the assembled anode is then dynamically balanced. This sequential balancing method has the advantage that it results in an anode which remains balanced during operation at speeds up to and exceeding the anode's critical speeds, even though the dynamic balancing steps may be performed at speeds substantially below the anode's critical speeds. This is also convenient because at such low balancing speeds, the dynamic balancing steps can be performed in air rather than vacuum without concern for oxidation and spalling of the rotor bearings, excessive vibration, and potential safety concerns.
    • 一种平衡X射线阳极的方法,其中阳极转子与阳极靶分开动态平衡,然后将阳极靶连接到阳极转子以提供组装的阳极,然后组装的阳极被动态平衡。 这种顺序平衡方法具有的优点是,即使动态平衡步骤可以以低于阳极的临界速度的速度执行,其导致阳极在运行期间在高于和超过阳极的临界速度的速度下保持平衡。 这也很方便,因为在这样低的平衡速度下,动态平衡步骤可以在空气而不是真空中进行,而不用担心转子轴承的氧化和剥落,过度的振动和潜在的安全性问题。