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    • 61. 发明授权
    • System for sensing riser motion
    • 感应立管运动的系统
    • US07328741B2
    • 2008-02-12
    • US10951563
    • 2004-09-28
    • John AllenAntonio J. Pinto
    • John AllenAntonio J. Pinto
    • E21B29/02E21B43/00G01C9/00G01C17/00G01C19/00G06F15/00
    • E21B44/00E21B19/004
    • A riser monitoring assembly is provided to monitor and manage a riser extending between subsea well equipment and a floating vessel. A riser measurement instrument module is connected adjacent a selected portion of the riser provides dynamic orientation data for the selected portion of the riser. A computer having a memory associated therewith and riser system analyzing management software stored thereon is in communication with the riser measurement module to process data received therefrom. The riser monitoring assembly can utilize real-time orientation data for the selected portion of the riser to analyze the riser dynamic behavior, to determine a model of the real-time structure of the riser, to determine and manage the existence of vortex induced vibration, to determine and manage riser stress levels, to manage riser inspection and riser maintenance, and to supplement determination and management of the position of the vessel.
    • 提供了一个提升管监测组件来监测和管理在海底井设备和浮船之间延伸的提升管。 提升管测量仪器模块连接在提升管的选定部分附近,为提升管的选定部分提供动态取向数据。 具有与其相关联的存储器的计算机和分析其上存储的管理软件的提升管系统与提升板测量模块通信以处理从其接收的数据。 提升管监测组件可以利用提升管的选定部分的实时取向数据来分析立管动态行为,以确定提升管的实时结构的模型,以确定和管理涡流引起的振动的存在, 确定和管理冒口压力水平,管理提升管检查和提升管维护,并补充船舶位置的确定和管理。
    • 65. 发明申请
    • Apparatus for extracting bodily fluid
    • 用于提取体液的装置
    • US20050234486A1
    • 2005-10-20
    • US10825899
    • 2004-04-16
    • John AllenAdolfo Menendez
    • John AllenAdolfo Menendez
    • A61B5/00A61B5/15A61B10/00A61B17/32A61J20060101
    • A61B5/150206A61B5/150022A61B5/150061A61B5/150412A61B5/150748A61B5/15111A61B5/15117
    • An apparatus for extracting bodily fluid (e.g., whole blood) from a user's finger includes a housing with a lancing mechanism and a clamping mechanism attached to thereto. The clamping mechanism includes a lower arm assembly and an upper arm assembly. The upper and lower arm assemblies are operatively connected such that when a user's finger applies a user force to the lower arm assembly and displaces the lower arm assembly from a first to a second position, the upper and lower arm assemblies cooperate to engage the user's finger with a compressive force that is greater than the user force. In addition, the lancing mechanism is configured to lance a target site on the user's finger while the upper and lower arm assemblies are cooperating to engage the user's finger. Thereafter, the compressive force serves to extract a bodily fluid sample from the lanced target site.
    • 用于从使用者的手指提取体液(例如全血)的装置包括具有穿刺机构的壳体和附接到其上的夹紧机构。 夹紧机构包括下臂组件和上臂组件。 上臂组件和下臂组件可操作地连接,使得当用户的手指向下臂组件施加使用力并将下臂组件从第一位置移位到第二位置时,上臂组件和下臂组件配合以接合使用者的手指 具有大于使用者力的压缩力。 此外,穿刺机构配置成在用户的手指上对目标部位进行穿刺,同时上臂和下臂组件协作以接合使用者的手指。 此后,压缩力用于从穿刺目标部位提取体液样品。
    • 68. 发明授权
    • Linear accelerator
    • 线性加速器
    • US06710557B1
    • 2004-03-23
    • US10049352
    • 2002-02-05
    • John AllenLeonard Knowles BrundleTerry Arthur LargeTerence Bates
    • John AllenLeonard Knowles BrundleTerry Arthur LargeTerence Bates
    • H01J2510
    • H05H9/04H05H7/18
    • An accelerator comprises a plurality of accelerating cells arranged to convey a beam, adjacent cells being linked by a coupling cell, the coupling cells being arranged to dictate the ratio of electric field in the respective adjacent accelerating cells, at least one coupling cell being switchable between a positive ratio and a negative ratio. Such an accelerator in effect inserts a phase change into the E field by imposing a negative ratio, meaning that the beam will meet a reversed electric field in subsequent cells and will in fact be decelerated. As a result, the beam can be developed and bunched in early cells while accelerating to and/or at relativistic energies, and then bled of energy in later cells to bring the beam energy down to (say) between 100 and 300 KeV. Energies of this magnitude are comparable to diagnostic X-rays, where much higher contrast of bony structures exists. Hence the accelerator can be used to take kilovoltage portal images.
    • 加速器包括多个加速单元,其被布置成传送波束,相邻单元由耦合单元链接,所述耦合单元布置成指示相应相邻加速单元中的电场的比率,至少一个耦合单元可在 正比率和负比率。 这样的加速器实际上通过施加负比率将相位插入到E场中,这意味着光束将在随后的单元中遇到反向的电场,并且实际上将被减速。 结果,可以在加速到和/或相对论能量的同时在早期的单元中显影和聚束光束,然后在稍后的单元中排出能量,以将光束能量降低到(例如)100和300KeV之间。 这种量级的能量与诊断X射线相当,骨骼结构的对比度高得多。 因此,加速器可用于采取千伏门户图像。
    • 70. 发明授权
    • Linear accelerator
    • 线性加速器
    • US06376990B1
    • 2002-04-23
    • US09529757
    • 2000-04-18
    • John AllenLeonard Knowles BrundleTerry Arthur LargeTerence Bates
    • John AllenLeonard Knowles BrundleTerry Arthur LargeTerence Bates
    • H01J2510
    • H05H9/04H05H7/18
    • This device allows the variation of the coupling between two points in an RF circuit in a very simple way while maintaining the RF phase relationship and varying the relative magnitude of the RF fields. The device is characterized by a simple mechanical control of coupling value, that has negligible effect on the phase shift across the device. This is achieved by the simple rotation of the polarisation of a TE111 mode inside a cylindrical cavity. Such a device does not contain resistive elements, and the sliding mechanical surfaces are free from high RF currents. This device finds an application in standing wave linear accelerators, where it is desirable to vary the relative RF field in one set of cavities with respect to another, in order that the accelerator can operate successfully over a wide range of energies.
    • 该装置允许以非常简单的方式在RF电路中的两个点之间的耦合的变化,同时保持RF相位关系并改变RF场的相对幅度。 该器件的特征在于耦合值的简单机械控制,对于跨器件的相移具有可忽略的影响。 这通过在圆柱形腔内的TE111模式的极化的简单旋转来实现。 这种装置不包含电阻元件,并且滑动机械表面没有高RF电流。 该装置在驻波线性加速器中发现了一种应用,其中期望相对于另一组空腔改变相对RF场,以便加速器能够在宽范围的能量范围内成功地运行。