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    • 1. 发明授权
    • Retrievable formation resistivity tool
    • 可回收地层电阻率工具
    • US07692428B2
    • 2010-04-06
    • US11623416
    • 2007-01-16
    • Brian ClarkJohn HunkaMark T. FreyDavid L. SmithDhananjay RamaswamyAnthony CollinsStephen Bonner
    • Brian ClarkJohn HunkaMark T. FreyDavid L. SmithDhananjay RamaswamyAnthony CollinsStephen Bonner
    • G01V3/30
    • G01V3/30E21B47/011E21B47/122G01V11/002Y10T137/0396Y10T137/0452
    • Systems and methods for downhole communication and measurement utilizing an improved metallic tubular having an elongated body with tubular walls and a central bore adapted to receive a run-in tool. The tubular including slotted stations to provide through-tubular signal transmission and/or reception. Hydraulic isolation between the interior and exterior of the tubular is provided by pressure barrier means at the slotted stations. Sensors and/or sources are mounted on the run-in tool, which is adapted for transmission through a drill string to engage within the tubular in alignment with the slotted stations. A run-in tool configuration includes a modulator for real-time wireless communication with the surface and/or remote downhole tools. A tubular and run-in tool configuration also includes inductive couplers for wireless signal data transfer. A method for measuring a formation characteristic utilizing a run-in tool adapted with an interchangeable end segment for multi-mode downhole transport. Methods for sealing an opening on the surface of a tubular having an elongated body with tubular walls and a central bore.
    • 用于井下通信和测量的系统和方法利用改进的金属管状物,其具有带有管状壁的细长主体和适于接纳磨合工具的中心孔。 管状件包括开槽台,以提供贯穿管状的信号传输和/或接收。 在管状内部和外部之间的液压隔离由开槽站处的压力阻挡装置提供。 传感器和/或源安装在导入工具上,该工具适用于通过钻柱传输,以与管槽相配合以与开槽工位对准。 一个入门工具配置包括一个用于与表面和/或远程井下工具进行实时无线通信的调制器。 管状和经入工具配置还包括用于无线信号数据传输的电感耦合器。 一种利用适用于多模式井下输送的可互换端部段的换入工具测量地层特性的方法。 用于密封具有管状壁和中心孔的具有细长主体的管状物的表面上的开口的方法。
    • 2. 发明授权
    • Methods for sealing openings in tubulars
    • 密封管状开口的方法
    • US07187297B2
    • 2007-03-06
    • US10355732
    • 2003-01-30
    • Brian ClarkJohn HunkaMark T. FreyDavid L. SmithDhananjay RamaswamyAnthony CollinsStephen Bonner
    • Brian ClarkJohn HunkaMark T. FreyDavid L. SmithDhananjay RamaswamyAnthony CollinsStephen Bonner
    • G01V3/00
    • G01V3/30E21B47/011E21B47/122G01V11/002Y10T137/0396Y10T137/0452
    • Systems and methods for downhole communication and measurement utilizing an improved metallic tubular having an elongated body with tubular walls and a central bore adapted to receive a run-in tool. The tubular including slotted stations to provide through-tubular signal transmission and/or reception. Hydraulic isolation between the interior and exterior of the tubular is provided by pressure barrier means at the slotted stations. Sensors and/or sources are mounted on the run-in tool, which is adapted for transmission through a drill string to engage within the tubular in alignment with the slotted stations. A run-in tool configuration includes a modulator for real-time wireless communication with the surface and/or remote downhole tools. A tubular and run-in tool configuration also includes inductive couplers for wireless signal data transfer. A method for measuring a formation characteristic utilizing a run-in tool adapted with an interchangeable end segment for multi-mode downhole transport. Methods for sealing an opening on the surface of a tubular having an elongated body with tubular walls and a central bore.
    • 用于井下通信和测量的系统和方法利用改进的金属管状物,其具有带有管状壁的细长主体和适于接纳磨合工具的中心孔。 管状件包括开槽台,以提供贯穿管状的信号传输和/或接收。 在管状内部和外部之间的液压隔离由开槽站处的压力阻挡装置提供。 传感器和/或源安装在导入工具上,该工具适用于通过钻柱传输,以与管槽相配合以与开槽工位对准。 一个入门工具配置包括一个用于与表面和/或远程井下工具进行实时无线通信的调制器。 管状和经入工具配置还包括用于无线信号数据传输的电感耦合器。 一种利用适用于多模式井下输送的可互换端部段的换入工具测量地层特性的方法。 用于密封具有管状壁和中心孔的具有细长主体的管状物的表面上的开口的方法。
    • 3. 发明授权
    • Downhole tubular with openings for signal passage
    • 井下管道,带有信号通道的开口
    • US06975243B2
    • 2005-12-13
    • US10355599
    • 2003-01-30
    • Brian ClarkJohn HunkaMark T. FreyDavid L. SmithDhananjay RamaswamyAnthony CollinsStephen Bonner
    • Brian ClarkJohn HunkaMark T. FreyDavid L. SmithDhananjay RamaswamyAnthony CollinsStephen Bonner
    • E21B47/01E21B47/12G01V11/00G01V3/00
    • G01V3/30E21B47/011E21B47/122G01V11/002Y10T137/0396Y10T137/0452
    • Systems and methods for downhole communication and measurement utilizing an improved metallic tubular having an elongated body with tubular walls and a central bore adapted to receive a run-in tool. The tubular including slotted stations to provide through-tubular signal transmission and/or reception. Hydraulic isolation between the interior and exterior of the tubular is provided by pressure barrier means at the slotted stations. Sensors and/or sources are mounted on the run-in tool, which is adapted for transmission through a drill string to engage within the tubular in alignment with the slotted stations. A run-in tool configuration includes a modulator for real-time wireless communication with the surface and/or remote downhole tools. A tubular and run-in tool configuration also includes inductive couplers for wireless signal data transfer. A method for measuring a formation characteristic utilizing a run-in tool adapted with an interchangeable end segment for multi-mode downhole transport. Methods for sealing an opening on the surface of a tubular having an elongated body with tubular walls and a central bore.
    • 用于井下通信和测量的系统和方法利用改进的金属管状物,其具有带有管状壁的细长主体和适于接纳磨合工具的中心孔。 管状件包括开槽台,以提供贯穿管状的信号传输和/或接收。 在管状内部和外部之间的液压隔离由开槽站处的压力阻挡装置提供。 传感器和/或源安装在导入工具上,该工具适用于通过钻柱传输,以与管槽相配合以与开槽工位对准。 一个入门工具配置包括一个用于与表面和/或远程井下工具进行实时无线通信的调制器。 管状和经入工具配置还包括用于无线信号数据传输的电感耦合器。 一种利用适用于多模式井下输送的可互换端部段的换入工具测量地层特性的方法。 用于密封具有管状壁和中心孔的具有细长主体的管状物的表面上的开口的方法。
    • 4. 发明申请
    • Retrievable Formation Resistivity Tool
    • 可检索形成电阻率工具
    • US20070216415A1
    • 2007-09-20
    • US11623416
    • 2007-01-16
    • Brian ClarkJohn HunkaMark FreyDavid SmithDhananjay RamaswamyAnthony CollinsStephen Bonner
    • Brian ClarkJohn HunkaMark FreyDavid SmithDhananjay RamaswamyAnthony CollinsStephen Bonner
    • G01V3/00
    • G01V3/30E21B47/011E21B47/122G01V11/002Y10T137/0396Y10T137/0452
    • Systems and methods for downhole communication and measurement utilizing an improved metallic tubular having an elongated body with tubular walls and a central bore adapted to receive a run-in tool. The tubular including slotted stations to provide through-tubular signal transmission and/or reception. Hydraulic isolation between the interior and exterior of the tubular is provided by pressure barrier means at the slotted stations. Sensors and/or sources are mounted on the run-in tool, which is adapted for transmission through a drill string to engage within the tubular in alignment with the slotted stations. A run-in tool configuration includes a modulator for real-time wireless communication with the surface and/or remote downhole tools. A tubular and run-in tool configuration also includes inductive couplers for wireless signal data transfer. A method for measuring a formation characteristic utilizing a run-in tool adapted with an interchangeable end segment for multi-mode downhole transport. Methods for sealing an opening on the surface of a tubular having an elongated body with tubular walls and a central bore.
    • 用于井下通信和测量的系统和方法利用改进的金属管状物,其具有带有管状壁的细长主体和适于接纳磨合工具的中心孔。 管状件包括开槽台,以提供贯穿管状的信号传输和/或接收。 在管状内部和外部之间的液压隔离由开槽站处的压力阻挡装置提供。 传感器和/或源安装在导入工具上,该工具适用于通过钻柱传输,以与管槽相配合以与开槽工位对准。 一个入门工具配置包括一个用于与表面和/或远程井下工具进行实时无线通信的调制器。 管状和经入工具配置还包括用于无线信号数据传输的电感耦合器。 一种利用适用于多模式井下输送的可互换端部段的换入工具测量地层特性的方法。 用于密封具有管状壁和中心孔的具有细长主体的管状物的表面上的开口的方法。
    • 7. 发明授权
    • Method and apparatus for downhole signal communication and measurement through a metal tubular
    • 用于井下信号通信和通过金属管测量的方法和装置
    • US06577244B1
    • 2003-06-10
    • US09576271
    • 2000-05-22
    • Brian ClarkJohn HunkaMark T. FreyDavid L. SmithDhananjay RamaswamyAnthony CollinsStephen Bonner
    • Brian ClarkJohn HunkaMark T. FreyDavid L. SmithDhananjay RamaswamyAnthony CollinsStephen Bonner
    • G01V300
    • G01V3/30E21B47/011E21B47/122G01V11/002Y10T137/0396Y10T137/0452
    • Systems and methods for downhole communication and measurement utilizing an improved metallic tubular having an elongated body with tubular walls and a central bore adapted to receive a run-in tool. The tubular including slotted stations to provide through-tubular signal transmission and/or reception. Hydraulic isolation between the interior and exterior of the tubular is provided by pressure barrier means at the slotted stations. Sensors and/or sources are mounted on the run-in tool, which is adapted for transmission through a drill string to engage within the tubular in alignment with the slotted stations. A run-in tool configuration includes a modulator for real-time wireless communication with the surface and/or remote downhole tools. A tubular and run-in tool configuration also includes inductive couplers for wireless signal data transfer. A method for measuring a formation characteristic utilizing a run-in tool adapted with an interchangeable end segment for multi-mode downhole transport. Methods for sealing an opening on the surface of a tubular having an elongated body with tubular walls and a central bore.
    • 用于井下通信和测量的系统和方法利用改进的金属管状物,其具有带有管状壁的细长主体和适于接纳磨合工具的中心孔。 管状件包括开槽台,以提供贯穿管状的信号传输和/或接收。 在管状内部和外部之间的液压隔离由开槽站处的压力阻挡装置提供。 传感器和/或源安装在导入工具上,该工具适用于通过钻柱传输,以与管槽相配合以与开槽工位对准。 一个入门工具配置包括一个用于与表面和/或远程井下工具进行实时无线通信的调制器。 管状和经入工具配置还包括用于无线信号数据传输的电感耦合器。 一种利用适用于多模式井下输送的可互换端部段的换入工具测量地层特性的方法。 用于密封具有管状壁和中心孔的具有细长主体的管状物的表面上的开口的方法。
    • 9. 发明授权
    • Inductively-coupled system for receiving a run-in tool
    • 用于接收运行工具的感应耦合系统
    • US06903660B2
    • 2005-06-07
    • US10355613
    • 2003-01-30
    • Brian ClarkJohn HunkaMark T. FreyDavid L. SmithDhananjay RamaswamyAnthony CollinsStephen Bonner
    • Brian ClarkJohn HunkaMark T. FreyDavid L. SmithDhananjay RamaswamyAnthony CollinsStephen Bonner
    • E21B47/01E21B47/12G01V11/00E21B23/00
    • G01V3/30E21B47/011E21B47/122G01V11/002Y10T137/0396Y10T137/0452
    • Systems and methods for downhole communication and measurement utilizing an improved metallic tubular having an elongated body with tubular walls and a central bore adapted to receive a run-in tool. The tubular including slotted stations to provide through-tubular signal transmission and/or reception. Hydraulic isolation between the interior and exterior of the tubular is provided by pressure barrier means at the slotted stations. Sensors and/or sources are mounted on the run-in tool, which is adapted for transmission through a drill string to engage within the tubular in alignment with the slotted stations. A run-in tool configuration includes a modulator for real-time wireless communication with the surface and/or remote downhole tools. A tubular and run-in tool configuration also includes inductive couplers for wireless signal data transfer. A method for measuring a formation characteristic utilizing a run-in tool adapted with an interchangeable end segment for multi-mode downhole transport. Methods for sealing an opening on the surface of a tubular having an elongated body with tubular walls and a central bore.
    • 用于井下通信和测量的系统和方法利用改进的金属管状物,其具有带有管状壁的细长主体和适于接纳磨合工具的中心孔。 管状件包括开槽台,以提供贯穿管状的信号传输和/或接收。 在管状内部和外部之间的液压隔离由开槽站处的压力阻挡装置提供。 传感器和/或源安装在导入工具上,该工具适用于通过钻柱传输,以与管槽相配合以与开槽工位对准。 一个入门工具配置包括一个用于与表面和/或远程井下工具进行实时无线通信的调制器。 管状和经入工具配置还包括用于无线信号数据传输的电感耦合器。 一种利用适用于多模式井下输送的可互换端部段的换入工具测量地层特性的方法。 用于密封具有管状壁和中心孔的具有细长主体的管状物的表面上的开口的方法。