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    • 4. 发明申请
    • Enhanced Wellbore Electrical Cables
    • 增强井眼电缆
    • US20100012348A1
    • 2010-01-21
    • US12554229
    • 2009-09-04
    • Joseph VarkeyByong Jun KimGarud SridharNoor SaitWayne Fulin
    • Joseph VarkeyByong Jun KimGarud SridharNoor SaitWayne Fulin
    • H01B7/18
    • H01B13/141H01B7/046H01B7/1895
    • Wellbore electrical cables according to the invention include at least one insulated conductor, at least one layer of armor wires surrounding the insulated conductor, and a polymeric material disposed in the interstitial spaces formed between armor wires and interstitial spaces formed between the armor wire layer and insulated conductor which may further include wear resistance particles or even short fibers, and the polymeric material may further form a polymeric jacket around an outer, layer of armor wires. The insulated conductor is formed from a plurality of metallic conductors encased in an insulated jacket. The invention also discloses a method of preparing a cable by extruding first layer of polymeric material upon at least one insulated conductor; serving a first layer of armor wires upon the polymeric material; softening the polymeric material to partially embed armor wires; extruding a second layer of polymeric material over the armor wires; serving a second layer outer armor wires thereupon; softening the polymeric material to partially embed the second armor wire layer; and optionally extruding a third layer of polymeric material over the outer armor wires embedded in the second layer of polymeric material. Further disclosed are methods of using the cables of the invention in seismic and wellbore operations, including logging operations.
    • 根据本发明的井眼电缆包括至少一个绝缘导体,围绕绝缘导体的至少一层铠装线,以及设置在形成于铠装线和间隙空间之间的间隙空间中的聚合材料,其形成在铠装线层和绝缘导体层之间 导体,其还可以包括耐磨性颗粒或甚至短纤维,并且聚合物材料可以进一步在外层的铠装线周围形成聚合物护套。 绝缘导体由封装在绝缘护套中的多个金属导体形成。 本发明还公开了一种通过在至少一个绝缘导体上挤出第一层聚合材料来制备电缆的方法; 在聚合物材料上施加第一层铠装线; 软化聚合物材料以部分地装入护甲线; 在铠装线上挤出第二层聚合材料; 服务第二层外装甲线; 软化聚合材料以部分地嵌入第二铠装线层; 以及任选地将第三层聚合物材料挤压在嵌入第二层聚合物材料的外部装甲线上。 进一步公开的是在地震和井眼操作中使用本发明的电缆的方法,包括测井操作。
    • 6. 发明申请
    • Enhanced Wellbore Electrical Cables
    • 增强井眼电缆
    • US20080156517A1
    • 2008-07-03
    • US11813755
    • 2006-01-12
    • Joseph VarkeyByong Jun KimGarud SridharNoor SaitWayne Fulin
    • Joseph VarkeyByong Jun KimGarud SridharNoor SaitWayne Fulin
    • H01B7/18H01B7/04
    • H01B13/141H01B7/046H01B7/1895
    • Wellbore electrical cables according to the invention include at least one insulated conductor, at least one layer of armor wires surrounding the insulated conductor, and a polymeric material disposed in the interstitial spaces formed between armor wires and interstitial spaces formed between the armor wire layer and insulated conductor which may further include wear resistance particles or even short fibers, and the polymeric material may further form a polymeric jacket around an outer, layer of armor wires. The insulated conductor is formed from a plurality of metallic conductors encased in an insulated jacket. The invention also discloses a method of preparing a cable by extruding first layer of polymeric material upon at least one insulated conductor; serving a first layer of armor wires upon the polymeric material; softening the polymeric material to partially embed armor wires; extruding a second layer of polymeric material over the armor wires; serving a second layer outer armor wires thereupon; softening the polymeric material to partially embed the second armor wire layer; and optionally extruding a third layer of polymeric material over the outer armor wires embedded in the second layer of polymeric material. Further disclosed are methods of using the cables of the invention in seismic and wellbore operations, including logging operations.
    • 根据本发明的井眼电缆包括至少一个绝缘导体,围绕绝缘导体的至少一层铠装线,以及设置在形成于铠装线和间隙空间之间的间隙空间中的聚合材料,其形成在铠装线层和绝缘导体层之间 导体,其还可以包括耐磨性颗粒或甚至短纤维,并且聚合物材料还可以围绕外层的铠装线形成聚合物护套。 绝缘导体由封装在绝缘护套中的多个金属导体形成。 本发明还公开了一种通过在至少一个绝缘导体上挤出第一层聚合材料来制备电缆的方法; 在聚合物材料上施加第一层铠装线; 软化聚合物材料以部分地装入护甲线; 在铠装线上挤出第二层聚合材料; 服务第二层外装甲线; 软化聚合材料以部分地嵌入第二铠装线层; 以及任选地将第三层聚合材料挤压在嵌入第二层聚合物材料的外部装甲线上。 进一步公开的是在地震和井眼操作中使用本发明的电缆的方法,包括测井操作。
    • 7. 发明申请
    • Enhanced electrical cables
    • 增强电缆
    • US20060151194A1
    • 2006-07-13
    • US11033698
    • 2005-01-12
    • Joseph VarkeyByong KimGarud SridharNoor SaitWayne Fulin
    • Joseph VarkeyByong KimGarud SridharNoor SaitWayne Fulin
    • H01B7/18
    • H01B13/141H01B7/046H01B7/1895
    • Wellbore electrical cables according to the invention include at least one insulated conductor, at least one layer of armor wires surrounding the insulated conductor, and a polymeric material disposed in the interstitial spaces formed between armor wires and interstitial spaces formed between the armor wire layer and insulated conductor which may further include wear resistance particles or even short fibers, and the polymeric material may further form a polymeric jacket around an outer, layer of armor wires. The insulated conductor is formed from a plurality of metallic conductors encased in an insulated jacket. The invention also discloses a method of preparing a cable by extruding first layer of polymeric material upon at least one insulated conductor; serving a first layer of armor wires upon the polymeric material; softening the polymeric material to partially embed armor wires; extruding a second layer of polymeric material over the armor wires; serving a second layer outer armor wires thereupon; softening the polymeric material to partially embed the second armor wire layer; and optionally extruding a third layer of polymeric material over the outer armor wires embedded in the second layer of polymeric material. Further disclosed are methods of using the cables of the invention in seismic and wellbore operations, including logging operations.
    • 根据本发明的井眼电缆包括至少一个绝缘导体,围绕绝缘导体的至少一层铠装线,以及设置在形成于铠装线和间隙空间之间的间隙空间中的聚合材料,其形成在铠装线层和绝缘导体层之间 导体,其还可以包括耐磨性颗粒或甚至短纤维,并且聚合物材料还可以围绕外层的铠装线形成聚合物护套。 绝缘导体由封装在绝缘护套中的多个金属导体形成。 本发明还公开了一种通过在至少一个绝缘导体上挤出第一层聚合材料来制备电缆的方法; 在聚合物材料上施加第一层铠装线; 软化聚合物材料以部分地装入护甲线; 在铠装线上挤出第二层聚合物材料; 服务第二层外装甲线; 软化聚合材料以部分地嵌入第二铠装线层; 以及任选地将第三层聚合物材料挤压在嵌入第二层聚合物材料的外部装甲线上。 进一步公开的是在地震和井眼操作中使用本发明的电缆的方法,包括测井操作。
    • 8. 发明授权
    • Enhanced electrical cables
    • 增强电缆
    • US07170007B2
    • 2007-01-30
    • US11033698
    • 2005-01-12
    • Joseph VarkeyByong KimGarud SridharNoor SaitWayne Fulin
    • Joseph VarkeyByong KimGarud SridharNoor SaitWayne Fulin
    • H01B7/18
    • H01B13/141H01B7/046H01B7/1895
    • Wellbore electrical cables according to the invention include at least one insulated conductor, at least one layer of armor wires surrounding the insulated conductor, and a polymeric material disposed in the interstitial spaces formed between armor wires and interstitial spaces formed between the armor wire layer and insulated conductor which may further include wear resistance particles or even short fibers, and the polymeric material may further form a polymeric jacket around an outer, layer of armor wires. The insulated conductor is formed from a plurality of metallic conductors encased in an insulated jacket. The invention also discloses a method of preparing a cable by extruding first layer of polymeric material upon at least one insulated conductor; serving a first layer of armor wires upon the polymeric material; softening the polymeric material to partially embed armor wires; extruding a second layer of polymeric material over the armor wires; serving a second layer outer armor wires thereupon; softening the polymeric material to partially embed the second armor wire layer; and optionally extruding a third layer of polymeric material over the outer armor wires embedded in the second layer of polymeric material. Further disclosed are methods of using the cables of the invention in seismic and wellbore operations, including logging operations.
    • 根据本发明的井眼电缆包括至少一个绝缘导体,围绕绝缘导体的至少一层铠装线,以及设置在形成于铠装线和间隙空间之间的间隙空间中的聚合材料,其形成在铠装线层和绝缘导体层之间 导体,其还可以包括耐磨性颗粒或甚至短纤维,并且聚合物材料还可以围绕外层的铠装线形成聚合物护套。 绝缘导体由封装在绝缘护套中的多个金属导体形成。 本发明还公开了一种通过在至少一个绝缘导体上挤出第一层聚合材料来制备电缆的方法; 在聚合物材料上施加第一层铠装线; 软化聚合物材料以部分地装入护甲线; 在铠装线上挤出第二层聚合材料; 服务第二层外装甲线; 软化聚合材料以部分地嵌入第二铠装线层; 以及任选地将第三层聚合物材料挤压在嵌入第二层聚合物材料的外部装甲线上。 进一步公开的是在地震和井眼操作中使用本发明的电缆的方法,包括测井操作。
    • 10. 发明授权
    • System and method for unsticking a tool stuck in a wellbore
    • 用于取消粘贴在井筒中的工具的系统和方法
    • US07661477B2
    • 2010-02-16
    • US11278294
    • 2006-03-31
    • Todor K. SheiretovMatthew BillinghamWayne Fulin
    • Todor K. SheiretovMatthew BillinghamWayne Fulin
    • E21B31/107
    • E21B31/00E21B17/1021E21B23/01
    • An unsticking assembly for releasing a tool that is stuck in a wellbore including a first anchor actuatable between an engaging position wherein the first anchor engages a wall of the wellbore and a retracted position wherein the first anchor does not engage the wall; a second anchor actuatable between an engaging position wherein the second anchor engages a wall of the wellbore and a retracted position wherein the second anchor does not engage the wall; and a control module in connection with the first and second anchor to selectively actuate each anchor between the engaged and retracted positions. The assembly is adapted for positioning in the wellbore and in connection with the tool when the tool is stuck in the wellbore. The assembly may be a stand-alone assembly that is connectable to the tool after the tool is stuck in the wellbore. The assembly may include the wellbore tool as an interconnected element.
    • 用于释放粘贴在井眼中的工具的脱模组件,所述工具包括第一锚固件,所述第一锚固件可在其中所述第一锚固件接合所述井眼的壁的接合位置与所述第一锚固件不接合所述壁的缩回位置之间起动; 第二锚固件可在接合位置之间致动,其中所述第二锚固件接合所述井筒的壁和缩回位置,其中所述第二锚固件不接合所述壁; 以及与所述第一和第二锚固件连接的控制模块,以选择性地致动所述接合位置和缩回位置之间的每个锚固件。 当工具卡在井筒中时,组件适于定位在井眼中并与工具相关联。 组件可以是在工具卡在井筒中之后可连接到工具的独立组件。 组件可以包括作为互连元件的井眼工具。