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    • 1. 发明授权
    • Down-hole mud actuated hammer
    • 井下泥浆致动锤
    • US5396965A
    • 1995-03-14
    • US299267
    • 1989-01-23
    • David R. HallDavid S. PixtonYu Xiang-Guang
    • David R. HallDavid S. PixtonYu Xiang-Guang
    • E21B4/14B25D17/14
    • E21B4/14
    • Improvements in down-hole mud actuated hammers are disclosed. According to its broadest aspect the invention is a down-hole mud actuated hammer for use in a drill string, which includes a housing with an upper end having means for connecting to the drill string. A throat is located within the housing which throat includes a main flow passage to allow high pressure drilling mud to pass therethrough. A piston is provided which is adapted to move axially within the housing means to thereby reciprocate between an up position and a down position. The piston is moved between the up and down position by a minor portion of the high pressure mud which portion passes from the main flow passage into at least one piston actuating chamber. This minor portion of mud is exhausted from the piston actuating chamber to a low pressure region out of the housing without being returned to the main flow passage.
    • 公开了井下泥浆致动锤的改进。 根据其最广泛的方面,本发明是一种用于钻柱的井下泥浆致动锤,其包括具有上端具有用于连接到钻柱的装置的壳体。 喉部位于壳体内,喉部包括主流道,以允许高压钻井泥浆通过。 提供活塞,其适于在壳体装置内轴向移动,从而在上升位置和下降位置之间往复运动。 活塞在上下位置之间移动高压泥浆的一小部分,该部分从主流动通道进入至少一个活塞致动室。 泥浆的这一小部分从活塞致动室排出到壳体外的低压区域,而不返回主流路。
    • 2. 发明授权
    • Distributed downhole drilling network
    • 分布式井下钻井网
    • US07139218B2
    • 2006-11-21
    • US10710790
    • 2004-08-03
    • David R. HallH. Tracy Hall, Jr.Joe FoxDavid S. Pixton
    • David R. HallH. Tracy Hall, Jr.Joe FoxDavid S. Pixton
    • H04H9/00
    • E21B47/12G01V1/26G01V11/002
    • A high-speed downhole network providing real-time data from downhole components of a drilling strings includes a bottom-hole node interfacing to a bottom-hole assembly located proximate the bottom end of a drill string. A top-hole node is connected proximate the top end of the drill string. One or several intermediate nodes are located along the drill string between the bottom-hole node and the top-hole node. The intermediate nodes are configured to receive and transmit data packets transmitted between the bottom-hole node and the top-hole node. A communications link, integrated into the drill string, is used to operably connect the bottom-hole node, the intermediate nodes, and the top-hole node. In selected embodiments, a personal or other computer may be connected to the top-hole node, to analyze data received from the intermediate and bottom-hole nodes.
    • 提供来自钻井井下部件的实时数据的高速井下网络包括与位于钻柱底端附近的底孔组件对接的底孔节点。 顶孔节点靠近钻柱的顶端连接。 一个或多个中间节点位于井下节点和顶孔节点之间的钻柱上。 中间节点被配置为接收和发送在底孔节点和顶孔节点之间传输的数据分组。 集成到钻柱中的通信链路用于可操作地连接底孔节点,中间节点和顶孔节点。 在所选择的实施例中,个人或其他计算机可以连接到顶层节点,以分析从中间节点和底层节点接收的数据。
    • 3. 发明授权
    • Signal connection for a downhole tool string
    • 井下工具串的信号连接
    • US07098802B2
    • 2006-08-29
    • US10315263
    • 2002-12-10
    • David R. HallH. Tracy Hall, Jr.David S. PixtonKline BradfordJoe FoxMichael Briscoe
    • David R. HallH. Tracy Hall, Jr.David S. PixtonKline BradfordJoe FoxMichael Briscoe
    • G01V3/00G08C19/16E21B47/00
    • G01V11/002
    • A signal transmission connection for a tool string used in exploration and production of natural resources, namely: oil, gas, and geothermal energy resources. The connection comprises first and second annular elements deployed in cooperative association with each other. The respective elements comprise inductive transducers that are capable of two-way signal transmission between each other, with downhole components of the tool string, and with ground-level equipment. The respective inductive transducers comprise one or more conductive loops housed within ferrite troughs, or within ferrite trough segments. When energized, the conductive loops produce a magnetic field suitable for transmitting the signal. The second element may be rotational in drilling applications. The respective elements may be fitted with electronic equipment to aid and manipulate the transmission of the signal. The first element may also be in communication with the World Wide Web.
    • 用于勘探和生产自然资源的工具串的信号传输连接,即:石油,天然气和地热能资源。 连接包括彼此配合地配置的第一和第二环形元件。 相应的元件包括感应换能器,其能够彼此之间进行双向信号传输,与工具串的井下部件以及地面级设备。 相应的感应换能器包括容纳在铁氧体槽内或铁氧体槽段内的一个或多个导电回路。 当通电时,导电环产生适于传输信号的磁场。 第二元件可以在钻井应用中旋转。 各个元件可以装配有电子设备以帮助和操纵信号的传输。 第一个元素也可以与万维网通信。
    • 4. 发明授权
    • Element for use in an inductive coupler for downhole drilling components
    • 用于井下钻井部件的电感耦合器的元件
    • US07098767B2
    • 2006-08-29
    • US10708793
    • 2004-03-25
    • David R. HallH. Tracy Hall, Jr.David S. PixtonScott DahlgrenJoe FoxCameron Sneddon
    • David R. HallH. Tracy Hall, Jr.David S. PixtonScott DahlgrenJoe FoxCameron Sneddon
    • H01F27/24
    • E21B17/028F16L15/001F16L25/01H01F38/14H01R13/533
    • The present invention includes an element for use in an inductive coupler in a downhole component. The element includes a plurality of ductile, generally U-shaped leaves that are electrically conductive. The leaves are less than about 0.0625″ thick and are separated by an electrically insulating material. These leaves are aligned so as to form a generally circular trough. The invention also includes an inductive coupler for use in downhole components, the inductive coupler including an annular housing having a recess with a magnetically conductive, electrically insulating (MCEI) element disposed in the recess. The MCEI element includes a plurality of segments where each segment further includes a plurality of ductile, generally U-shaped electrically conductive leaves. Each leaf is less than about 0.0625″ thick and separated from the otherwise adjacent leaves by electrically insulating material. The segments and leaves are aligned so as to form a generally circular trough. The inductive coupler further includes an insulated conductor disposed within the generally circular trough. A polymer fills spaces between otherwise adjacent segments, the annular housing, insulated conductor, and further fills the circular trough.
    • 本发明包括用于井下部件中的电感耦合器的元件。 元件包括导电的多个延性大体为U形的叶片。 叶子厚度小于约0.0625“,并被电绝缘材料分开。 这些叶片对准以形成大致圆形槽。 本发明还包括用于井下部件的电感耦合器,所述感应耦合器包括环形壳体,该环形壳体具有设置在所述凹部中的具有导电,电绝缘(M​​CEI)元件的凹部。 MCEI元件包括多个段,其中每个段还包括多个延性大体为U形的导电叶。 每个叶片厚度小于约0.0625“,并通过电绝缘材料与其他相邻叶片分离。 分段和叶片对准以形成大致圆形槽。 电感耦合器还包括设置在大致圆形槽内的绝缘导体。 聚合物填充其他相邻节段之间的空间,环形壳体,绝缘导体,并进一步填充圆形槽。
    • 6. 发明授权
    • Filter for a drill string
    • 过滤钻柱
    • US07303029B2
    • 2007-12-04
    • US10711596
    • 2004-09-28
    • David R. HallDavid S. PixtonMichael BriscoeJames McPherson
    • David R. HallDavid S. PixtonMichael BriscoeJames McPherson
    • E21B43/34
    • E21B21/002E21B17/003E21B47/122
    • A filter for a drill string comprises a perforated receptacle having an open end and a perforated end and first and second mounting surfaces are adjacent the open end. A transmission element is disposed within each of the first and second mounting surfaces. A capacitor may modify electrical characteristics of an LC circuit that comprises the transmission elements. The respective transmission elements are in communication with each other and with a transmission network integrated into the drill string. The transmission elements may be inductive couplers, direct electrical contacts, or optical couplers. In some embodiments of the present invention, the filter comprises an electronic component. The electronic component may be selected from the group consisting of a sensor, a router, a power source, a clock source, a repeater, and an amplifier.
    • 用于钻柱的过滤器包括具有开口端和穿孔端部的穿孔接插件,并且第一和第二安装表面邻近开口端。 传动元件设置在每个第一和第二安装表面内。 电容器可以改变包括传输元件的LC电路的电气特性。 相应的传输元件彼此通信并且与传输网络集成在钻柱中。 传输元件可以是感性耦合器,直接电触点或光耦合器。 在本发明的一些实施例中,滤波器包括电子部件。 电子部件可以选自传感器,路由器,电源,时钟源,中继器和放大器。
    • 7. 发明授权
    • Apparatus and method for compensating for clock drift in downhole drilling components
    • 用于补偿井下钻井部件中的时钟漂移的装置和方法
    • US07253671B2
    • 2007-08-07
    • US10878147
    • 2004-06-28
    • David R. HallDavid S. PixtonMonte L. JohnsonDavid B. BartholomewH. Tracy Hall, Jr.
    • David R. HallDavid S. PixtonMonte L. JohnsonDavid B. BartholomewH. Tracy Hall, Jr.
    • H03K5/01
    • H03K23/52G01V11/002H04J3/0661
    • A precise downhole clock that compensates for drift includes a prescaler configured to receive electrical pulses from an oscillator. The prescaler is configured to output a series of clock pulses. The prescaler outputs each clock pulse after counting a preloaded number of electrical pulses from the oscillator. The prescaler is operably connected to a compensator module for adjusting the number loaded into the prescaler. By adjusting the number that is loaded into the prescaler, the timing may be advanced or retarded to more accurately synchronize the clock pulses with a reference time source. The compensator module is controlled by a counter-based trigger module configured to trigger the compensator module to load a value into the prescaler. Finally, a time-base logic module is configured to calculate the drift of the downhole clock by comparing the time of the downhole clock with a reference time source.
    • 补偿漂移的精确井下时钟包括配置为从振荡器接收电脉冲的预分频器。 预分频器配置为输出一系列时钟脉冲。 在从振荡器计数预加载数量的电脉冲之后,预分频器输出每个时钟脉冲。 预分频器可操作地连接到补偿器模块,用于调节加载到预分频器中的数量。 通过调整加载到预分频器中的数字,定时可以提前或延迟,以更准确地将时钟脉冲与参考时间源同步。 补偿器模块由基于计数器的触发模块控制,配置为触发补偿器模块将值加载到预分频器中。 最后,时基逻辑模块被配置为通过将井下时钟与参考时间源进行比较来计算井下时钟的漂移。
    • 9. 发明授权
    • Apparatus and method for routing a transmission line through a downhole tool
    • 用于通过井下工具布线传输线的设备和方法
    • US07069999B2
    • 2006-07-04
    • US10708129
    • 2004-02-10
    • David R. HallH. Tracy Hall, Jr.David S. PixtonMichael BriscoeJay Reynolds
    • David R. HallH. Tracy Hall, Jr.David S. PixtonMichael BriscoeJay Reynolds
    • E21B17/02
    • E21B17/003
    • A method for routing a transmission line through a tool joint having a primary and secondary shoulder, a central bore, and a longitudinal axis, includes drilling a straight channel, at a positive, nominal angle with respect to the longitudinal axis, through the tool joint from the secondary shoulder to a point proximate the inside wall of the centtral bore. The method further includes milling back, from within the central bore, a second channel to merge with the straight channel, thereby forming a continuous channel from the secondary shoulder to the central bore. In selected embodiments, drilling is accomplished by gun-drilling the straight channel. In other embodiments, the method includes tilting the tool joint before drilling to produce the positive, nominal angle. In selected embodiments, the positive, nominal angle is less than or equal to 15 degrees.
    • 通过具有初级和次级肩部,中心孔和纵向轴线的工具接头布置传输线的方法包括以相对于纵向轴线以正的标称角度穿过工具接头钻出直通道 从次级肩部到靠近中心孔内壁的点。 该方法还包括从中心孔内回流第二通道以与直通道合并,从而形成从次级肩部到中心孔的连续通道。 在选择的实施例中,通过对钻孔直钻进行钻孔。 在其他实施例中,该方法包括在钻孔之前倾斜工具接头以产生正的标称角度。 在所选择的实施例中,正的标称角度小于或等于15度。
    • 10. 发明授权
    • Data transmission system for a downhole component
    • 井下部件数据传输系统
    • US07041908B2
    • 2006-05-09
    • US10904688
    • 2004-11-23
    • David R. HallTracy H. Hall, Jr.David S. PixtonScott Steven DahlgrenJoe FoxCameron SneddonMichael A. Briscoe
    • David R. HallTracy H. Hall, Jr.David S. PixtonScott Steven DahlgrenJoe FoxCameron SneddonMichael A. Briscoe
    • H02G15/02
    • F16L15/003E21B17/003E21B17/028E21B47/122F16L15/009H01F38/14H01F2038/143H01R9/05H01R13/523H01R13/6633H01R24/566H01R2103/00
    • The invention is a system for transmitting data through a string of downhole components. In accordance with one aspect of the invention, the system includes a plurality of downhole components, such as sections of pipe in a drill string. Each component has a first and second end, with a first communication element located at the first end and a second communication element located at the second end. Each communication element includes a first contact and a second contact. The system also includes a coaxial cable running between the first and second communication elements, the coaxial cable having a conductive tube and a conductive core within it. The system also includes a first and second connector for connecting the first and second communication elements respectively to the coaxial cable. Each connector includes a conductive sleeve, lying concentrically within the conductive tube, which fits around and makes electrical contact with the conductive core. The conductive sleeve is electrically isolated from the conductive tube. The conductive sleeve of the first connector is in electrical contact with the first contact of the first communication element, the conductive sleeve of the second connector is in electrical contact with the first contact of the second communication element, and the conductive tube is in electrical contact with both the second contact of the first communication element and the second contact of the second communication element.
    • 本发明是一种通过井下部件串发送数据的系统。 根据本发明的一个方面,该系统包括多个井下部件,例如钻柱中的管道部分。 每个部件具有第一和第二端,第一通信元件位于第一端,第二通信元件位于第二端。 每个通信元件包括第一触点和第二触点。 该系统还包括在第一和第二通信元件之间延伸的同轴电缆,该同轴电缆在其内具有导电管和导电芯。 该系统还包括用于将第一和第二通信元件分别连接到同轴电缆的第一和第二连接器。 每个连接器包括导电套筒,其同心地位于导电管内,该导电套管围绕并与导电芯线电接触。 导电套与导电管电绝缘。 第一连接器的导电套与第一连接元件的第一触点电接触,第二连接器的导电套与第二连通元件的第一触点电接触,并且导电管是电接触的 同时第一通信元件的第二接触和第二通信元件的第二接触。