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    • 21. 发明申请
    • TOOL AND A METHOD FOR RENOVATION OF A PIPE SYSTEM
    • 工具和管道系统的改造方法
    • US20120055574A1
    • 2012-03-08
    • US13266798
    • 2010-04-23
    • Mika Lokkinen
    • Mika Lokkinen
    • F16L55/18
    • F16L55/26B29C63/0082B29C63/34Y10T29/49428Y10T29/5168Y10T29/5199
    • The machining device is for machining the material of a pipe system that has a joint area between a pipe that has a smaller inner diameter and a pipe that has a larger inner diameter. The device has protruding parts that have been adapted to position the device inside the pipe that has the smaller diameter. A steerable actuator is adapted for removing material from the joint area and steering device for controlling the direction of the machining device in relation to the longitudinal axis of the pipe that has the smaller inner diameter while removing material from the joint area. The method is for machining material of the joint area that has a thinner and a thicker pipe.
    • 该加工装置用于加工具有内径较小的管和具有较大内径的管之间的接合区域的管道系统的材料。 该装置具有已经适于将装置定位在具有较小直径的管道内的突出部分。 可操纵的致动器适于从接合区域和转向装置中移除材料,用于控制加工装置相对于具有较小内径的管的纵向轴线的方向,同时从接合区域移除材料。 该方法用于加工具有较薄和较厚管道的接合区域的材料。
    • 22. 发明申请
    • Pipeline Inspection System
    • 管道检验系统
    • US20090244276A1
    • 2009-10-01
    • US12465713
    • 2009-05-14
    • G. Gregory PenzaGeorge LohrHermann Herrlich
    • G. Gregory PenzaGeorge LohrHermann Herrlich
    • H04N7/18
    • G01N21/88F16K7/10F16L41/06F16L55/26F16L55/30F16L55/46F16L2101/30G01N21/954
    • An inspection system configured for “no-blow” use in a pressurized gas pipeline includes a push rod wound around a spool for convenient deployment and portability. A camera disposed on one end of the push rod is configured to relay images back to a monitor. A motor is configured for remote actuation by an operator, and provides for self-propelled movement of the camera in the pipeline. An entry tube is configured for sealed entry into the pipeline to facilitate entry of the camera and push rod. A guide shoe at the end of the entry tube provides a smooth transition for the camera and push rod as it leaves the entry tube and enters the pipeline. An automatically deployable and retractable positioning system is used to keep the camera away from an interior surface of the pipeline, and in the case of smaller pipelines, centers the camera within the pipeline.
    • 在加压气体管道中使用的“无吹”的检查系统包括卷绕在卷轴上的推杆,便于展开和便携。 设置在推杆的一端的相机被配置为将图像中继回到监视器。 电动机被配置为由操作者进行远程致动,并且提供相机在管道中的自推进运动。 入口管被配置为密封进入管道以便于相机和推杆的进入。 入口管末端的导靴在摄像机和推杆离开入口管并进入管道时提供平滑过渡。 使用自动展开和可缩回的定位系统来保持相机远离管道的内表面,而在较小的管道的情况下,相机将管道居中。
    • 26. 发明申请
    • Methods for dewatering a pipeline
    • 管道脱水方法
    • US20060115332A1
    • 2006-06-01
    • US11000824
    • 2004-11-30
    • Laurence AbneySteve Arrington
    • Laurence AbneySteve Arrington
    • F16L1/12
    • F16L55/26B08B9/055F16L2101/20
    • The invention provides a method of moving a pig through pipeline, the method comprising the steps of: a) introducing the pig into the pipeline; b) causing a chemical reaction between two or more reagents to produce at least one reaction product that would be in a gaseous state at STP, wherein the reagents would be in a non-gaseous state at STP; and c) introducing the gaseous reaction product to into the pipeline. The invention also provides a method of moving a pig through a pipeline, the method comprising the steps of: a) introducing the pig into the pipeline; b) introducing into the pipeline two or more reagents capable of chemically reacting to produce at least one reaction product that would be in a gaseous state at STP, wherein the reagents would be in a non-gaseous state at STP.
    • 本发明提供了一种通过管道移动猪的方法,所述方法包括以下步骤:a)将猪引入管道; b)引起两种或多种试剂之间的化学反应以产生至少一种在STP处于气态的反应产物,其中所述试剂在STP处于非气态; 和c)将气态反应产物引入管道中。 本发明还提供了一种通过管道移动猪的方法,该方法包括以下步骤:a)将猪引入管道; b)向管道中引入两种或多种能够化学反应以在STP处产生至少一种处于气态的反应产物的试剂,其中试剂在STP处于非气态。
    • 28. 发明授权
    • Camera guide for video pipe inspection system
    • 视频管道检查系统相机指南
    • US06862945B2
    • 2005-03-08
    • US10278549
    • 2002-10-22
    • Eric ChapmanMichael E. TurgeonMark S. Olsson
    • Eric ChapmanMichael E. TurgeonMark S. Olsson
    • F16L55/26F16L55/28G01M99/00G01N21/88G01N21/954G01M19/00
    • G01N21/954F16L55/26F16L55/28G01N21/8806
    • A guide for a video pipe inspection system that includes a camera head and a tubular coil spring having a central axis. A guide member with radially extending fins is configured to surround the tubular spring. At least one pin is removably engageable with the guide member and the tubular coil spring to retain the guide member in position with respect to the tubular coil spring. The straight segments of a pair of opposing U-shaped pins can be inserted into grooves in the guide member so that they extend between adjacent coils of the tubular coil spring. In alternate form, the guide member may include an inner capture ring assembly that receives the pins. An outer yoke assembly surrounds, and is freely rotatable about, the inner capture ring assembly and includes a pair of axles for rotatably supporting a pair of wheels that engage an interior wall of the pipe.
    • 一种用于视频管道检查系统的指南,其包括具有中心轴的相机头和管状螺旋弹簧。 具有径向延伸翅片的引导构件构造成围绕管状弹簧。 至少一个销可拆卸地与引导构件和管状螺旋弹簧接合,以将引导构件相对于管状螺旋弹簧保持在适当位置。 一对相对的U形销的直线段可以插入导向件中的槽中,使得它们在管状螺旋弹簧的相邻线圈之间延伸。 在替代形式中,引导构件可以包括接收销的内部捕获环组件。 外轭组件围绕内捕获环组件包围并且可自由旋转,并且包括一对轴,用于可旋转地支撑接合管的内壁的一对轮。
    • 29. 发明申请
    • Repair of lined pipes
    • 修理内衬管道
    • US20030198519A1
    • 2003-10-23
    • US10442711
    • 2003-05-20
    • WATER CORPORATION
    • Mark Berkeley FitzhardingeStephen Reginald BrownWilliam Alan Hodgkinson
    • F16L055/16
    • F16L55/18F16L55/26
    • A method of selectively repairing the lining of a lined pipeline utilising a conveyance adapted to be receivable within and to travel through the pipeline. The conveyance consists of a plurality of vehicles comprising an inspection means, an excising means, a debris removal means and an application means. The method comprises: an identification step whereby the conveyance travels along the pipeline inspecting and locating damaged portions of the lining; an excising step whereby damaged portions of the lining identified from the inspection step are removed by the conveyance; a debris removal step whereby the conveyance travels along the pipeline to remove debris and/or water left in the pipeline by the excising step; and an application step whereby the conveyance travels along the pipeline and applies a fresh lining composition to replace the excised portions of lining removed by the excising step. The invention also relates in a conveyance for effecting the selective repair of the lining of a lined pipeline according to the method described above.
    • 使用适于可接收在内部并且通过管道行进的传送器来选择性地修复衬里管道的衬里的方法。 输送机由多个车辆组成,包括检查装置,切除装置,碎屑清除装置和施加装置。 该方法包括:识别步骤,其中所述输送沿着所述管道行进,检查并定位所述衬里的损坏部分; 切除步骤,由所述检查步骤识别的所述衬里的损坏部分通过所述输送被去除; 碎片去除步骤,其中输送沿着管道移动以通过切除步骤去除留在管道中的碎屑和/或水; 以及施加步骤,其中输送沿管道移动并施加新鲜的衬里组合物以替换由切除步骤除去的衬里的切除部分。 本发明还涉及一种用于根据上述方法进行衬里管道衬里的选择性修复的输送装置。
    • 30. 发明申请
    • Apparatus for assembling a liner
    • 用于组装衬套的装置
    • US20030151297A1
    • 2003-08-14
    • US10240880
    • 2003-01-30
    • Neil Deryck Bray Graham
    • E21D011/00
    • E02F3/9293B05D7/225B29C53/385B29C63/0086B29C63/36B32B25/10E02F3/92E02F3/9268E02F7/00E02F7/005E02F7/06E21C41/16E21D11/00E21D11/383F16L55/165F16L55/1656F16L55/26F16L55/28
    • Apparatus for assembling a liner (25) from a plurality of longitudinal sections of flexible material (161, 162) having longitudinal edges adapted to be joined one to another to form the liner. The apparatus comprises a path means along which the longitudinal sections of flexible material can be conveyed in a laterally reduced condition, an assembly zone at which the longitudinal edges can be joined together to form the liner, and a guide structure (165) about which the flexible material (161, 162) can turn upon exiting from the path means to provide an inner section (171) and an outer section (173) turned back with respect to the inner section. The guide structure (165) presents a guide, surface (167) over which the longitudinal sections (161, 162) of flexible material can pass, the surface (167) being configured to facilitate spreading of each longitudinal section (161, 162) from the laterally reduced condition.
    • 用于从柔性材料(161,162)的多个纵向部分组装衬套(25)的装置,其具有适于彼此连接以形成衬套的纵向边缘。 该装置包括一个路径装置,柔性材料的纵向部分沿该路径装置能够以横向减小的状态被输送,一个组装区域,纵向边缘可以在该组合区域连接在一起以形成衬垫;以及导向结构, 柔性材料(161,162)可以在从路径装置离开时转动,以提供相对于内部部分转回的内部部分(171)和外部部分(173)。 引导结构(165)具有引导件,表面(167),柔性材料的纵向部分(161,162)可穿过该引导件,表面(167)构造成有助于将每个纵向部分(161,162)从 横向减少的条件。