WO2022197208A1 - Device for protecting and fastening a cable to a pipe - Google Patents

Device for protecting and fastening a cable to a pipe Download PDF

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Publication number
WO2022197208A1
WO2022197208A1 PCT/RU2021/050329 RU2021050329W WO2022197208A1 WO 2022197208 A1 WO2022197208 A1 WO 2022197208A1 RU 2021050329 W RU2021050329 W RU 2021050329W WO 2022197208 A1 WO2022197208 A1 WO 2022197208A1
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Prior art keywords
cable
pipe
fastening
protecting
clamping arms
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Application number
PCT/RU2021/050329
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French (fr)
Russian (ru)
Inventor
Тимур Рустамович АКЧУРИН
Александр Владимирович ЛОБОВ
Original Assignee
Тимур Рустамович АКЧУРИН
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Publication of WO2022197208A1 publication Critical patent/WO2022197208A1/en

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Classifications

    • EFIXED CONSTRUCTIONS
    • E21EARTH OR ROCK DRILLING; MINING
    • E21BEARTH OR ROCK DRILLING; OBTAINING OIL, GAS, WATER, SOLUBLE OR MELTABLE MATERIALS OR A SLURRY OF MINERALS FROM WELLS
    • E21B17/00Drilling rods or pipes; Flexible drill strings; Kellies; Drill collars; Sucker rods; Cables; Casings; Tubings
    • E21B17/02Couplings; joints
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F16ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
    • F16LPIPES; JOINTS OR FITTINGS FOR PIPES; SUPPORTS FOR PIPES, CABLES OR PROTECTIVE TUBING; MEANS FOR THERMAL INSULATION IN GENERAL
    • F16L3/00Supports for pipes, cables or protective tubing, e.g. hangers, holders, clamps, cleats, clips, brackets
    • F16L3/22Supports for pipes, cables or protective tubing, e.g. hangers, holders, clamps, cleats, clips, brackets specially adapted for supporting a number of parallel pipes at intervals
    • F16L3/23Supports for pipes, cables or protective tubing, e.g. hangers, holders, clamps, cleats, clips, brackets specially adapted for supporting a number of parallel pipes at intervals for a bundle of pipes or a plurality of pipes placed side by side in contact with each other
    • F16L3/233Supports for pipes, cables or protective tubing, e.g. hangers, holders, clamps, cleats, clips, brackets specially adapted for supporting a number of parallel pipes at intervals for a bundle of pipes or a plurality of pipes placed side by side in contact with each other by means of a flexible band

Definitions

  • the invention relates to devices (protector and protectoliner) for fastening and protecting cable power lines used as drives for centrifugal pumps for the extraction of oil and other reservoir fluids from wells, control lines for various downhole tools, signal cables, pipelines for pumping liquid or steam or chemicals reagents, fiber optic lines, umbilicals, and is intended for use in wells to protect and fasten various cable lines in hidden columns (liners and so-called liners), as well as in wells with reduced bore diameter in the oil and gas industry.
  • the present invention relates to bolted treads and protectoliners.
  • Typical devices for protecting and fastening cable lines to pipes used in wells, equipped with bolted connections usually consist of three parts - one body and two clamps.
  • the body and clamps are connected to each other on the one hand by means of a hinge, and on the other hand by means of a detachable bolted connection.
  • the protectors are installed on the outer surface of the pipes so that the pipe couplings are located inside the protector body, limiting the protector's movement along the pipe, and the cable lines are placed in the slot of the protector body between the protector body and the sleeve, while protecting and holding one or more types of cable on the surface of the pipe.
  • the protectors are attached to the pipe with clamps on opposite sides of the coupling using bolted connections.
  • the bolt nuts are usually inserted from the outside and are located inside the protector body, and the bolt heads are in the protector collars (see patent US9512685 B2).
  • a device for attaching a power cable to tubing containing a cast housing with a longitudinal groove for laying the electric motor power cable, windows for fixing the device on the lower and upper ends of the coupling, made at a height not less than the height of the coupling, and ties connecting the upper and lower parts of the housing, which are equipped with corresponding top and bottom covers, each of which is hinged and has a screw for fastening to the corresponding threaded hole of the upper and lower parts of the body, and the ratio of the height of the window and the width of the cover exceeds 2:1 (RF patent N ° 2108439, IPC E21B 17/00, published 04/10/1998).
  • the disadvantage of this device is low reliability due to the possibility of destruction of the attachment points of the covers and screws due to the contact of the device elements with the walls and joints of the production pipes during tripping operations.
  • the disadvantage of the device is also a large cross-section, which leads to obstruction in the well during tripping operations, reduces the free section of the well and makes it difficult to flow downhole fluid.
  • a protector designed for use in deep-well pumping rod installations when extracting oil from a well with a significant curvature of the wellbore consisting of a body made of two parts with internal diametrically opposite grooves on one side of each part of the body, while the parts of the body are installed with a gap and the possibility of radial movement one relative to the other, and on the other sides of each of the body parts, shanks are made, which are placed in the grooves of the body (RF patent 2026952, IPC E21B 17/00, published on 01/20/1995).
  • the disadvantages of the known protector are the large size, which does not allow the assembly of pipes with cables to pass through curved sections of the wellbore with a high intensity of curvature, which leads to tightening and sticking of the tool in the well.
  • Closest to the patent-pending solution is a device for protecting and fastening cables to pipes. It is applied to various pipes, including such as liners - secret columns, liners.
  • the device for protecting and fastening cables to pipes consists of 3 parts, a body and 2 clamping levers (US application N° 2018/0355679 A1, IPC E21B 17/10, published on 12/13/2018).
  • the disadvantage of the known device is the low reliability of the design during operation due to the fact that the clamping levers that are closed to the body are not connected to each other, but are separate parts of other clamping levers or the body, and the large size due to the external location of the nut in the body and increased the gap between the bolted connection and the pipe, which also increases the likelihood of getting stuck in the well and equipment failure, and also makes it difficult for the well fluid to flow.
  • the technical result of the invention is to reduce the outer dimension of the protectoliner and increase the fit of the assembly (protectoliner mounted on a pipe with cable lines) into a deviated wellbore, into wells with a reduced bore diameter and into liners, as well as increase the reliability of the device to protect against damage to the elements of the device.
  • the proposed device for protecting and fastening the cable to the pipe which contains a bar connected to the housing with a slot for the cable by means of collars with a ledge located at the edges of the side walls of the housing, one end of which is hinged to the side wall of the housing , and the other end is pivotally connected to the specified bar, while the bar includes connecting loops with protrusions that fit with the mating part of the body, and the other end of the bar contains grooves with retaining protrusions for installing the nut, while the clamps are made with recesses corresponding to the specified reciprocal protrusions on mating parts.
  • grooves with protrusions holding the nut can be made on two opposite sides of the bar.
  • the slot, strap and clamps are made with end constrictions directed to the pipe surface at an angle of 10° to 30° relative to the pipe axis to reduce shock loads during the passage of ledges inside the well.
  • figures 1 - General view of the protectoliner in figures 2 and 3 - a view of the open device with a union nut, when the bolts are fixed in the body, and the nut is thrown into the bar when closing; in figures 8 and 9 - a view of the opened device with cap bolts, when the nut is fixed in the bar, and the bolts are thrown into the body when closing; in figures 4 and 10 - a view of a device put on a pipe with a loose housing with a slot; in figures 5,6,11,12 - protectoliner assembly on a pipe with a cable; in figures 7 and 13 - the minimum clearance between the bolted nut and the pipe.
  • the device for protecting and fastening the cable 12 to the pipes includes a bar 1, two clamps 3, a body 2 with a slot for the cable.
  • the strap 1 with the body 2 are connected by means of a union threaded connections 4 containing a bolt 14 and nuts 15 or 16 (figures 2 and 8).
  • Threaded connection 4 is made either as in option 1:
  • the bolts 14 are threaded into the holes in the housing 2, which contains a slot for the cable, and are secured against falling out with nuts 16 (figures 2 and 3). Nuts 16 when putting the device on the pipe 10 with the coupling 11 are thrown into the grooves 7 specially provided for them in the bar (figures 2, 4 and 5). In this case, the nuts 16 are installed in such a way that they are combined with the mating part of the bar 1 (figures 2 and 7)
  • Round nuts 15 are inserted into the grooves 7 in the bar 1 from the inside and secured against falling out with bolts 14 (figures 8 and 9).
  • the bolts 14, when putting the device on the pipe 10 with the coupling 11, are thrown into the places specially designated for them (recesses) 17 in the body 2 (figures 8, 10, 11).
  • the end narrowing 5 of the body 2, straps 1 and clamps 3 is made with an angle equal to 10-30°, which is sufficient to enter the liner (figures 8 and 11). Due to the implementation of the end constriction 5 with an angle of 10° to 30° relative to the axis of the body pipe 2 with a slot, strip 1 and clamps 3 in the range from 10° to 30°, the engagement of the device during tripping operations in the well is excluded, which increases the reliability of the design .
  • the interface of the strap 1 and the mating part of the body 2 with a cable slot is made with a protrusion 6 at an angle of 30° to 90° from the axis of the body to prevent the passage of flow through the body of the bolts 14 (figures 2, 5, 8 and 11).
  • the protrusion 6 covers the body of the bolts from the ends of the device.
  • the plank forms an additional connection between the tool joints, which eliminates the rupture of the protectoliner in the well due to jamming.
  • Clamps 3 are placed along the edges of the housing 2 with a slot, and one end of the clamps 3 is hinged on the side wall of the housing 2 by means of hinged loops 8, and the other end of the clamps 3 is also connected to the bar 1 by means of hinged loops 8, while the loops 8 have a continuation in the form protrusion 9 (figures 3, 5, 6, 9, 11, 12), which comes on the pipe and increases the reliability of the entire structure due to additional rigidity, because with the help of it, the strap 1 and the clamps 3 form an additional cross-link between themselves and prevent the device from falling off the pipe in the following way.
  • protrusion 9 figures 3, 5, 6, 9, 11, 12
  • the protectoliner is put on the pipe 10 due to the coverage of the strap 1 and the clamps 3 on top and bottom of the coupling 11 of the pipe 10, when closed on the pipe 10, a wrapping angle 13 of more than 200 degrees is formed (figures 4,10), which prevents the device from falling off the pipe arbitrarily .
  • the bar 1 cannot spontaneously open due to the protrusion 9 on the clamps 3.
  • the device is securely fixed on the pipe.
  • a groove 7 is made in the plank, in which a nut 15 or 16 is located (figures 2 and 8).
  • the placement of the nut 15 or 16 in the bar 1 reduces the overall overall diameter of the device, making the gap between the fastening of the threaded connection 4 with the nut 15 or 16 and the pipe 10 on which the protectoliner is installed (figures 7 and 13) minimal.
  • the threaded connection 4 fits snugly to the pipe 10 due to the minimum distance between the nut 15 or 16 and the pipe 10 (figures 7 and 13), which increases the reliability of the design.

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  • Engineering & Computer Science (AREA)
  • General Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Geology (AREA)
  • Mining & Mineral Resources (AREA)
  • Physics & Mathematics (AREA)
  • Environmental & Geological Engineering (AREA)
  • Fluid Mechanics (AREA)
  • General Life Sciences & Earth Sciences (AREA)
  • Geochemistry & Mineralogy (AREA)
  • Laying Of Electric Cables Or Lines Outside (AREA)

Abstract

The invention relates to devices for fastening and protecting power cables. The technical result of the invention is that of reducing the external dimensions of a protective liner and increasing the ability of the arrangement to fit into a crooked wellbore, as well as increasing the robustness of the device in order to protect the elements of the device against damage. A device for protecting and fastening a cable to a pipe comprises a link that is connected to a body having a slot for a cable by means of clamping arms so that a protrusion is formed, said clamping arms being arranged along the edges of the lateral walls of the body, with one end of the clamping arms being hingedly fastened to a lateral wall of the body. The other end of the clamping arms is hingedly connected to the link. The link comprises connecting hinges with protrusions which mate with a corresponding part of the body, and the other end of the link contains a groove with retaining protrusions for receiving a nut. The clamping arms have recesses that correspond to said mating protrusions on the adjoining parts.

Description

УСТРОЙСТВО ДЛЯ ЗАЩИТЫ И КРЕПЛЕНИЯ КАБЕЛЯ К ТРУБАМ DEVICE FOR PROTECTION AND FASTENING OF CABLE TO PIPES
Изобретение относится к устройствам (протектор и протектолайнер) для крепления и защиты кабельных линий питания, используемых в качестве приводов центробежных насосов для добычи нефти и других пластовых жидкостей из скважин, линий управления различными скважинными инструментами, сигнальных кабелей, трубопроводов для закачки жидкости или пара или химических реагентов, волоконно- оптических линий, шлангокабелей, и предназначено для использования в скважинах для защиты и крепления различных кабельных линий в потайных колоннах (хвостовиках и так называемых лайнерах), а также в скважинах с уменьшенным проходным диаметром в нефтяной и газовой промышленности. The invention relates to devices (protector and protectoliner) for fastening and protecting cable power lines used as drives for centrifugal pumps for the extraction of oil and other reservoir fluids from wells, control lines for various downhole tools, signal cables, pipelines for pumping liquid or steam or chemicals reagents, fiber optic lines, umbilicals, and is intended for use in wells to protect and fasten various cable lines in hidden columns (liners and so-called liners), as well as in wells with reduced bore diameter in the oil and gas industry.
По мере истощения запасов углеводородов у поверхности земли увеличиваются длины скважин по стволу, массово применяются компоновки скважин, оснащенные потайными колоннами (лайнерами) с уменьшенным проходным диаметром. Усложняется погружное оборудование, увеличивается количество внутрискважинного погружного оборудования, управляемого кабельными линиями. Все это приводит к тому, что ударные и вибрационные нагрузки на устройства защиты кабельных линий также увеличиваются, а уменьшаемые проходные диаметры скважин требуют уменьшения наружных габаритов всех типов защитных устройств и использования протектолайнеров - протекторов с уменьшенным габаритом и адаптированным к нагрузкам дизайном. With the depletion of hydrocarbon reserves near the surface of the earth, the length of wells along the wellbore increases, well layouts equipped with hidden columns (liners) with a reduced bore diameter are widely used. Submersible equipment is becoming more complex, the number of downhole submersible equipment controlled by cable lines is increasing. All this leads to the fact that shock and vibration loads on cable line protection devices also increase, and reduced borehole diameters require a reduction in the outer dimensions of all types of protective devices and the use of protectoliners - protectors with a reduced size and a design adapted to the loads.
Устройства (протекторы и протектолайнеры) бывают клиновые US4615543A, на пружинных защелках RU16012U1 или US2417269A и оснащенные болтовыми соединениями WO1994011609А1. Devices (protectors and protectoliners) are wedge type US4615543A, on spring latches RU16012U1 or US2417269A and equipped with bolted connections WO1994011609A1.
Данное изобретение относится к протекторам и протектолайнерам, оснащенным болтовыми соединениями. The present invention relates to bolted treads and protectoliners.
Типичные устройства для защиты и крепления кабельных линий к трубам, используемых в скважинах, оснащенные болтовыми соединениями, обычно состоят из трех частей - одного корпуса и двух хомутов. Корпус и хомуты соединены между собой с одной стороны посредством шарнира, а с другой посредством разъемного болтового соединения. Протекторы устанавливаются на наружную поверхность труб так, что муфты труб располагаются внутри корпуса протектора, ограничивая перемещение протектора вдоль трубы, а кабельные линии помещаются в слот корпуса протектора между корпусом протектора и муфтой, одновременно защищая и удерживая один или насколько типов кабеля на поверхности трубы. Протекторы крепятся на трубе хомутами с противоположных сторон муфты с помощью болтовых соединений. Гайки болтовых соединений обычно вставляются с наружной стороны и располагаются внутри корпуса протектора, а головки болтов в хомутах протектора (см. патент US9512685 В2). Typical devices for protecting and fastening cable lines to pipes used in wells, equipped with bolted connections, usually consist of three parts - one body and two clamps. The body and clamps are connected to each other on the one hand by means of a hinge, and on the other hand by means of a detachable bolted connection. The protectors are installed on the outer surface of the pipes so that the pipe couplings are located inside the protector body, limiting the protector's movement along the pipe, and the cable lines are placed in the slot of the protector body between the protector body and the sleeve, while protecting and holding one or more types of cable on the surface of the pipe. The protectors are attached to the pipe with clamps on opposite sides of the coupling using bolted connections. The bolt nuts are usually inserted from the outside and are located inside the protector body, and the bolt heads are in the protector collars (see patent US9512685 B2).
Известно устройство для крепления силового кабеля к насосно-компрессорным трубам, содержащее цельнолитой корпус с продольным пазом для укладки кабеля питания электродвигателя, окна для фиксации устройства на нижнем и верхнем торцах муфты, выполненные на высоте не менее высоты муфты, и стяжки, соединяющие верхнюю и нижнюю части корпуса, которые снабжены соответствующими верхней и нижней крышками, каждая из которых укреплена на шарнире и имеет винт для крепления к соответствующему резьбовому отверстию верхней и нижней частей корпуса, причем соотношение высоты окна и ширины крышки превышает 2:1 (патент РФ N°2108439, МПК Е21В 17/00, опубликован 10.04.1998 г.). A device for attaching a power cable to tubing is known, containing a cast housing with a longitudinal groove for laying the electric motor power cable, windows for fixing the device on the lower and upper ends of the coupling, made at a height not less than the height of the coupling, and ties connecting the upper and lower parts of the housing, which are equipped with corresponding top and bottom covers, each of which is hinged and has a screw for fastening to the corresponding threaded hole of the upper and lower parts of the body, and the ratio of the height of the window and the width of the cover exceeds 2:1 (RF patent N ° 2108439, IPC E21B 17/00, published 04/10/1998).
Недостатком данного устройства является низкая надежность из-за возможности разрушения узлов крепления крышек и винтов вследствие контакта элементов устройства со стенками и стыками эксплуатационных труб при спуско-подъемных операциях. Недостатком устройства также является большое поперечное сечение, что приводит к непроходимости в скважину при спуско-подъемных операциях, уменьшает свободное сечение скважины и затрудняет переток скважинной жидкости. The disadvantage of this device is low reliability due to the possibility of destruction of the attachment points of the covers and screws due to the contact of the device elements with the walls and joints of the production pipes during tripping operations. The disadvantage of the device is also a large cross-section, which leads to obstruction in the well during tripping operations, reduces the free section of the well and makes it difficult to flow downhole fluid.
Также известен протектор, предназначенный для использования в глубинно- насосных штанговых установках при добыче нефти из скважины со значительным искривлением ствола, состоящий из корпуса, выполненного из двух частей с внутренними диаметрально противоположными проточками с одной стороны каждой части корпуса, при этом части корпуса установлены с зазором и возможностью радиального перемещения одна относительно другой, а на других сторонах каждой из частей корпуса выполнены хвостовики, которые размещены в проточках корпуса (патент РФ 2026952, МПК Е21В 17/00, опубликован 20.01.1995 г.). Also known is a protector designed for use in deep-well pumping rod installations when extracting oil from a well with a significant curvature of the wellbore, consisting of a body made of two parts with internal diametrically opposite grooves on one side of each part of the body, while the parts of the body are installed with a gap and the possibility of radial movement one relative to the other, and on the other sides of each of the body parts, shanks are made, which are placed in the grooves of the body (RF patent 2026952, IPC E21B 17/00, published on 01/20/1995).
Недостатками известного протектора являются большой габарит, что не позволяет компоновки труб с кабелями проходить через искривленные участки ствола скважины с высокой интенсивностью искривления, что приводит к затяжкам и прихватам инструмента в скважине. Наиболее близким к патентуемому решению является устройство для защиты и крепления кабеля к трубам. Применяется для различных труб, в том числе таких как лайнеры - потайные колонны, хвостовики. Устройство для защиты и крепления кабеля к трубам состоит из 3-х частей, корпуса и 2-х зажимных рычагов (заявка США N° 2018/0355679 А1, МПК Е21В 17/10, опубликован 13.12.2018 г.). The disadvantages of the known protector are the large size, which does not allow the assembly of pipes with cables to pass through curved sections of the wellbore with a high intensity of curvature, which leads to tightening and sticking of the tool in the well. Closest to the patent-pending solution is a device for protecting and fastening cables to pipes. It is applied to various pipes, including such as liners - secret columns, liners. The device for protecting and fastening cables to pipes consists of 3 parts, a body and 2 clamping levers (US application N° 2018/0355679 A1, IPC E21B 17/10, published on 12/13/2018).
Недостатком известного устройства является низкая надежность конструкции во время эксплуатации из-за того, что зажимные рычаги, которые смыкаются с корпусом, не соединены между собой, а являются отдельными частями других зажимных рычагов или корпуса, и большой габарит вследствие наружного расположения гайки в корпусе и увеличенного зазора между болтовым соединением и трубой, что также увеличивает вероятность застревания в скважине и поломку оборудования, а также затрудняет переток скважинной жидкости. The disadvantage of the known device is the low reliability of the design during operation due to the fact that the clamping levers that are closed to the body are not connected to each other, but are separate parts of other clamping levers or the body, and the large size due to the external location of the nut in the body and increased the gap between the bolted connection and the pipe, which also increases the likelihood of getting stuck in the well and equipment failure, and also makes it difficult for the well fluid to flow.
Техническим результатом предлагаемого изобретения является уменьшение наружного габарита протектолайнера и повышение вписываемости компоновки (протектолайнер, смонтированный на трубе с кабельными линиями) в искривленный ствол скважины, в скважины с уменьшенным проходным диаметром и в лайнеры, а также повышение надежности устройства для защиты от повреждений элементов устройства. The technical result of the invention is to reduce the outer dimension of the protectoliner and increase the fit of the assembly (protectoliner mounted on a pipe with cable lines) into a deviated wellbore, into wells with a reduced bore diameter and into liners, as well as increase the reliability of the device to protect against damage to the elements of the device.
Технический результат достигается предлагаемым устройством для защиты и крепления кабеля к трубе (протектолайнером), которое содержит планку, соединенную с корпусом, имеющим слот для кабеля, посредством хомутов с выступом, расположенных по краям боковых стенок корпуса, один конец которых шарнирно закреплен на боковой стенке корпуса, а другой конец шарнирно соединен с указанной планкой, при этом планка включает соединительные петли с выступами, которые стыкуются с ответной частью корпуса, а другой конец планки содержит пазы с удерживающими выступами для установки гайки, при этом хомуты выполнены с выемками, соответствующими указанным ответным выступам на сопрягающихся частях. The technical result is achieved by the proposed device for protecting and fastening the cable to the pipe (protectoliner), which contains a bar connected to the housing with a slot for the cable by means of collars with a ledge located at the edges of the side walls of the housing, one end of which is hinged to the side wall of the housing , and the other end is pivotally connected to the specified bar, while the bar includes connecting loops with protrusions that fit with the mating part of the body, and the other end of the bar contains grooves with retaining protrusions for installing the nut, while the clamps are made with recesses corresponding to the specified reciprocal protrusions on mating parts.
Уменьшение наружного диаметра протектолайнера и, как следствие, вписываемость компоновки в искривленный ствол скважины достигается за счет уменьшенного габарита протектолайнера. Уменьшение габарита протектолайнера достигается, в свою очередь, за счет того, что болтовые соединения расположены скрытно в планке и таким образом, что зазор между гайками резьбовых соединений и трубой, на которую надевается протектолайнер, минимален или полностью отсутствует. Reducing the outer diameter of the protectoliner and, as a result, the fit of the assembly into a deviated wellbore is achieved due to the reduced size of the protectoliner. Reducing the size of the protectoliner is achieved, in turn, due to the fact that the bolted connections are located discreetly in the bar and in such a way that the gap between the nuts of the threaded connections and the pipe on which the protectoliner is put on is minimal or completely absent.
С двух противоположных сторон планки могут быть выполнены пазы с удерживающими гайку выступами. Слот, планка и хомуты выполнены с концевыми сужениями, направленными к поверхности трубы с углом от 10° до 30° относительно оси трубы, для снижения ударных нагрузок во время прохождения выступов внутри скважины. On two opposite sides of the bar, grooves with protrusions holding the nut can be made. The slot, strap and clamps are made with end constrictions directed to the pipe surface at an angle of 10° to 30° relative to the pipe axis to reduce shock loads during the passage of ledges inside the well.
Далее патентуемое решение иллюстрируется фигурами, на которых изображено следующее: на фигуре 1 - общий вид протектолайнера; на фигурах 2 и 3 - вид раскрытого устройства с накидной гайкой, когда болты закреплены в корпусе, а гайка накидывается в планку при закрытии; на фигурах 8 и 9 - вид раскрытого устройства с накидными болтами, когда гайка закреплена в планке, а болты накидываются в корпус при закрытии; на фигурах 4 и 10 - вид надетого на трубу устройства с незакрепленным корпусом со слотом; на фигурах 5,6,11,12 - протектолайнер в сборе на трубе с кабелем; на фигурах 7 и 13 - минимальный зазор между гайкой болтового соединения и трубой. Further, the patentable solution is illustrated by figures, which show the following: figure 1 - General view of the protectoliner; in figures 2 and 3 - a view of the open device with a union nut, when the bolts are fixed in the body, and the nut is thrown into the bar when closing; in figures 8 and 9 - a view of the opened device with cap bolts, when the nut is fixed in the bar, and the bolts are thrown into the body when closing; in figures 4 and 10 - a view of a device put on a pipe with a loose housing with a slot; in figures 5,6,11,12 - protectoliner assembly on a pipe with a cable; in figures 7 and 13 - the minimum clearance between the bolted nut and the pipe.
Устройство для защиты и крепления кабеля 12 к трубам включает в себя планку 1, два хомута 3, корпус 2 со слотом для кабеля. Планка 1 с корпусом 2 соединяются посредством накидных резьбовых соединений 4, содержащих болт 14 и гайки 15 или 16 (фигуры 2 и 8). The device for protecting and fastening the cable 12 to the pipes includes a bar 1, two clamps 3, a body 2 with a slot for the cable. The strap 1 with the body 2 are connected by means of a union threaded connections 4 containing a bolt 14 and nuts 15 or 16 (figures 2 and 8).
Резьбовое соединение 4 выполнено либо как по варианту 1 : Threaded connection 4 is made either as in option 1:
1. Болты 14 продеты в отверстия в корпусе 2, содержащем слот для кабеля, и закреплены от выпадения гайками 16 (фигура 2 и 3). Гайки 16 при надевании устройства на трубу 10 с муфтой 11 накидываются в специально отведенные под них пазы 7 в планке (фигуры 2, 4 и 5). При этом гайки 16 устанавливаются так, что совмещаются с ответной частью планки 1 (фигуры 2 и 7) 1. The bolts 14 are threaded into the holes in the housing 2, which contains a slot for the cable, and are secured against falling out with nuts 16 (figures 2 and 3). Nuts 16 when putting the device on the pipe 10 with the coupling 11 are thrown into the grooves 7 specially provided for them in the bar (figures 2, 4 and 5). In this case, the nuts 16 are installed in such a way that they are combined with the mating part of the bar 1 (figures 2 and 7)
Либо как по варианту 2 : 2. Круглые гайки 15 (типа burrel nut) вставлены в пазы 7 в планке 1 с внутренней стороны и закреплены от выпадения болтами 14 (фигура 8 и 9). Болты 14 при надевании устройства на трубу 10 с муфтой 11 накидываются в специально отведенные под них места (выемки) 17 в корпусе 2 (фигуры 8, 10, 11). Or as per option 2: 2. Round nuts 15 (type burrel nut) are inserted into the grooves 7 in the bar 1 from the inside and secured against falling out with bolts 14 (figures 8 and 9). The bolts 14, when putting the device on the pipe 10 with the coupling 11, are thrown into the places specially designated for them (recesses) 17 in the body 2 (figures 8, 10, 11).
Концевые сужения 5 корпуса 2, планки 1 и хомутов 3 выполнены с углом равным 10-30°, что достаточно для входа в лайнер (фигуры 8 и 11). За счет выполнения концевых сужений 5 с углом от 10° до 30° относительно оси трубы корпуса 2 со слотом, планки 1 и хомутов 3 в пределах от 10° до 30° исключается зацепление устройства при спуско- подъемных операциях в скважине, что повышает надежность конструкции. The end narrowing 5 of the body 2, straps 1 and clamps 3 is made with an angle equal to 10-30°, which is sufficient to enter the liner (figures 8 and 11). Due to the implementation of the end constriction 5 with an angle of 10° to 30° relative to the axis of the body pipe 2 with a slot, strip 1 and clamps 3 in the range from 10° to 30°, the engagement of the device during tripping operations in the well is excluded, which increases the reliability of the design .
Для защиты от эрозии (исключение повреждений) резьбовых соединений 4, возникающей из-за высокой скорости потока вследствие малого пространства кольцевого зазора, поверхности стыка планки 1 и ответной части корпуса 2 со слотом под кабель выполнены с выступом 6 под углом от 30° до 90° от оси корпуса для обеспечения исключения прохождения потока через тело болтов 14 (фигуры 2, 5, 8 и 11). Выступ 6 закрывает тело болтов с торцов устройства. Планка образует дополнительную связь между собой замковых соединений, что исключает разрыв протектолайнера в скважине вследствие заклинивания. To protect against erosion (exclusion of damage) of threaded connections 4, which occurs due to the high flow rate due to the small space of the annular gap, the interface of the strap 1 and the mating part of the body 2 with a cable slot is made with a protrusion 6 at an angle of 30° to 90° from the axis of the body to prevent the passage of flow through the body of the bolts 14 (figures 2, 5, 8 and 11). The protrusion 6 covers the body of the bolts from the ends of the device. The plank forms an additional connection between the tool joints, which eliminates the rupture of the protectoliner in the well due to jamming.
Хомуты 3 размещены по краям корпуса 2 со слотом, причем один конец хомутов 3 шарнирно закреплен на боковой стенке корпуса 2 посредством шарнирных петель 8, а другой конец хомутов 3 также соединен с планкой 1 посредством шарнирных петель 8, при этом петли 8 имеют продолжение в виде выступа 9 (фигуры 3, 5, 6, 9, 11, 12), который заходит на трубу и повышает надежность всей конструкции за счет дополнительной жесткости, т.к. с помощью него планка 1 и хомуты 3 образуют между собой дополнительную поперечную связь и препятствуют произвольному спаданию устройства с трубы следующим образом. Clamps 3 are placed along the edges of the housing 2 with a slot, and one end of the clamps 3 is hinged on the side wall of the housing 2 by means of hinged loops 8, and the other end of the clamps 3 is also connected to the bar 1 by means of hinged loops 8, while the loops 8 have a continuation in the form protrusion 9 (figures 3, 5, 6, 9, 11, 12), which comes on the pipe and increases the reliability of the entire structure due to additional rigidity, because with the help of it, the strap 1 and the clamps 3 form an additional cross-link between themselves and prevent the device from falling off the pipe in the following way.
Во время монтажа протектолайнер надевается на трубу 10 за счет охвата планки 1 и хомутов 3 сверху и снизу муфты 11 трубы 10, при закрытии которых на трубе 10 образуется угол охвата 13 более 200 градусов (фигуры 4,10), препятствующий произвольному спаданию устройства с трубы. При этом планка 1 не может самопроизвольно открыться за счет выступа 9 на хомутах 3. Таким образом, устройство надежно фиксируется на трубе. После этого можно заправить кабель 12 в защитный слот корпуса 2 и застегнуть устройство, прижав слот корпуса 2 к трубе 10 с кабелем 12 и накинув резьбовые соединения 4 в пазы 7, расположенные в планке 1 (фигура 2 и 4) или в выемки 17, расположенные в корпусе 2 со слотом (фигура 8 и 10). During installation, the protectoliner is put on the pipe 10 due to the coverage of the strap 1 and the clamps 3 on top and bottom of the coupling 11 of the pipe 10, when closed on the pipe 10, a wrapping angle 13 of more than 200 degrees is formed (figures 4,10), which prevents the device from falling off the pipe arbitrarily . In this case, the bar 1 cannot spontaneously open due to the protrusion 9 on the clamps 3. Thus, the device is securely fixed on the pipe. After that, you can thread the cable 12 into the protective slot of the housing 2 and fasten the device by pressing the slot of the housing 2 against the pipe 10 with the cable 12 and throwing the threaded connections 4 into the grooves 7 located in the bar 1 (figures 2 and 4) or into the recesses 17 located in the housing 2 with a slot (figures 8 and 10).
Для уменьшения наружного диаметра и габарита протектолайнера в планке сделан паз 7, в котором расположена гайка 15 или 16 (фигуры 2 и 8). Размещение гайки 15 или 16 в планке 1 позволяет уменьшить общий габаритный диаметр устройства, сделав минимальным зазор между креплением резьбового соединения 4 с гайкой 15 или 16 и трубой 10, на которую устанавливается протектолайнер (фигуры 7 и 13). Резьбовое соединение 4 плотно прилегает к трубе 10 за счет минимального расстояния между гайкой 15 или 16 и трубой 10 (фигуры 7 и 13), что повышает надежность конструкции. To reduce the outer diameter and size of the protectoliner, a groove 7 is made in the plank, in which a nut 15 or 16 is located (figures 2 and 8). The placement of the nut 15 or 16 in the bar 1 reduces the overall overall diameter of the device, making the gap between the fastening of the threaded connection 4 with the nut 15 or 16 and the pipe 10 on which the protectoliner is installed (figures 7 and 13) minimal. The threaded connection 4 fits snugly to the pipe 10 due to the minimum distance between the nut 15 or 16 and the pipe 10 (figures 7 and 13), which increases the reliability of the design.
Установка гайки 15 или 16 внутри планки 1 дает гладкую поверхность снаружи (фиг.1), что исключает зацепление устройства при спуско-подъемных операциях в скважине, т.е. повышает надежность конструкции. Installing the nut 15 or 16 inside the strap 1 gives a smooth surface on the outside (figure 1), which eliminates the engagement of the device during tripping operations in the well, i.e. increases the reliability of the design.

Claims

ФОРМУЛА ИЗОБРЕТЕНИЯ CLAIM
1. Устройство для защиты и крепления кабеля к трубе, характеризующееся тем, что содержит планку, соединенную с корпусом, имеющим слот для кабеля, посредством хомутов с выступом, расположенных по краям боковых стенок корпуса, один конец которых шарнирно закреплен на боковой стенке корпуса, а другой - шарнирно соединен с указанной планкой, при этом планка включает соединительные петли с выступами, которые стыкуются с ответной частью корпуса, а другой конец планки содержит пазы с удерживающими выступами для установки гайки, при этом хомуты выполнены с выемками, соответствующими указанным ответным выступам на сопрягающихся частях. 1. A device for protecting and fastening a cable to a pipe, characterized in that it contains a bar connected to a housing having a slot for a cable by means of collars with a ledge located along the edges of the side walls of the housing, one end of which is pivotally fixed to the side wall of the housing, and the other end is pivotally connected to the specified bar, while the bar includes connecting loops with protrusions that are joined to the mating part of the body, and the other end of the bar contains grooves with retaining protrusions for installing the nut, while the clamps are made with recesses corresponding to the specified reciprocal protrusions on the mating parts.
2. Устройство для защиты и крепления кабеля к трубе по п.1, характеризующееся тем, что слот, планка и хомуты выполнены с концевыми сужениями от 10° до 30°. 2. A device for protecting and fastening a cable to a pipe according to claim 1, characterized in that the slot, strap and clamps are made with end constrictions from 10° to 30°.
PCT/RU2021/050329 2021-03-17 2021-10-07 Device for protecting and fastening a cable to a pipe WO2022197208A1 (en)

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US11811206B1 (en) * 2022-09-09 2023-11-07 Forum Us, Inc. Cable protector assemblies and related methods and systems

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RU2266385C1 (en) * 2004-07-01 2005-12-20 Общество с ограниченной ответственностью "Пэтриотс Ойл" Device for power cable connection to tubing string
RU2388897C1 (en) * 2009-02-02 2010-05-10 Открытое акционерное общество "Павловский машзавод" Device for fixation of cable to flow string
RU94621U1 (en) * 2010-01-28 2010-05-27 Тимур Рустамович Акчурин PROTECTOR FOR PROTECTING A POWER CABLE IN A WELL AND FASTENING
RU2591855C1 (en) * 2015-04-27 2016-07-20 Виктор Николаевич Новоселов Universal device for protection of power extension cable in well
US20180355679A1 (en) * 2015-06-09 2018-12-13 Completion Products Limited Clamp Device and Method of Applying a Clamp
GB2573026A (en) * 2018-04-19 2019-10-23 Slingco Ltd Cable protection system

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Publication number Priority date Publication date Assignee Title
RU2266385C1 (en) * 2004-07-01 2005-12-20 Общество с ограниченной ответственностью "Пэтриотс Ойл" Device for power cable connection to tubing string
RU2388897C1 (en) * 2009-02-02 2010-05-10 Открытое акционерное общество "Павловский машзавод" Device for fixation of cable to flow string
RU94621U1 (en) * 2010-01-28 2010-05-27 Тимур Рустамович Акчурин PROTECTOR FOR PROTECTING A POWER CABLE IN A WELL AND FASTENING
RU2591855C1 (en) * 2015-04-27 2016-07-20 Виктор Николаевич Новоселов Universal device for protection of power extension cable in well
US20180355679A1 (en) * 2015-06-09 2018-12-13 Completion Products Limited Clamp Device and Method of Applying a Clamp
GB2573026A (en) * 2018-04-19 2019-10-23 Slingco Ltd Cable protection system

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