EP0214841A2 - Dispositif pour le montage mobile d'une tête de travail sur une structure à section circulaire - Google Patents

Dispositif pour le montage mobile d'une tête de travail sur une structure à section circulaire Download PDF

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Publication number
EP0214841A2
EP0214841A2 EP86306825A EP86306825A EP0214841A2 EP 0214841 A2 EP0214841 A2 EP 0214841A2 EP 86306825 A EP86306825 A EP 86306825A EP 86306825 A EP86306825 A EP 86306825A EP 0214841 A2 EP0214841 A2 EP 0214841A2
Authority
EP
European Patent Office
Prior art keywords
annulus
members
work
carriage
work head
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
EP86306825A
Other languages
German (de)
English (en)
Other versions
EP0214841B1 (fr
EP0214841A3 (en
Inventor
Douglas Walton
David Thompson
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
WALTON MOLE Co (GT BRITAIN) Ltd
Walton Mole Co Ltd
Original Assignee
WALTON MOLE Co (GT BRITAIN) Ltd
Walton Mole Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by WALTON MOLE Co (GT BRITAIN) Ltd, Walton Mole Co Ltd filed Critical WALTON MOLE Co (GT BRITAIN) Ltd
Publication of EP0214841A2 publication Critical patent/EP0214841A2/fr
Publication of EP0214841A3 publication Critical patent/EP0214841A3/en
Application granted granted Critical
Publication of EP0214841B1 publication Critical patent/EP0214841B1/fr
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B08CLEANING
    • B08BCLEANING IN GENERAL; PREVENTION OF FOULING IN GENERAL
    • B08B9/00Cleaning hollow articles by methods or apparatus specially adapted thereto 
    • B08B9/02Cleaning pipes or tubes or systems of pipes or tubes
    • B08B9/023Cleaning the external surface
    • EFIXED CONSTRUCTIONS
    • E02HYDRAULIC ENGINEERING; FOUNDATIONS; SOIL SHIFTING
    • E02BHYDRAULIC ENGINEERING
    • E02B17/00Artificial islands mounted on piles or like supports, e.g. platforms on raisable legs or offshore constructions; Construction methods therefor
    • E02B17/0034Maintenance, repair or inspection of offshore constructions

Definitions

  • the present invention relates to apparatus for movably mounting a workhead on a structure of circular cross-section. Such apparatus are particularly useful for cleaning and descaling the exterior of cylindrical structures such as pipe lines and the jackets of off-­shore oil rigs.
  • the apparatus comprises an annulus mounted on and surrounding the structure and means for driving the annulus along the structure in either direction.
  • the annulus has mounted thereon an arm member which projects from the annulus parallel to the structure and which member carries a nozzle for producing high pressures which nozzle is reciprocable along the arm.
  • the arm member is rotatable around the annulus.
  • the arm member described above may have a reach of some six feet ( 2 meters) and to provide adequate support the annulus needs to be of considerable length. Furthermore, it is important that the nozzle is main­tained at a predetermined stand-off distance from the cylindrical structure.
  • the above described apparatus is particularly suitable for use on cylindrical structures which are straight. Indeed its construction with the projecting rotatable boom and reciprocating nozzle makes it unsuitable for use on cylindrical structures which incorporate bends. It is unsuitable because it cannot be manoeuvered along cylindrical structures incorporating bends, and even if it could the boom could not be rotated around the annulus to treat the concave sections of the structure.
  • the cylindrical structures such as pipe lines and the jackets of off-shore oil rigs frequently incorporate bends.
  • the bends may be smooth arcuate curves or curves made up by one or more straight cylindrical sections welded together at angles. Indeed the pipe from the well head may utilise a double S-bend for expansion purposes.
  • the present invention aims to provide an apparatus for movably mounting a workhead on a structure of circular cross-section be they straight or curved and an apparatus suitable for cleaning and descaling cylindrical structures be they straight or curved.
  • apparatus for movably mounting a work head on a structure of circular cross-section comprising an annulus defined by two or more members which are engagable co-operably and movable between an open position which allows the annulus to be fitted onto the structure, and a closed position in which the annulus surrounds the structure, means for locating the annulus on the structure and for moving it axially along the length thereof, said means comprising three or more support legs mounted on the annulus at spaced circumferential locations with at least some of said legs being movable in a radial direction relative to the annulus by actuating means to locate the annulus on the structure, and each supporting leg being provided with drive means which are controllable independently for moving the annulus along the structure in a plane normal to the axial centre line of the structure, the work head being mounted on the annulus for circumferential movement with respect to the structure.
  • the annulus comprises a plurality of bouyancy chambers to increase the displacement of the apparatus in relation to its weight to give it a predeter­mined neutral bouyancy.
  • the annulus is defined by three arcuate members, with two of said members being pivotally secured to the third.
  • Actuating means is provided for moving said two members pivotally with respect to the third to open and close the annulus to allow it to be fitted onto and removed from the structure of circular cross-section.
  • Further actuating means is preferably provided to lock the free ends of the two members together in the closed position by means of an overthrow clamp or the like.
  • the actuating means preferably comprise hydraulic rams.
  • said third member is provided with a mounting lug to enable it to be held by a remotely operated vehicle (ROV).
  • ROV remotely operated vehicle
  • Each support leg preferably comprises two axially spaced wheels or rollers which engage the exterior surface of the structure. One or both of the wheels or rollers may be driven. The circumference of the wheels or rollers are provided with a rubber or plastics coating which exhibits high frictional qualities to provide a good grip on the structure.
  • each support leg is movable radially by actuating means to centralise the annulus on said structure. The radial movement is preferably actuated hydraulically by means of an equal flow system which ensures that the annulus is positioned centrally.
  • a mechanical locking mechanism may be provided to lock in support legs in the applied position so that the annulus remains in position in the event of failure of the hydraulic system.
  • a spring mounting system may be employed to compensate for small variations in the diameter of the structure.
  • axially spaced wheels or rollers approximately l foot (30 cm) apart ensures stability of the annulus on the structure.
  • An endless band may be fitted onto the axially spaced wheels or rollers to give an improved grip in certain circumstances.
  • the number of support legs will be determined by the diameter of the structure. Typically four legs will be provided, but the larger sizes may have six or eight.
  • the third arcuate member of the annulus is preferably at least l80° of arc and its axial end is defined by the mounting plate which carries the two work heads.
  • a drive mechanism is disposed within the third member and comprises an endless chain entrained around sprockets and carrying a pin which is co-operable with a slot in a carriage to which the mounting plate is secured.
  • the carriage runs on rails within said third member and rotation of the chain causes the carriage to be reciprocated through an arc of some l80°.
  • a second carriage is provided diametrically opposite the first and connected thereto by means of the mounting plate. The second carriage thus moves in synchronism with the first on rails formed in the other two arcuate members of the annulus.
  • the two work heads are secured to a respective one of the carriages. The use of two work heads enables the full 360° of the structure to be operated on.
  • the work heads are reciprocated through an arc of slightly more than l80° to ensure complete coverage.
  • the apparatus of the invention is particularly suitable for cleaning and descaling structures of circular cross-section.
  • the work heads incorporate nozzles by means of which a high pressure water jet or other abrasive material can be trained onto the surface of the structure.
  • the jet can be a pencil jet or a fan jet.
  • the nozzle is mounted for rotation in a housing so as to describe a circular path.
  • the work head includes a combined camera and lighting system which is mounted to be rotatable through l80°, and a twin jet nozzle disposed between the camera and the annulus and mounted so as to be tiltable through 90°.
  • the camera is mounted for pan and tilt.
  • the apparatus is particularly suitable for treating curves in such structures since the axial length of the apparatus is small. That is to say the distance between the location point (the support legs) and the work heads is short.
  • the stand-off distance can be maintained by a follower mounted on the work head and controlling the position of the nozzle.
  • the follower typically comprises a spherical end which contacts the surface of the cylindrical structure and which is coupled to the nozzle to determine its position from the structure.
  • the arrangement is resiliently biased into contact with the structure.
  • the facility of being able to drive each of the wheels independently enables the attitude of the annulus to be maintained as it moves along a curved section of the structure. That is to say the wheels on the outside of the curve have to travel further than those on the inside.
  • Control of the apparatus is performed remotely by way of an umbilical cord.
  • a camera is employed to monitor the position of the apparatus so that the operator can move the appropriate controls to maintain the desired attitude of the apparatus, ie. with the annulus in a plane normal to the axis of the structure.
  • the apparatus can have neutral bouyancy. This makes it easy to manoeuver into position by a remotely operated vehicle.
  • an ROV can be used to position the apparatus on and surrounding the cylindrical structure.
  • the locking mechanism and the actuation of the support legs are likewise operable remotely to position the apparatus on the structure before the ROV releases it.
  • the ability to use an ROV for manoeuvering the apparatus into position avoids the need to use divers. This is particularly advantageous when the apparatus is required to work at considerable depths where saturation diving would be involved.
  • thrusters to the apparatus to convert it into a self-propelled remotely operated vehicle.
  • three thrusters are incorporated in the annulus, one in each of the arcuate members.
  • the apparatus may carry work heads having a variety of different functions, for example:- water jet nozzles; shot blast nozzles; abrasive blast; paint applicators (brush or spray); non-­destructive testing equipment; abrasive; steel cutting heads; remotely controlled articulated robot arm.
  • work heads having a variety of different functions, for example:- water jet nozzles; shot blast nozzles; abrasive blast; paint applicators (brush or spray); non-­destructive testing equipment; abrasive; steel cutting heads; remotely controlled articulated robot arm.
  • the apparatus comprises an annulus which is made up of three arcuate members in the illustrated embodiment. Two of the arcuate members l,2 are pivotally attached to the third 3 for example by respective pivot pins 4,5 seen in Figs. 3, 4 and 5
  • the third arcuate member 3 extends over an arc slightly in excess of l80°, whilst the first and second arcuate members l,2 have an arc of slightly less than 90° each.
  • the first and second arcuate members are pivotable between open and closed positions by any suitable actuator means, but conveniently the actuator means comprises a respective hydraulic ram.
  • One ram is coupled between the first member l and the third member 3, and the other ram is secured between the second member 2 and the third member 3.
  • the free ends of the first and second arcuate members l,2 lie adjacent one another when in the closed position and preferably abut with each other so that the three members define a continuous annulus.
  • Figs. 3 and 4 show the annulus in the closed position, whilst Figs. l and 5 show the annulus in the open position.
  • a locking member is provided to lock the ends of the first and second members together when in the closed position. This preferably comprises an over-­throw clamp which is actuated by a further hydraulic ram
  • the arcuate members of the annulus carry support legs 6 which serve to locate the annulus on a pipe and to move it along the pipe.
  • the legs are also mounted for radial movement with respect to the annulus and are illustrated in their withdrawn position in Fig l.
  • Figs. 3, 4 and 5 show them in extended positions.
  • each of the first and second arcuate members carries a respective support leg 6, whilst the third member 3 carries two support legs 6.
  • four support legs are provided, spaced circumferentially at 90° to one another. An equal flow hydraulic system is conveniently utilised to move the support legs radially.
  • each leg carries two spaced apart rollers 8 which contact the exterior surface of the structure.
  • the rollers are spaced apart in the axial direction of the structure so as to impart stability to the annulus and prevent twisting thereof on the structure.
  • One or both of the rollers of each leg are rotatably driven, conveniently by a hydraulic motor. The rollers of each leg are driven independently so that the movement at each leg can be controlled independently.
  • rollers at the larger radius have to travel further than those at the smaller inner radius if the annulus is to be maintained in the desired attitude in a plane normal to the axis of the structure.
  • the rollers are preferably provided with a plastics or rubber tread to aid their grip on the structure.
  • An endless band may be placed around the rollers where it is felt this would give an improved grip.
  • Each roller may be replaced by one or more wheels.
  • the above described construction enables the apparatus to be moved along the structure in either direction.
  • the purpose of attaching such an apparatus to a structure of this nature is to be able to perform operations of numerous types on the structure.
  • One type of operation which has to be tackled is that of cleaning and descaling the structure. This is one type of operation for which the apparatus is particularly suited.
  • a work head - typically a nozzle for directing water at high pressure at the structure - has to be capable of being moved around the structure.
  • the arcuate members l, 2 and 3 incorporate concentric rails, shown diagramatically as 9 and l0 in the drawings.
  • the third arcuate member 3 incorporates a drive mechanism which comprises an endless chain entrained around two sprockets. This is preferably accommodated within the annulus at one axial end thereof.
  • the sprockets are disposed diametrically opposite one another and the chain is constrained to follow an arcuate path by the inner and outer radial walls of the third arcuate member.
  • the chain carries a pin member which engages in a slot in one of two carriages.
  • the said one carriage is constrained axially by the rails 9,l0 and circumferentially by the inner and outer walls of the arcuate member 3.
  • Rotation of the chain causes the pin to move and its co-operation with the carriage causes the carriage to reciprocate through an arcuate path as defined by the path of the chain.
  • the pin passes round the sprockets, the pin moves across the slot in the carriage. This changes the speed of the carriage at the end points where the change of direction occurs.
  • a mounting plate is secured to the driven carriage and a second carriage is secured to the mounting plate diametrically opposite the first.
  • the mounting plate is arcuate.
  • the second carriage is caused to follow the reciprocal move­ments of the first carriage.
  • the second carriage runs on a track formed by the first and second arcuate members.
  • a respective work head is mounted on each of the carriages.
  • Each carriage preferably comprises a plate member having four wheels or rollers journalled for rotation thereon.
  • the wheels or rollers run on the circular track and take the axial thrust load generated by the work heads.
  • the described construction gives rise to a short axial length between the support legs 6 and the work heads. This enables the apparatus to move round bends in the structure whilst allowing operations, such as cleaning and descaling to be performed on the bends.
  • the work heads may carry nozzles for high pressure water cleaning; shot blast; abrasive blast or paint applicators by brush or spray. It is further envisaged that the work heads may be provided with abrasive steel cutting heads or probes for use in non-destructive testing.
  • each work head has a nozzle for directing a high pressure water jet with or without any additional abrasive material on to the external surface of the structure.
  • the nozzle has to be positioned at a predetermined distance from the exterior surface of the structure.
  • a positioning device is provided for this purpose which conveniently comprises a spherical member l5 secured to the mounting for the nozzle and biased into contact with the exterior surface. The positioning device is movable in the radial direction to accommodate variations in the distance between the exterior of the structure and the annulus as the work head is moved circumferentially.
  • the nozzle is maintained at a predetermined stand-off distance from the exterior surface of the structure.
  • the nozzle can produce a pencil jet or a fan jet.
  • a pencil jet is preferred for high pressure water cleaning, but to increase the area covered during the circum­ferential movement, the nozzle is arranged to be rotatable so as to describe a circular path.
  • This means that an axial band on the structure is operated on during circumferential movement of the work head. This is advantageous because not only does it speed up the operation, but it also means that the movement of the apparatus in the axial direction by way of the drive means in the support legs is less critical. It will be appreciated that this "band cleaning" simplifies the procedure when bends are involved because overlap between bands ensures that all sections of the bend can be thoroughly cleaned.
  • a further feature of the invention which has not yet been described is the provision of bouyancy chambers within the annulus.
  • the members of the annulus are provided with sealed chambers l8 between the support legs which effectively increase the displacement of the apparatus disproportionately in relation to the weight so that the apparatus is given a predetermined bouyancy or even a variable bouyancy.
  • This enables the apparatus to be manoeuvered more easily under water by remotely operated vehicles ROV's. These vehicles cannot handle heavy objects and so if the bouyancy can be set at a fixed level for a particular depth of operation the apparatus can be manoeuvered into position using such vehicles and thus avoid the use of divers.
  • the annulus is illustrated as having a T-shaped mounting slot 20 for engagement by a correspondingly shaped member of an ROV.
  • the hole 2l serves to receive a hydraulically actuated locking pin.
  • the shape of the mounting member may be varied to suit other designs or may simply comprise a conveniently shaped projecting lug which can be grabbed by the jaws of an articulated arm.
  • the apparatus be provided with its own thrusters, so that it can be self-propelled.
  • an umbilical cord connects with the apparatus from the remote control station, be it a surface vessel or the oil rig - depending on the nature of the structure involved.
  • the umbilical cord has the necessary hydraulic and electrical lines to provide the required control signals and power supply to the various motors.
  • the apparatus is manoeuvered up to the structure in a direction substantially normal to the axis thereof, with the first and second arcuate members in the open position as illustrated in fig. l.
  • the support legs 6 are preferably fully withdrawn at this stage.
  • the apparatus is manoeuvered so that the structure is positioned within the third arcuate member 3.
  • the hydraulic rams controlling the first and second members l,2 are then remotely operated to move these members into their closed position, whereupon the hydraulic ram controlling the overthrow lock is actuated so that the ends of the members l and 2 are held closed. Hydraulic fluid is then admitted to the rams controlling the position of the support legs 6 and this causes them to move radially inwardly.
  • An equal flow system is employed to ensure that each of the legs moves the same distance so that the annulus is centralised on the structure.
  • the rollers thus contact the structure to locate the annulus.
  • the drive means to the rollers incorporates a brake mechanism which prevents rotation of the rollers when the drive motor is not operating.
  • a mechanical locking mechanism is conveniently employed to locate the support legs in the extended position so that the annulus remains located in the event of hydraulic failure.
  • the legs may be resiliently mounted so that small variations in the surface configuration do not result in a loss of grip by the support legs. Once the legs have been extended the ROV can be disconnected from the mounting point.
  • the annulus By operating the drive motors of the support legs 6 the annulus can be caused to move in either direction along the structure. By controlling the drive motors of each leg individually the annulus can be manoeuvered round bends in the structure.
  • the embodiment of apparatus for cleaning and descaling has the advantage that it is of short axial length which enables it to be moved along structures which are curved to perform cleaning and descaling on such structures.
  • the independent control of the support leg drive means enables the apparatus to be manoeuvered along the structure and round curves.
  • the use of bouyancy chambers enables the apparatus to be easily manoeuvered into position by means of an ROV.
  • annulus could be provided with an articulated work arm.
  • Such an articulated work arm could carry a non-destructive testing probe or a camera for checking welded joints on such structures.
  • the articulated arm being remotely operated.
  • the articulated arm could be attached to the circumferentially movable work head or secured to another part of the annulus.
  • the annulus preferably has secured thereto a camera for monitoring movement of the annulus and operations being performed by the work heads.
  • FIG. 6 there is shown another embodiment of the invention which is of the same basic construction of the apparatus described with reference to Fig. l. However, it differs in the construction and mounting of the work heads and in the provision of built-­in thrusters. These features will be described further hereinafter. It will be understood that the earlier described embodiments could be provided with the thruster system or jet and/or camera system described hereafter.
  • the work heads ll and l2 each comprise two jet nozzles l00,l02 which are mounted on a member l04 which is movable through approximately 90° with respect to a mounting member l06.
  • the mounting member l06 is secured to the drive means for moving the work head on the l80° arcuate path.
  • the member l04 is movable in a plane which is perpendicular to the plane of movement of the mounting member l06.
  • a combined camera l08 and light ll0 is mounted in a housing ll2 on the member l04.
  • the housing ll2 is mounted for movement through approximately l80° with respect to the member l04 and in a plane parallel to a plane passing though the two jet nozzles l00,l02.
  • the fact that the member l04 is tiltable means that the camera and light are likewise tiltable.
  • the possible movements of the camera enables the operator to view the job being cleaned (for example) and to make an appraisal of the position of the apparatus when approaching the tubular structure.
  • the apparatus also includes three thrusters, each of which is mounted in the annulus.
  • a main thruster l20 is mounted in the third arcuate part 3 and comprises a rotor disposed within a tubular sleeve l22 and driven by a motor.
  • the motor may be driven in either direction so that thrust is generated in either the direction of the arrow A or the direction of the arrow B.
  • the sleeve passes through the annulus.
  • Two positional thrusters l24,l26 are also provided one in each of the first and seocnd arcuate parts l and 2. These are likewise received in a tubular sleeve which passes through the member and the rotors are driven by reversible motors.
  • the thrusters l20,l24,l26 are employed to manoeuver the appartus into position about a tubular structure.
  • the neutral bouyancy enables this to be done with only low powered thruster and being self-propelled, a diver is not reqired. Accordingly, the device can be easily manoeuvered into position.
  • the first and second members will usually be in the position illustrated in Fig. 6 when manoeuvering is taking place.
EP19860306825 1985-09-03 1986-09-03 Dispositif pour le montage mobile d'une tête de travail sur une structure à section circulaire Expired - Lifetime EP0214841B1 (fr)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
GB8521896A GB8521896D0 (en) 1985-09-03 1985-09-03 Mounting work head on structure
GB8521896 1985-09-03

Publications (3)

Publication Number Publication Date
EP0214841A2 true EP0214841A2 (fr) 1987-03-18
EP0214841A3 EP0214841A3 (en) 1987-11-11
EP0214841B1 EP0214841B1 (fr) 1990-06-13

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Family Applications (1)

Application Number Title Priority Date Filing Date
EP19860306825 Expired - Lifetime EP0214841B1 (fr) 1985-09-03 1986-09-03 Dispositif pour le montage mobile d'une tête de travail sur une structure à section circulaire

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EP (1) EP0214841B1 (fr)
AU (1) AU589994B2 (fr)
DE (1) DE3671849D1 (fr)
GB (1) GB8521896D0 (fr)

Cited By (21)

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EP0343878A2 (fr) * 1988-05-23 1989-11-29 CRC-Evans Rehabilitation Systems, Inc. Nettoyage à l'eau de la surface extérieure d'une tuyauterie pour enlever des couches de revêtement
US5074323A (en) * 1988-05-23 1991-12-24 Cups, Inc. Hydrocleaning of the exterior surface of a pipeline to remove coatings
US5092357A (en) * 1987-05-28 1992-03-03 Cups, Inc. Cleaning of the exterior surface of a pipeline to remove coatings
AU621050B2 (en) * 1987-05-28 1992-03-05 Crc-Evans Rehabilitation Systems, Inc. Hydrocleaning of the exterior surface of a pipeline to remove coatings
US5178171A (en) * 1987-05-28 1993-01-12 Crc-Evans Rehabilitation Systems, Inc. Hydrocleaning of the exterior surface of a pipeline to remove coatings
US5191740A (en) * 1990-01-26 1993-03-09 E. B. Thomas Apparatus for cleaning pipe
US5209245A (en) * 1987-05-28 1993-05-11 Crc-Evans Rehabilitation Systems, Inc. Hydrocleaning of the exterior surface of a pipeline to remove coatings
US5226973A (en) * 1987-05-28 1993-07-13 Crc-Evans Rehabilitation Systems, Inc. Hydrocleaning of the exterior surface of a pipeline to remove coatings
US5265634A (en) * 1987-05-28 1993-11-30 Crc-Evans Rehabilitation Systems, Inc. Cleaning of the exterior surface of a pipeline to remove coatings
US5385609A (en) * 1990-01-26 1995-01-31 E. B. Thomas Apparatus and method for treating the outer surface of a pipeline
US5398461A (en) * 1990-01-26 1995-03-21 E. B. Thomas Apparatus and method for cleaning a pipeline
US5615696A (en) * 1992-07-24 1997-04-01 Lawler; Oliver W. Apparatus for treating pipe
EP1754573A1 (fr) * 2005-08-17 2007-02-21 Hitachi Plant Technologies, Ltd. Dispositif de projection pour la surface externe de tubes
WO2009105898A1 (fr) * 2008-02-28 2009-09-03 Welaptega Marine Limited Système de mesure sur tubulaire
WO2010105003A2 (fr) * 2009-03-11 2010-09-16 Sea Trepid International, Llc Système de traversée et d'inspection à appareil télécommandé
US8007595B2 (en) * 2008-02-28 2011-08-30 Welaptega Marine Limited Method for in-situ cleaning and inspecting of a tubular
ES2370897A1 (es) * 2011-10-21 2011-12-23 Universidad Politecnica De Madrid Aparato para la inspeccion de tuberias.
GB2533092A (en) * 2014-12-08 2016-06-15 Pipeline Induction Heat Ltd A machine for cleaning a section of pipeline
CN112222032A (zh) * 2020-10-19 2021-01-15 河南中烟工业有限责任公司 外管道清扫机器人的清扫方法
CN113369186A (zh) * 2021-05-24 2021-09-10 深圳市行知行机器人技术有限公司 一种清洗装置
CN114749436A (zh) * 2022-04-12 2022-07-15 华能国际电力股份有限公司河北清洁能源分公司 一种管路原件表面油污清理装置及其清理方法

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EP0358682B1 (fr) * 1987-05-15 1995-08-23 Iev International Pty. Limited Appareil servant a empecher la proliferation d'organismes marins sur des structures offshore
US5361791A (en) 1987-05-28 1994-11-08 Crc-Evans Rehabilitation Systems, Inc. Cleaning of the exterior surface of a pipeline to remove coatings
US5458683A (en) 1989-07-17 1995-10-17 Crc-Evans Rehabilitation Systems, Inc. Device for surface cleaning, surface preparation and coating applications
US5520734A (en) 1989-07-17 1996-05-28 Crc-Evans Rehabilitation Systems, Inc. High pressure water jet cleaner and coating applicator
US6461231B1 (en) 1990-08-14 2002-10-08 Crc-Evans Rehabilitation Systems, Inc. Air abrasive blast line travel machine

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DE2808337A1 (de) * 1977-03-01 1978-09-07 Hitachi Ltd Automatische rohrschweissmaschine
EP0000808A1 (fr) * 1977-07-16 1979-02-21 The Walton Mole Company (Gt. Britain) Limited Appareil pour le nettoyage et le détartrage de l'extérieur de structures cylindriques longues telles que tuyaux et pilotis d'iles artificielles de forage
EP0139596A2 (fr) * 1983-10-26 1985-05-02 Spie-Capag Dispositif pour effectuer un travail sur une structure sous-marine à plusieurs branches

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE2808337A1 (de) * 1977-03-01 1978-09-07 Hitachi Ltd Automatische rohrschweissmaschine
EP0000808A1 (fr) * 1977-07-16 1979-02-21 The Walton Mole Company (Gt. Britain) Limited Appareil pour le nettoyage et le détartrage de l'extérieur de structures cylindriques longues telles que tuyaux et pilotis d'iles artificielles de forage
EP0139596A2 (fr) * 1983-10-26 1985-05-02 Spie-Capag Dispositif pour effectuer un travail sur une structure sous-marine à plusieurs branches

Cited By (31)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US5226973A (en) * 1987-05-28 1993-07-13 Crc-Evans Rehabilitation Systems, Inc. Hydrocleaning of the exterior surface of a pipeline to remove coatings
US5052423A (en) * 1987-05-28 1991-10-01 Cups, Inc. Hydrocleaning of the exterior surface of a pipeline to remove coatings
US5092357A (en) * 1987-05-28 1992-03-03 Cups, Inc. Cleaning of the exterior surface of a pipeline to remove coatings
AU621050B2 (en) * 1987-05-28 1992-03-05 Crc-Evans Rehabilitation Systems, Inc. Hydrocleaning of the exterior surface of a pipeline to remove coatings
US5178171A (en) * 1987-05-28 1993-01-12 Crc-Evans Rehabilitation Systems, Inc. Hydrocleaning of the exterior surface of a pipeline to remove coatings
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US8007595B2 (en) * 2008-02-28 2011-08-30 Welaptega Marine Limited Method for in-situ cleaning and inspecting of a tubular
US8105442B2 (en) * 2008-02-28 2012-01-31 Welaptega Marine Limited Tubular measurement system
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WO2010105003A2 (fr) * 2009-03-11 2010-09-16 Sea Trepid International, Llc Système de traversée et d'inspection à appareil télécommandé
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ES2370897A1 (es) * 2011-10-21 2011-12-23 Universidad Politecnica De Madrid Aparato para la inspeccion de tuberias.
GB2533092A (en) * 2014-12-08 2016-06-15 Pipeline Induction Heat Ltd A machine for cleaning a section of pipeline
CN112222032A (zh) * 2020-10-19 2021-01-15 河南中烟工业有限责任公司 外管道清扫机器人的清扫方法
CN113369186A (zh) * 2021-05-24 2021-09-10 深圳市行知行机器人技术有限公司 一种清洗装置
CN114749436A (zh) * 2022-04-12 2022-07-15 华能国际电力股份有限公司河北清洁能源分公司 一种管路原件表面油污清理装置及其清理方法
CN114749436B (zh) * 2022-04-12 2023-07-04 华能国际电力股份有限公司河北清洁能源分公司 一种管路原件表面油污清理装置及其清理方法

Also Published As

Publication number Publication date
AU589994B2 (en) 1989-10-26
DE3671849D1 (de) 1990-07-19
EP0214841B1 (fr) 1990-06-13
GB8521896D0 (en) 1985-10-09
EP0214841A3 (en) 1987-11-11
AU6218586A (en) 1987-03-05

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