法国专利FR3020662A1 TENSIONER TYPE DEVICE FOR TIGHTENING AND ADVANCING CONTROLS OF AN EXTENDED MEMBER

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专利摘要:
The present invention relates to a laying device (1) of the tensioner type for controlled tightening and advancement of an elongate body, intended to be carried by a laying tower. The laying device (1) comprises an annular frame (10) comprising two moving frame parts (101) which each comprise at least one guide box (11) and which are assembled with means (13) for securing said device laying (1) with said tower (2), by means of main pivot means (14). The main pivot means (14) define a single main axis of rotation (14 ') around which said movable frame portions (101) are rotatable between the closed / open configurations.
公开号:FR3020662A1
申请号:FR1454013
申请日:2014-05-02
公开日:2015-11-06
发明作者:Karamoko Konate；Marc Huillery
申请人:Reel SA；
IPC主号:

专利说明:

[0001] TECHNICAL FIELD TO WHICH THE INVENTION RELATES The present invention relates to a device of the tensioner type for controlled tightening and advancement of an elongated member, this tensioner device being intended to equip in particular an installation for the removal of cables or pipelines. along a stretch of water. BACKGROUND ART Some facilities are designed to allow the removal of elongate bodies, including cables or pipelines, along water bodies. These facilities are mainly located on floating structures, such as ships or off-shore platforms, for disposal along the ocean floor. Such removal installations generally comprise a tower on which at least one stretcher-type laying device is attached. The delivery devices called "tensioners" provide a clamping support of a section of the elongated body, and the controlled advancement of the latter, to allow its removal in a controlled manner on the chosen receiving surface.
[0002] Specifically, a primary role of the stretcher is to constantly tighten the cable or pipeline in an efficient manner, taking into account that the weight of the portion of the elongated body that is transferred out of the floating structure increases significantly as and as you drop.
[0003] The second role of the tensioner is to operate the elongated body to ensure its longitudinal movement in a controlled manner. The rate of removal depends in particular on the time required for assembling the portions of cables or pipelines. For this, the tensioners conventionally comprise an annular frame which defines a circulation passage for the elongated body and which carries guide boxes arranged around an axis of passage of said circulation passage for clamping a section of the elongated body. However, the elongated body is likely to carry equipment, such as connectors or downhole equipment, which have a cross section whose diameter is greater than the mean cross section of the elongated body, but also the diameter of the circulation passage. To take account of this constraint, some tensioners are "opening", as described for example in the patent FR-2 970 056.
[0004] The corresponding tensioner comprises a frame composed of two half-frames which are assembled, by means of pivoting means, with a sleeve for fixing the tensioner to the tower. These pivoting means are arranged to allow a maneuver in rotation of the half-frames between closed / open configurations, each around a specific axis of rotation. But such an "opening" tensioner is likely to undergo significant stresses and efforts on its half-frames in the open position, likely to complicate its closure.
[0005] OBJECT OF THE INVENTION The invention relates to a tensioner-type laying device for controlled tightening and advancement of an elongate body, in particular a cable or a pipeline, said laying device being intended to be worn. by a laying tower.
[0006] The laying device comprises an annular frame which defines a circulation passage of said elongated body along a passage axis. The annular frame comprises two moving frame parts each comprising at least one guide box arranged around said passage axis.
[0007] The movable chassis parts are assembled with means for securing said laying device with the tower, by means of pivoting main means which allow rotation of said movable chassis parts, one with respect to the other between a closed laying configuration and an open configuration of access to said circulation passage. And according to the invention, the pivot means define a single main axis of rotation, around which said movable frame parts are operable in rotation between said closed / open configurations.
[0008] Such a structure is particularly useful for providing a large opening, without constraints or efforts on its moving parts that may complicate its closure. According to other advantageous features of realization, being able to be taken in combination or independently of each other: the two mobile parts of chassis are assembled with each other, and with the means of joining, by means of main pivotal means; the annular frame comprises an inner annular surface and an outer annular surface, and the main axis of rotation extends in the space defined by said inner and outer surfaces; - The fastening means to the tower consist of at least one plate which is secured to the laying tower by bolting; the mobile chassis parts each comprise at least two modules each carrying at least one of the guide boxes, which modules of each mobile chassis part are assembled in pairs by means of secondary pivoting means which constitute an axis secondary rotation around which one of said chassis modules is operable in rotation with respect to the other of said chassis modules; - Where appropriate, preferably, the main and secondary pivoting means of the frame are arranged so that the main axis of rotation and the secondary axes of rotation extend parallel to each other and parallel to the axis of passage; - Where appropriate, the main pivot means, and if necessary secondary, are associated with means for locking them in rotation; preferably, these rotational locking means consist of at least one locking cylinder operable in an active position within opposite ports carried by the frame.
[0009] The present invention also relates to a system for laying an elongate body in a body of water, which system comprises a floating structure equipped with a laying tower carrying at least one laying device according to the invention. In this case, the laying tower advantageously comprises two lateral uprights between which is formed a central upright; and the securing means equipping the laying device are secured to said central upright of the laying tower. Still in this case, the laying system advantageously comprises means for supporting the mobile chassis parts of the laying device during their maneuvers between the closed / open configurations. These support means advantageously comprise: two lateral arms equipping the laying tower, preferably its lateral uprights, and each carrying a sliding path, and two sliding members, each equipping one of the moving parts of the frame and each cooperating with one of said sliding paths. Still in this case, the laying tower advantageously comprises a handling device comprising a high pulley carried by an operating arm, so as to allow clearance of a load supported by said high pulley relative to the axis of passage. DETAILED DESCRIPTION OF AN EXEMPLARY EMBODIMENT The present invention will be further illustrated, without being limited in any way, by the following description of a particular embodiment in relation to the appended figures, in which: FIG. 1 is a side view a tower which is intended to equip a floating structure and which carries two laying devices of the tensioner type; FIG. 2 is a partial and enlarged view, in perspective, of one of the laying devices shown in FIG. 1, in a closed configuration; - Figure 3 is a top view of one of the laying devices shown in Figure 1, in closed configuration, with the tower shown schematically; - Figure 4 shows the laying device according to Figure 2, wherein the two moving frame parts are pivoted about the main axis of rotation to the open configuration; FIGS. 5 and 6 illustrate the delivery device according to FIG. 4, from a perspective of the distal side (opening side) and from a perspective of the proximal side (main axis of rotation side), respectively; - Figure 7 also shows the laying device according to Figure 2, wherein the distal module of each of the two frame parts in open configuration is pivotally operated relative to the associated proximal module, about their respective secondary axes of rotation.
[0010] The laying device 1 according to the invention, also referred to as a "tensioning device" or simply "tensioner", is intended to equip a system (or an installation) for laying an elongate body C in a body of water ( especially on the ocean floor). The elongated body C advantageously consists of a cable, a flexible conduit, for example a pipeline or an umbilical, or a rigid pipe unrolled. As shown in Figure 1, the system for laying the elongated body C comprises a floating structure F carrying a laying tower 2 which itself carries one or more tensioning device 1 according to the invention.
[0011] The floating structure consists for example of a ship or offshore platform. This floating structure is able to float on a body of water, for example a sea, an ocean or a lake. The laying tower 2, defining a longitudinal axis 2 'and shown in Figure 1, carries: - two laying devices 1 according to the invention, superimposed coaxially with respect to each other, - handling means 3 , formed on the side of its upper end (away from the floating structure F), and - securing means 4 of the tower 2 with a bridge 5 of the floating structure F, formed on the side of its lower end. In this case, this laying tower 2 comprises two lateral uprights 24, at a distance from each other, between which is formed a central upright 25 (Figures 2 and 3).
[0012] The different amounts 24, 25 extend parallel and at a distance from one another. Alternatively, the central upright 25 could be replaced by horizontal crosspieces which extend between the two lateral uprights 24 and which receive the laying devices 1.
[0013] The handling means 3, carried by the laying tower 2, comprise: a high pulley 31 ("top sheave") mounted cantilevered at the end of an actuating arm 32, defining an axis of vertical laying T, a trough 33 substantially U-shaped, whose convexity is turned upwards, defining a suitable radius of curvature for the elongated body C, and an operating crane 34 whose function is in particular to maneuver a equipment E carried by the elongated body C above the chute 33. The securing means 4 comprise a base 41 intended to be secured to the bridge 5 of the floating structure F. Between this base 41 and the laying tower 2, the securing means 4 here comprise pivot connection means 42 which allow rotation of the laying tower 2 about a horizontal axis 42 'perpendicular to its longitudinal axis 2'. One of the tensioning devices 1 is illustrated in more detail in FIGS. 2 to 7. Each tensioning device 1 is able to ensure, in a conventional manner per se, a gripping grip of a section of the elongated body C, and the controlled advancement of the latter, to allow its removal in a controlled manner on a receiving surface formed for example by an ocean floor. For this, the tensioner device 1 comprises an annular frame 10 carrying guide boxes 11 for clamping a section of the elongated body C during its installation. The annular frame 10, consisting of a mechanically welded structure, comprises: an inner annular surface 10a defining a passage A for the circulation of the elongate body C along a passage axis P (also called "axis of fire" or " firing line "), and an outer annular surface 10b. According to the laying method used, the tensioning device 1 is positioned so that its passage axis P is oriented (i) vertically or substantially vertically as shown in Figure 1, or (ii) horizontally or substantially horizontally. The guide boxes 11, here four in number, are distributed around the axis of passage P.
[0014] Depending on the design of the tensioning device 1, the guide boxes 11 may also be for example two, three, five or six, regularly distributed around the passage axis P. In a conventional manner, each box guide 11 comprises a support body 111 on which is guided in translation a guide peripheral chain 112 driven by a motor 113. A front end of the peripheral guide chain 112 extends parallel to the passage axis P, to constitute the contact surface with a section of the elongate body C to be deposited. The support body 111 of each guide box 11 may be associated with the frame 10 by means of actuating means 114 which provide a translational control of this box 11 parallel to itself, and in a direction perpendicular to the axis The actuating means 114 consist, for example, of linear actuators, for example of the electric jack type or of the hydraulic jack type. In practice, as illustrated in FIG. 1, the elongated body C may be brought to bear on equipment E, such as connectors or downhole equipment. Such equipment E typically has a cross section whose diameter is greater than the mean cross section of the elongated body C (and therefore of the passage A). In this context, and in accordance with the invention, the frame 10 is composed of two mobile frame parts 101 on which the guide boxes 11 are distributed.
[0015] The two moving parts of frame 101 are here identical, or at least approximately identical, with respect to each other. They form a kind of jaw, each generally C-shaped, which here each carry two guide boxes 11. Each moving part of frame 101 is delimited by two ends: - a proximal end 1011, located on the side of the laying tower 2, and - a distal end 1012, located at a distance from the laying tower 2. Each moving frame portion 101 here consists of several frame stages 1015, here three in number, superimposed and at a distance from one another ( visible Figures 2, 5 and 6). These chassis stages 1015 are advantageously secured together by means of spacer structures. These two moving parts of frame 101 are assembled, at their proximal ends 1011, by means of main connecting means 12. The main connecting means 12 are adapted, on the one hand, to the joining of the tensioner device 1 with the laying tower 2 and, secondly, to allow rotation of the moving parts of frame 101, relative to one another, along a single axis of rotation parallel to the axis of passage P In this case, the movable frame parts 101 are movable between two configurations: - a closed configuration (FIGS. 2 and 3) in which the distal ends 1012 of the movable frame parts 101 are adjacent and joined together with the other, the guide boxes 11 then being able to tighten a section of the elongated body C during its installation, and - an open configuration (Figures 3 to 7) in which the distal ends 1012 of the movable parts of the frame 1 01 are spaced from each other, to define a lateral access B to the passage of circulation A.
[0016] For this purpose, the main connecting means 12 comprise at least one 121 clevis-like structure of which: - a first end is provided with means 13 for securing the tensioner device 1 with the laying tower 2, and - a second end is provided with main pivot means 14 which allow rotation of the two movable frame parts 101, relative to each other, between the closed / open configurations. In this case, the main connection means 12 comprise a plurality of structures 121 in the form of a screed, here three in number, superimposed and at a distance from each other (FIGS. 5 and 6).
[0017] Each screed-shaped structure 121 is here associated directly with a pair of stages 1015 of the moving frame parts 101. The securing means 13 consist for example of a plate which is intended to be secured by bolting with one of the faces. of the laying tower 2, in particular its central upright 25. The proximal ends 1011 of the two mobile frame parts 101 are assembled together, and with the securing means 13, by means of the pivot means 14. The main pivoting means 14 consist, for example, of a journal cooperating with the proximal ends 1011 of the two moving frame parts 101. These main pivoting means 14 constitute a main axis of rotation 14 'extending parallel to the axis of rotation. passage P. The main axis of rotation 14 'thus extends in the space defined by the inner surfaces 10a and outer 10b of the annular frame 10, the side d e the outer annular surface 10b. The main connection means 12 also comprise means 15 for locking in rotation the frame parts 101 around the main axis of rotation 14 '.
[0018] The locking means 15 consist, for example, in at least one locking cylinder associated with a pin operable in an active position within matching complementary orifices. The locking means 15 are provided here in the space defined by the inner surfaces 10a and outer 10b of the annular frame 10, on the side of the inner annular surface 10a. To participate in this locking rotation, the distal ends 1012 of the movable frame parts 101 comprise complementary locking means 151.
[0019] The complementary locking means 151 consist, for example, in at least one locking jack associated with a pin operable in an active position within matching complementary orifices.
[0020] As illustrated in FIG. 7, each frame portion 101 itself consists of a plurality of modules 101a, 101b which each carry one of the guide boxes 11. In this case, each frame portion 101 comprises two identical modules, or at least approximately the same, namely: a proximal module 101a, of which a first end (corresponding to the proximal end 1011) is assembled with the laying tower 2 via the main connecting means 12, and - a distal module 101b, assembled with the proximal module 101a via secondary connecting means 16. In this case, a first lateral end 1013 of the distal module 101b is assembled with a second lateral end 1014 of the proximal module 101a by the intermediate secondary connection means 16. And a second lateral end of this distal module 101b forms the distal lateral end 1012 of the mobile frame part 101. The means secondary links 16 comprise: - secondary pivoting means 161, formed on the side of the outer annular surface 10b, constituting a secondary axis of rotation 161 ', and - means 162 for locking in rotation of said secondary pivot means 161 in the configuration closed. These secondary connection means 16 are here redundant on each of the stages 1015 of the moving parts 101. The adjoining ends of the pair (or pair) of modules 101a, 101b are assembled with each other via the means secondary pivots 161. The secondary pivoting means 161 consist for example of a journal cooperating with the adjacent ends of the pair of modules 101a, 101b. These secondary pivoting means 161 allow rotation of the distal module 101b with respect to the proximal module 101a. The secondary pivoting means 161 are arranged so that their respective secondary axes of rotation 161 'and the main axis of rotation 14' extend parallel to each other (in this case vertically or at least approximately vertically).
[0021] The rotational locking means 162 of the secondary connection means 16 consist for their part, for example, in at least one locking cylinder 1621 associated with a keying member operable in an active position within complementary orifices 1622 arranged in correspondence (Figure 7). Each module 101a, 101b of the frame 10 is further equipped with two damping bodies 17 ("bumpers") which are carried by the associated guide box 11 and which are formed on either side of its chain 112. On their side, the lateral uprights 24 comprise means 18 for supporting the frame portions 101 of the tensioning device 1 during their operation between the closed (FIGS. 2 and 3) and open (FIGS. 4 to 7) configurations. These support means 18 comprise: two lateral arms 181 each extending from one of the lateral uprights 24, on which is formed a sliding path 182 consisting for example of a stainless steel surface, and two sliding members 183, by each example in the form of a shoe made of bronze, which each equip the lower face of one of the frame parts 101 (in particular the lower face of the proximal module 101a) and which are each adapted to walk along the One of the sliding paths 182. In particular, the two lateral arms 181 each consist of cantilevered arms underlying the lower surface of each of the frame parts 101 (in particular the lower face of the proximal module 101a). In general, the frame 10 is associated with a set of operating means (not shown) for moving the frame portions 101 and / or the modules 101a, 101b around their respective axes of rotation 14 ', 161'.
[0022] These operating means (not shown) consist for example of actuators, for example electric cylinders or hydraulic cylinders. In operation, in the closed configuration (FIGS. 2 and 3), the two frame portions 101 form an annular frame defining the passage A for the elongated body C.
[0023] In this configuration, the high pulley 31 (carried by the operating arm 32) is arranged so that the vertical laying axis T extends coaxially with the passage axis P. The guide boxes 11 are arranged around the passage axis P for clamping a section of the elongate body C extending in the passage A, and to ensure its controlled advancement. The two guide portions 101 are held in this closed configuration by the activation of the various locking means, for recall: - the locking means 15 equipping the main connecting means 12, - the locking means 162 equipping the connecting means 16 and the complementary locking means 151 formed at the distal ends 1012 of the frame portions 101. If necessary, for example for the passage of objects E of large section along the axis of passage P ( for example a connector), the tensioning device 1 can be operated in its open configuration (FIGS. 4 to 7).
[0024] To obtain this configuration, the two frame parts 101 are spaced from each other by a maneuver in rotation about the main axis of rotation 14 'defined by the main pivot means 14. For this, each moving part of frame 101 is operated in a direction of rotation which is opposite to the direction of rotation of the other moving part of frame 101 (in FIG. 4, in a counter-clockwise direction for the mobile part of frame 101 on the left and in a clockwise for the frame part 101 on the right). The distal ends 1012 of the moving frame parts 101 are thus spaced apart from one another, delimiting the longitudinal access B.
[0025] To allow this maneuver in open configuration, some of the locking means of the frame 10 are previously deactivated, namely: - the locking means 15 fitted to the main connecting means 12, and - the complementary locking means 151 formed at the ends The locking means 162 of the secondary connection means 16 are advantageously maintained in the activated position.
[0026] The maneuver in open configuration is assisted by the support means 18 associated with the lateral uprights 24. In particular, each sliding member 183 travels along its associated sliding path 182, this in a circular path centered on the main axis of rotation 14 '.
[0027] In the case where a lateral access B of increased width is sought, it is here possible to manipulate the distal modules 101b pivotally relative to their associated proximal modules 101a, so as to separate them further from each other . This maneuver is effected by a rotational movement of each distal module 101b about the secondary axis of rotation 161 'defined by the secondary pivot means 161. This displacement is made possible by the prior inactivation of the locking means 162 equipping the respective secondary connection means 16.
[0028] To facilitate this passage of the object E, the operating arm 32 can also be controlled so as to be pivoted and to be elongated, so as to move the high pulley 31 (and its laying axis T) relative to the tower 2 and the passage axis P (Figures 4 and 7). Once the passage is made, the operating means of the frame 10 can be controlled so as to return to the closed configuration, then the locking means 15, 162, 151 are reactivated. In general, each mobile frame part 101 may comprise more than two modules (for example three) arranged in series one after the other. Each of these modules comprises at least one guide box. These modules are assembled two by two (in torque) at their adjoining ends, by means of secondary connection means 16 (in particular secondary pivot means 161). The modules of each pair are able to pivot relative to each other about a secondary axis of rotation 161 '.

权利要求:
Claims (11)
[0001]
1.-Tensioner-type laying device for controlled tightening and advancement of an elongate body (C), said laying device (1) being intended to be carried by a laying tower (2), which laying device (1) comprises an annular frame (10) which defines a passage (A) for the circulation of said elongated body (C) along a passage axis (P), which annular frame (10) comprises two moving parts of frame (101) which each comprise at least one guide box (11) arranged around said passage axis (P), which two moving frame parts (101) are assembled with means (13) for securing said laying device (1) with said tower (2), by means of main pivot means (14) which allow rotation of said movable frame parts (101), relative to one another, between a closed configuration of installation and an open configuration of access to said passage of circulat ion (A), characterized in that said main pivot means (14) define a single main axis of rotation (14 ') around which said movable frame parts (101) are operable in rotation between said closed / open configurations.
[0002]
2. A laying device according to claim 1, characterized in that the two mobile frame parts (101) are assembled with one another, and with the securing means (13), through the means main pivots (14).
[0003]
3. Installation device according to any one of claims 1 or 2, characterized in that the annular frame (10) comprises an inner annular surface (10a) and an outer annular surface (10b), and in that the main axis of rotation (14 ') extends in the space defined by said surfaces (10a, 10b).
[0004]
4. A laying device according to any one of claims 1 to 3, characterized in that the movable frame parts (101) each comprise at least two modules (101a, 101b) which each carry at least one of the boxes for guiding (11), and in that the modules (101a, 101b) of each mobile frame part (101) are assembled in pairs by means of secondary pivoting means (161) which constitute a secondary axis of rotation (161 '). ) around which one of said modules (101b) is operable in rotation relative to the other of said modules (101a).
[0005]
5.- laying device according to claim 4, characterized in that the main pivoting means (14) and secondary (161) of the frame (10) are arranged so that the main axis of rotation (14 ') and axes of secondary rotation (161 ') extend parallel to each other.
[0006]
6. A laying device according to any one of claims 1 to 5, characterized in that the main pivoting means (14) of the frame (10), and if necessary the secondary pivoting means (161), are associated with means (15, 162, 151) for locking them in rotation.
[0007]
7.- System for laying an elongate body (C) in a body of water, which installation system comprises a floating laying structure equipped with a laying tower (2) carrying at least one laying device ( 1) according to any one of claims 1 to 6.
[0008]
8. Installation system according to claim 7, characterized in that the laying tower (2) comprises a handling device (3) comprising a high pulley (31), carried by an actuating arm (32), so to allow a clearance of the laying axis (T) relative to the axis of passage (P).
[0009]
9. Installation system according to any one of claims 7 or 8, characterized in that the laying tower (2) comprises two lateral uprights (24) between which is formed a central upright (25), and in that the securing means (13) equipping the laying device (1) are secured to said central upright (25) of the laying tower (2).
[0010]
10. Laying system according to any one of claims 7 to 9, characterized in that it comprises means (18) for supporting the movable frame parts (101) of the laying device (1) during their maneuvers between closed / open configurations.
[0011]
11. Laying system according to claim 10, characterized in that the support means (18) comprise: two lateral arms (181) equipping the laying tower (2), preferably its lateral uprights (24), and carrying each a sliding path (182), and two sliding members (183) each equipping one of the moving frame parts (101) and each cooperating with one of said sliding paths (182).

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同族专利:

公开号 | 公开日

EP2940359A1|2015-11-04|

EP2940359B1|2016-07-20|

BR102015009761B1|2020-12-29|

US9494257B2|2016-11-15|

DK2940359T3|2016-11-07|

FR3020662B1|2016-04-29|

US20150316175A1|2015-11-05|

BR102015009761A2|2017-10-31|

引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

US20110182671A1|2006-03-22|2011-07-28|Joop Roodenburg|Marine pipeline installation system and methods|

US20110188941A1|2008-08-15|2011-08-04|Subsea 7 Ltd.|Apparatus for use in laying pipe on the sea floor|

US3473715A|1967-10-17|1969-10-21|Robert A Shuey Jr|Apparatus for handling an elongate member|

NL1005992C2|1997-05-06|1998-11-09|Itrec Bv|Tensioner.|

BR9917414A|1999-07-21|2002-04-09|Saipem Spa|Improvement in and relative to the underwater laying of pipes|

US7226244B1|2002-08-19|2007-06-05|Itrec B.V.|System for overload protection for pipe or cable laying structures|

GB2399798B|2002-11-01|2005-12-07|Engineering Business Ltd|Longitudinal load varying device for elongate members|

US20070140797A1|2005-12-19|2007-06-21|Armstrong Stephen P|Systems and methods for installation of clamshell devices around an element|

EP2038572B1|2006-07-12|2019-11-20|Itrec B.V.|Marine pipeline installation tensioner|

US8794874B2|2008-01-11|2014-08-05|Itrec B.V.|Marine tensioner|

NL2002549C2|2009-02-20|2010-08-24|Marine Structure Consul|Jacking system for a leg of a jack-up platform.|

FR2970056B1|2011-01-04|2014-02-14|Technip France|DEVICE FOR PLACING A DRIVE IN A WATER EXTEND, ASSOCIATED STRUCTURE AND METHOD|

US8496409B2|2011-02-11|2013-07-30|Vetco Gray Inc.|Marine riser tensioner|

GB2492402B|2011-07-01|2013-10-09|Technip France|Marine pipeline-installation tower and tensioning assembly|GB2509597B|2013-11-21|2016-09-21|Technip France|Transfer mechanism|

CN105600598A|2015-11-12|2016-05-25|中国海洋石油总公司|Openable track tensioning device|

CN105546216B|2016-01-19|2018-02-09|天津工程机械研究院|The track rail assembly detent mechanism and its localization method of a kind of four chain-track tensioners system|

NL2018357B1|2017-02-10|2018-09-04|Itrec Bv|Marine pipelaying friction clamp device and method of laying a pipeline|

法律状态:
2015-04-10| PLFP| Fee payment|Year of fee payment: 2 |

2015-11-06| PLSC| Search report ready|Effective date: 20151106 |

2016-02-16| PLFP| Fee payment|Year of fee payment: 3 |

2017-02-17| PLFP| Fee payment|Year of fee payment: 4 |

优先权:

申请号 | 申请日 | 专利标题

FR1454013A|FR3020662B1|2014-05-02|2014-05-02|TENSIONER TYPE DEVICE FOR TIGHTENING AND ADVANCING CONTROLS OF AN EXTENDED MEMBER|FR1454013A| FR3020662B1|2014-05-02|2014-05-02|TENSIONER TYPE DEVICE FOR TIGHTENING AND ADVANCING CONTROLS OF AN EXTENDED MEMBER|

EP15305648.6A| EP2940359B1|2014-05-02|2015-04-28|Device of the tensioner type for the controlled clamping and moving of an elongated element|

DK15305648.6T| DK2940359T3|2014-05-02|2015-04-28|Apparatus of the type clamping device for controlled clamping and feeding of an elongated member|

BR102015009761-1A| BR102015009761B1|2014-05-02|2015-04-29|tensioning device for controlled tightening and displacement of an elongated organ|

US14/701,543| US9494257B2|2014-05-02|2015-05-01|Device of the tensioner type for the controlled clamping and moving of an elongated element|

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