![]() CONNECTOR FOR ASSEMBLING TWO ROUND COLUMNS WITH INTERNAL LOCKING RING AND REMOVABLE PINS
专利摘要:
The present invention relates to a compact design of a connector by means of an internal locking ring (11). The connector according to the invention comprises a locking ring (11) allowing a bayonet-type connection on either side with two riser sections. In addition, the connector comprises at least one removable pin (12) for locking the locking ring (11) in translation, in particular during locking and unlocking. 公开号:FR3045708A1 申请号:FR1562605 申请日:2015-12-17 公开日:2017-06-23 发明作者:Emmanuel Persent;Gerard Papon;Fabrice Deleau 申请人:IFP Energies Nouvelles IFPEN; IPC主号:
专利说明:
The present invention relates to the field of drilling and oil exploitation of deposit in very deep sea. It relates to a riser connector. A riser (or "riser") is formed by a set of tubular elements of length between 15 and 27 m (50 and 90 feet), assembled by connectors. The tubular elements generally consist of a main tube provided with connectors at each end. Tubular auxiliary pipes also called peripheral pipes commonly called "kill line", "choke line", "booster line" and "hydraulic line" allowing the circulation of technical fluids are provided parallel to the main tube. The tubular elements are assembled on the drilling site, from a floating support. The column descends into the water portion as the assembly of the tubular elements, until reaching the wellhead located on the seabed. In order to drill at water depths up to 3500 m or more, the weight of the riser becomes very penalizing. This phenomenon is aggravated by the fact that, for the same maximum operating pressure, the length of the column imposes an inner diameter of the auxiliary lines larger given the need to limit the pressure losses. Furthermore, the need to reduce the assembly time of the risers is all the more critical as the water depth, and therefore the length of the column, are important. A rising column (or "riser") for other applications, including production, packaging (English "completion") or repackaging ("work-over"), is also constituted by a set of tubular elements assembled by connectors. The documents FR 2925105, FR 2956693 and FR 2956694 describe various solutions including proposing to involve the auxiliary conduits, together with the main tube, the recovery of the longitudinal forces applied to the riser. However, for the systems described in these patents, the attachment of the auxiliary lines with respect to the main tube causes tensile forces in the auxiliary lines. In order to resist these tensile forces, the thicknesses of the auxiliary lines are large, which generates an increase in the mass, the size of the floats and consequently the cost of the riser. Another problem with these connectors is the inspection and maintenance of the locking ring. Indeed, the locking rings in the aforementioned patents are not completely removable. It is therefore not possible to inspect the entire locking ring. To overcome this problem, patent applications WO 2015/071411, WO 2015/169560, WO 2015/169559 relate to connectors with removable locking rings, thanks to two bayonet connections. However, these three connectors require a particular arrangement of tenons to prevent the simultaneous disconnection of the ring with the two riser sections. The present invention relates to a compact design of a connector by means of an internal locking ring. The connector according to the invention comprises a locking ring for a bayonet type connection on both sides with two riser sections. In addition, the connector comprises at least one removable pin for locking the locking ring in translation, in particular during locking and unlocking. Thus, the connector according to the invention is removable, and the simultaneous disassembly of the ring with the two riser sections is prevented. The invention relates to a connector for assembling two riser sections, comprising a first main tube element extended by a male connector element, a second main tube element extended by a female connector element, the element male connector fitting into said female connector element for connecting said two main tube members, said connector comprising locking means of said assembly having a locking ring, said locking ring comprising a first and a second series of tenons on its surface external, and said male and female connector elements respectively having on their inner face a third and a fourth series of pins cooperating respectively with said first and second series of tenons. Said locking means further comprise at least one removable pin arranged in said locking ring and cooperating with said male connector element to lock said locking ring in translation with respect to said male connector element. According to one embodiment, the tenons of the first and second series of tenons are projecting on identical angular ranges. Advantageously, said removable pin cooperates with a groove formed in said male connector element or with a shoulder formed in said male connector element. According to one design, said male connector element comprises a tip and a sleeve comprising said groove or said shoulder, said sleeve being adapted to be fitted into said female connector element. Preferably, the sleeve is bolted to said tip. According to one embodiment, each series of tenons comprises at least one row of tenons, and preferably two rows of tenons. According to one variant, the circumferential distributions of said tenons of two rows of consecutive tenons of the same series of tenons are alternated. According to one characteristic, at least one row of tenons of a series of tenons is inscribed in a different diameter of another row of said series of tenons. According to one embodiment of the invention, said rows of tenons of at least one series of pins are inscribed in identical diameters. Advantageously, said locking means comprise a plurality of removable pins, preferably a number of removable pins corresponding to the number of tenons per row of tenons. According to one design, said removable pin is threaded, and said removable pin is arranged in said screw locking ring. According to one embodiment, said removable pin is arranged in said locking ring between said first and said second series of tenons. According to an alternative embodiment, said series of tenons comprise at least three tenons, and preferably at least four tenons. According to an embodiment, said male and female connector elements are respectively provided with a flange for the respective passage of a first and a second auxiliary tube element. According to a first embodiment, said auxiliary tube elements are integrally attached to said flanges. According to a second variant, an auxiliary tube element is integral with one of said flanges, and the other auxiliary tube element is connected by a sliding pivot connection with the other of said flanges, said sliding pivot connection allowing a translational movement. relative between said main tube member and said auxiliary tube member over a limited distance. According to a third variant, said two auxiliary tube elements are connected by a sliding pivot connection with said flanges. According to one embodiment, a first axial clearance is provided between said first series of tenons and said third series of tenons, and a second axial clearance is provided between said second series of tenons and said fourth series of tenons. Advantageously, said first and second axial clearances are between 0.5 and 30 mm, preferably between 0.5 and 10 mm. The present invention further relates to a riser comprising at least two riser sections assembled by a connector according to one of the preceding features. In addition, the invention relates to a method of assembling two riser sections by means of a connector according to one of the preceding characteristics. For this method, the following steps are carried out: a) inserting said locking ring into said male connector element; b) inserting said removable peg into said locking ring; c) inserting said locking ring into said female connector member; and d) locking said locking ring. According to one embodiment of the invention, the locking step is implemented by relative rotation of said locking ring with respect to said main tube elements. According to one embodiment of the invention, at least one insertion of said locking ring into said male or female connector element is implemented by a relative translation of said locking ring with respect to said male or female connector element. According to an alternative embodiment, at least one insertion of said locking ring into said male or female connector element is implemented by at least a first translation, a first rotation and a second relative translation of said locking ring with respect to said element. male or female connector. In addition, the invention relates to a method for disassembling two riser sections assembled by means of a connector according to one of the preceding characteristics, characterized in that the following steps are performed: a) said ring is unlocked; lock; b) removing a first main tube member from said locking ring; c) removing said removable pin from said locking ring; and d) removing said locking ring from the second main tube member. According to one embodiment, the unlocking step is implemented by relative rotation of said locking ring with respect to said main tube elements. According to an alternative embodiment, at least one withdrawal of at least one main tube element from said locking ring is implemented by a relative translation of said locking ring with respect to said main tube element. According to one embodiment of the invention, at least one withdrawal of at least one main tube element from said locking ring is implemented by a first translation, a first rotation and a second relative translation of the locking ring. relative to said main tube member. In addition, the invention relates to the use of a riser according to one of the preceding characteristics for carrying out a drilling operation, or well reconditioning or production at sea. BRIEF DESCRIPTION OF THE DRAWINGS Other features and advantages of the system and method according to the invention will become apparent on reading the following description of nonlimiting examples of embodiments, with reference to the appended figures and described below. Figure 1 shows schematically a riser according to the invention. Figure 2 illustrates a riser section according to one embodiment of the invention. Figure 3 illustrates the connector according to one embodiment of the invention. Figure 4 is an enlargement of the connector shown in Figure 3. Figure 5 illustrates, in a partial view, a male or female connector element for a connector according to one embodiment of the invention. Figure 6 illustrates a locking ring for a connector according to an embodiment of the invention. Figures 7a and 7b illustrate two steps of disassembly of the locking ring according to one embodiment of the invention. FIGS. 8a to 8d illustrate the distribution of the games for one embodiment of the invention, respectively for the steps of approaching, bringing the ring into contact with the female connector, locking and energizing element. Detailed description of the invention According to a non-limiting exemplary embodiment, FIG. 1 schematizes a riser 1 installed at sea. The riser 1 extends the well P and extends from the wellhead 2 to a floating support 3, for example a platform or a boat. The wellhead 2 is provided with shutter commonly called "B.O.P." or "Blow Out Preventer". The riser 1 is constituted by the assembly of several sections 4 assembled end to end by connectors 5. Each section is composed of a main tube element 6 provided with at least one auxiliary pipe element 7, also called pipe peripheral. The auxiliary lines called "kill line" or "choke line" are used to ensure the safety of the well during the course of the procedures for controlling the inflow of fluids under pressure in the well. The "choke" line is a safety line that carries fluids (oil, water, gas) from the well during an approach and directs them to the choke manifold and the torch. The line "kill" is a safety line that allows to inject into the well heavy fluids and cements to stop an otherwise uncontrollable eruption. The auxiliary line called "booster line" allows to inject mud into the well in order to increase its speed of ascent and to avoid the sedimentation of the cuttings; it is also used to replace the sludge contained in the riser with water before disconnecting. The pipe called "hydraulic line" allows to control the shutter of the wellhead. The hydraulic lines are used to supply the safety devices of the BOPs (valves and accumulators) with hydraulic fluid (distilled water charged with glycol) under pressure. FIG. 2 diagrammatically represents a section 4 of the riser according to one embodiment of the invention. The section 4 comprises a main tube element 6 whose axis is the axis of the riser. The auxiliary tubes 7 constitute lines or auxiliary lines arranged parallel to the axis of the main tube. The auxiliary tube elements 7 have lengths substantially equal to the length of the main tube element 6, generally between 10 and 30 meters. At least one line 7 is disposed at the periphery of the main tube. In Figure 2, two lines 7 are schematized. A connector 5 shown in FIG. 1 consists of two elements designated, with reference to FIG. 2, by the female connector element 8 and the male connector element 9. The connector elements 8 and 9 are mounted at the ends of the connector main tube element 6. The female connector element 8 is integral with the tube 6, for example by means of welding, screwing, crimping or a wedge connection. The male connector element 9 is integral with the tube 6, for example by means of welding, screwing, crimping or a wedge connection. For this exemplary embodiment illustrated, the assembly of the male connector element 9 with a female connector element 8 of another section forms the connector 5 which transmits forces of a riser section to the next section, including the forces longitudinals to which the riser is subjected. The connector according to the invention is adapted to a drilling riser, for example as described in relation with FIGS. 1 and 2, but the connector according to the invention can also be adapted to a conditioning riser (from the English "completion"), work-over, or production, which has the special feature of not having an auxiliary line. According to the invention, the connector comprises: - a first main tube element extended by a male connector element, the latter may optionally be provided with guide means (for example a male flange) for the passage of a tube element auxiliary (where the riser has at least one auxiliary line), - a second main tube element extended by a female connector element, the latter may optionally be provided with guide means (for example a female flange) for the passage an auxiliary tube member (where the riser has at least one auxiliary line), the male connector member engaging the female connector member for connecting the main tube members and the auxiliary tube members; optionally, a first auxiliary tube element passing through the male flange, - optionally, a second auxiliary tube element passing through the female flange and locking means of the assembly comprising: a locking ring, called an internal locking ring, situated inside the male and female connector elements, the locking ring comprising, on its outer face, a first series and a second series of tenons adapted to cooperate with a third series and a fourth series of tenons disposed respectively on inner surfaces of the male and female connector elements, and o at least one removable peg, the removable peg being arranged in the ring of locking, and being adapted to cooperate with the male connector element to lock the locking ring in translation relative to the male connector element, the removable pin can cooperate in particular with a groove formed in the locking ring, or in particular with a shoulder formed in the locking ring. Thus, thanks to the four sets of tenons, two bayonet type connections are formed: a first between the locking ring and the male connector element, a second between the locking ring and the female connector element. In this way, the locking ring is made removable relative to the male and female connector elements, which allows its inspection and maintenance. The placement of the ring inside the male and female connector elements reduces the size of the connector, and thus provides compactness of the connector. The demountable pin is adapted to cooperate with the male connector element, to prevent axial translation of the locking ring with the male connector element. The removable peg may cooperate in particular with a groove formed in the locking ring or with a shoulder formed in the locking ring. Thus, when assembling two sections by means of the connector, it is possible to prevent disassembly of the locking ring, during assembly or disassembly of the female connector element. Advantageously, the removable pin, once mounted in the locking ring, is projecting on the inner part of the locking ring. The projecting distance of the removable peg may be equivalent to the depth of the groove or shoulder formed in the male connector element. The removable peg can be mounted on the outer surface of the locking ring. The removable peg may be inserted into the lock ring once the first assembly (locking ring and a male connector member) is assembled but not locked. The removable peg may be removed from the lock ring once the second assembly (locking ring and female connector member) is disassembled, and the first assembly (locking ring and male connector member) is unlocked. According to one embodiment of the invention, the tenons of the first and second series of tenons (and a fortiori third and fourth series of tenons) are projecting on identical angular ranges. The angular range of a tenon is the angle formed by the disk portion occupied by the tenon on the diameter in which it is inscribed. For example, if a series of tenons has pins that each represent one-sixth of a disk, then the angular range of the tenon is 60 °. Thus, thanks to this design, the locking and unlocking of the locking ring with respect to the two connector elements can result from a single rotation and becomes simultaneous. In this way, the locking ring is rotated only between two angular positions. According to a first implementation of the invention, the circumferential distributions of the first and second series of tenons are symmetrical with respect to a radial plane passing between the two sets of tenons. In other words, the tenons of the first and second sets of tenons face each other (are aligned). Thus, the locking ring can have a plane of symmetry, which can facilitate its design. According to a second implementation of the invention, the circumferential distributions of the first and second series of tenons are opposite: the circumferential distribution of the second series of tenons is offset relative to the first series of tenons, an angle corresponding to the angular range of a tenon. In other words, the tenons of one series face the intervals of the other series. According to a third implementation of the invention, the circumferential distributions of the tenons of the first and second series are offset relative to each other by an angle corresponding to half the angular range of a post (or any other angle). Alternatively, the tenons of the first and second series of tenons (and a fortiori third and fourth series of tenons) are projecting on different angular ranges. Thus the unlocking of the two bayonet connections is achieved by separate rotations. Preferably, the locking ring can be made in one piece. The connector can be designed and sized to meet the specifications specified by the API 16 R and API 2RD standards issued by the American Petroleum Institute. The various embodiments described above and hereinafter can be combined, so as to combine their effects. According to one embodiment of the invention, the male connector element can be formed with a tip and a sleeve. The tip has a first end to be attached to a main tube member, and a second end, which has on its inner surface, the third set of tenons, which is intended to cooperate with the locking ring. The sleeve abuts against a shoulder of the tip, and is fixed in the tip, at one end of the sleeve, for example by bolting. On the other side, the sleeve protrudes to be fitted into the female connector element. The sleeve has a substantially cylindrical shape. The tip, on its part serving to connect with the locking ring, has an inner diameter greater than the outer diameter of the locking ring. The sleeve comprises, meanwhile, an outer diameter substantially corresponding to the inner diameter of the locking ring. The sleeve has on its outer surface, the groove for receiving at least one removable pin projecting on the inner surface of the locking ring. In this case, the locking ring is inserted between the sleeve and the third and fourth sets of tenons. According to a design of the invention, the removable pin can be threaded. It can then be mounted in the locking ring by screwing. This design allows a quick assembly of the removable peg. In order to facilitate its assembly, the removable peg may be hollow to allow its manipulation with a tool. According to one characteristic of the invention, the pin may be of any shape, in particular of cylindrical shape (of circular or elliptical section), conical, parallelepipedal (of rectangular or square section), etc. The removable peg may be arranged in the locking ring between the first and second sets of tenons. Thus, the removable peg may be substantially in the center of the locking ring. The groove formed in the male connector element (where appropriate in the sleeve) may advantageously have a depth and a width greater than the dimensions of the removable peg, so as to allow the removable peg to slide in the groove, in particular to allow the rotation of the locking ring when the removable peg is mounted. According to one embodiment of the invention, each series of tenons may comprise at least one row of tenons. A tenon row is a circumferential distribution of the tenons. In each row of tenons, there is an alternation of projecting tenons and empty spaces (intervals), these empty spaces allow the passage of the corresponding tenons of the series of tenons with which the row of tenons cooperates. According to one embodiment of the invention, the series of tenons may comprise a plurality of rows of tenons, in particular two or three rows of tenons. The plurality of tenon rows allows a reduction of the axial forces on the tenons, which makes it possible to limit the mechanical fatigue of the tenons. According to one possible design, each series of tenons comprises a single row of tenons. According to a first alternative, each series of tenons comprises two rows of tenons. According to a second alternative, each series of tenons comprises three rows of tenons. According to a third alternative, two of the four sets of tenons comprise a row of tenons, and the two other series comprise two rows of tenons. According to a fourth alternative, two of the four sets of tenons have two rows of tenons, and the other two series have three rows of tenons. In the case where a series of tenons comprises several rows of tenons, then the rows of tenons can be inscribed in different diameters. This design makes it possible to pass the row of tenons of smaller diameter, and thus, it is possible to lock and unlock the bayonet connection by a single rotation. In the case where a series of tenons comprises several rows of tenons, then the rows of tenons can be inscribed in identical diameters. This design imposes an insertion and a locking of the bayonet connection by a relative movement composed of a first translation, a first rotation, a second translation and a second rotation. This design therefore allows better security of the connection because it avoids unwanted disconnection. Each row of tenons comprises a plurality of pins regularly distributed over a diameter. Advantageously, the tenons of the different rows can be arranged to allow a locking 360 °. In one design, the tenon rows may include three studs having an angular range of 60 °, or 40 °. Alternatively, the tenon rows may comprise four studs having an angular range of 45 °, or 30 °. Alternatively, the tenon rows may include five tenons having an angular range of 36 °, or 24 °. According to another alternative, the rows of tenons may comprise six tenons having an angular range of 30 °, or 20 °. Alternatively, the tenon rows may include eight studs having an angular range of 22.5 °, or 15 °. In order to have the projecting lugs on identical angular areas, all the rows of all the post series may have the same number of lugs. According to one embodiment of the invention, the locking means comprise a plurality of removable pins. Thus, it is possible to distribute the forces on the removable counters. For this embodiment, it can be provided a number of removable pins corresponding to the number of tenons of the third series or the fourth set of tenons (a fortiori of the first or third series of tenons). Alternatively, there may be provided a number of removable pins substantially corresponding to half the number of tenons of the third or fourth series of tenons. This alternative makes it possible to obtain a number between pions and forces exerted on the pieces. FIG. 3 illustrates, in a nonlimiting manner, a connector according to one embodiment of the invention, the connector assembles two riser sections. Figure 3 corresponds to a sectional view of the connector. In this figure, only one side of the sectional view is shown, the second side can be deduced by axial symmetry. The axis of the sections and the connector is represented horizontally. In this figure, the flanges and the auxiliary tube elements 7 are shown, but are not necessary for the connector according to the invention. A male connector element 9 is fitted into a female connector element 8. The male connector element 9 comprises a ferrule 20 and a sleeve 21. Locking means lock the assembly. The locking means comprise a locking ring 11. The locking ring 11 comprises, on its outer face, a first series of tenons 15 and a second series of tenons 16. The first series of tenons 15 cooperates with a third series of tenons 17, arranged on the inner face of the male connector element 9, in particular of the endpiece 20. The second series of tenons 16 cooperates with a fourth series of tenons 18, arranged on the inner face of the female connector element 8 In addition, the locking means comprise at least one demountable pin 12. The removable pin 12 is mounted in the locking ring 11, so as to project on its inner portion. The removable peg 12 is adapted to cooperate with a groove formed in the sleeve 21. The removable peg 12 shown has substantially a cylindrical shape with a shoulder. The shoulder allows precise positioning of the removable pin 12 in the locking ring. In addition, the removable pin 12 illustrated is hollow for the passage of a tool for its introduction and / or for a tool for operating the locking ring 11, for example by means of a maneuvering bar. Figure 4 illustrates, without limitation, an enlargement of Figure 3 at the removable pin 12. The removable pin 12 is mounted in the locking ring 11.11 is located between the first set of tenons and the second set of tenons. In addition, the removable pin is located in an interval between the male connector element 9 and the female connector element 8. The removable pin 12 is projecting inside the locking ring 11, and can slide in a groove 19 is formed in the sleeve 21. The groove 19 has dimensions (width, depth) greater than the dimensions (diameter and length for example) of the end of the removable pin to allow the removable pin 12 to slide in the groove. FIG. 5 illustrates, in a nonlimiting manner, according to a sectional view, a tip 20 of a male connector element 9 for the embodiment of FIG. 3. In this figure, the sleeve which is intended to be fixed in FIG. tip 20 is not shown. The tip 20 is a substantially cylindrical piece, including a first end 22, for attachment to a main tube member. The tip 20 of the male connector element 9 comprises, on its inner face, a third series of tenons consisting of two rows of pins 17A and 17B. Row 17A is the most centrally located row of the connector. According to the illustrated embodiment, each row of tenons 17A, 17B comprises four studs having an angular range of 45 °. The two rows of tenons 17A, 17B are inscribed in different diameters. In this way, the insertion and locking in the locking ring (and in reverse the unlocking and withdrawal) are allowed by a single translation. In addition, the circumferential distributions of the tenons of the rows 17A, 17B are alternated: the tenons of the row 17A face the (are aligned with) intervals between two tenons of the row 17B and vice versa. In a nonlimiting manner, this figure shows schematically the shape of the flange which allows the passage of auxiliary tube element. The female connector element may be identical to the nozzle 20 shown in Figure 5. In this case, it has a first end for a second main tube element, and two rows of tenons to form the fourth set of tenons. This embodiment allows a standardization of the connector elements (adaptable piece to the male or female connector element), which facilitates the manufacture. FIG. 6 illustrates, in a nonlimiting manner, a locking ring 11 for the embodiment of FIG. 3. The locking ring 11 is a substantially cylindrical piece. The locking ring 11 comprises, on its outer surface, a first series of tenons 15 and a second series of tenons 16. The first set of tenons 15 is adapted to cooperate with the third series of pins of the male connector element. The second series of tenons 16 is adapted to cooperate with the fourth series of pins of the female connector element. According to the illustrated embodiment, each series of tenons 15, 16 comprises two rows of tenons 15A, 15B and 16A, 16B. The rows 15A and 16A are the rows of tenons most in the center. Each row of tenons has four studs having an angular range of 45 °. In the illustrated example, the tenons of the rows of central tenons 15A, 16A are inscribed in diameters smaller than the diameters of the rows of external tenons 15B, 16B. In addition, the circumferential distributions of the tenons of the rows 15A, 15B are alternated: the tenons of the row 15A face the (are aligned with) intervals between two tenons of the row 15B and vice versa. In the same way, the circumferential distributions of the tenons of the rows 16A, 16B are alternated: the tenons of the row 16A face the (are aligned with) intervals between two tenons of the row 16B and vice versa. In addition, for the illustrated embodiment, the circumferential distributions of the tenons of the first and third series are symmetrical with respect to a radial plane situated between the first and third series of tenons: the tenons of the row 15A face (are aligned with ) to the tenons of the row 16A, and the tenons of the row 15B face (are aligned with) to the tenons of the row 16B. The locking ring 11 also has four orifices 23 for the passage of the removable pins. When the riser is provided with at least one auxiliary line, the male and female connector elements may comprise means for guiding the auxiliary tube elements. These guide means may be a flange (for example formed by an enlargement of the diameter of the male and female connector elements), a support (which may for example be fixed on the male and female connector elements), a guide plate (which may for example be attached to the male and female connector elements) out any similar means. The flange, the support, and the plate may comprise at least one orifice for the passage of the auxiliary tube elements. The connector according to the invention can be provided in such a way that the auxiliary tube element can have a relative movement with respect to the main tube element. For this, the two auxiliary tube elements can be mounted in sliding pivot connection or in sliding connection in the guide means (for example in a support on one side in a guide plate of the other). In the present application, a sliding pivot connection designates a connection which links a first solid to a second solid, the first solid being able to translate relative to the second solid in the direction of an axis, and the first solid that can pivot relative to the second solid. solid around this same axis. Thus, the auxiliary pipe element is slidable and pivotable in its axial direction relative to the main pipe, the auxiliary pipe element not being free of movement in the radial and tangential directions. In the present application, a sliding bond designates a bond which links a first solid to a second solid, the first solid being able to translate relative to the second solid in the direction of an axis. Thus, the auxiliary pipe element can slide in its axial direction relative to the main pipe. Alternatively, the connector according to the invention may be provided such that the auxiliary tube member can have no relative movement with the main tube member. For this, the two auxiliary tube elements may be integrally fixed in the guide means, for example in the two flanges. Thus, the axial stresses can be distributed in the main line and the auxiliary lines. Alternatively, the connector according to the invention can be provided so that, on one side, the auxiliary tube element can have no relative movement with the main tube element, and that, on the other side , the auxiliary tube member may have relative movement with the main tube member. For this, the auxiliary tube element may be integrally attached to a first guide means, for example a flange, and be in sliding pivot connection with a second guide means, for example a flange. The relative movement distance can be limited, for example by a clearance adjustment means. In other words, the riser section comprises at each of its ends connecting means, shown diagrammatically in FIG. one side axially linking an auxiliary pipe element 7 to the main pipe 6 and on the other side forming the sliding pivot connection between the auxiliary pipe element 7 and the main pipe 6. For this latter embodiment, the recess connection between the auxiliary pipe element and the main pipe element is formed at the female connector element, and the sliding pivot connection between the auxiliary pipe element and the main pipe element is made at the male connector element. Alternatively, the connection between the auxiliary pipe element and the main pipe element is formed at the male connector element, and the sliding pivot connection between the auxiliary pipe element and the main pipe element is performed at the female connector element. The auxiliary tubes are subjected to axial compression forces generated by the internal / external pressure difference which generates a "bottom effect" which is applied to the tube ends (for example the auxiliary lines may be subjected to pressures of the order of 1034 bar or 15000 psi). Under these pressures, the elements of the main tube lengthen, and the elements of the auxiliary tubes are shortened until the game is zero. When the game becomes zero, all the lines lengthen identically. The elements of the main tube are likely to lengthen because they must support all or partially, on the one hand the weight of the riser and the weight of the drilling mud, and on the other hand, the tension forces imposed to the riser to keep it substantially vertical. In general, the main tube elements at the top of the riser, that is to say close to the sea surface, undergo the maximum tension forces, so the maximum elongation. The elements of the auxiliary tubes are likely to shorten under the effect of the difference between the internal pressure and the external pressure due to the fluid they contain. Indeed, the fluid applies a pressure on the ends of the auxiliary tube elements by imposing compression forces on the auxiliary tube elements. In addition, the radial deformation of the tube due to the difference between the internal pressure and the external pressure causes a shortening of the tube. In general, the elements at the bottom of the riser, that is to say near the seabed, undergo the maximum internal / external pressure difference, thus the maximum shortening. As long as the clearance is positive, the auxiliary tube element and the main tube element at the same height can vary in length independently of one another. On the other hand, when the clearance becomes zero, that is to say when the game adjustment means is in contact with the flange, the auxiliary tube element and the corresponding main tube element 6 form a hyperstatic assembly: the auxiliary tube element is integral with the main tube element on the one hand at fastening means, and secondly on the abutment which is in contact with the flange. As a result, the main tube element induces tensioning forces in the auxiliary tube element, and vice versa. Thus, these connections make it possible to distribute the tensioning forces applying to each of the sections of the riser, between the main tube 6 and the auxiliary pipe elements. The integration according to the invention via the implementation of the clearance J makes it possible to increase the contribution of the main tube and consequently to reduce the axial forces in the peripheral lines. The reduction of the axial forces in the peripheral lines thanks to this integration has a benefit on the dimensioning of the end pieces and on the dimensioning of the thicknesses of the auxiliary tubes. Advantageously, the game is chosen according to the length of the section, indeed the deformations of the different lines depend on the length thereof. For a typical 75 or 90 ft (22.86 m and 27.43 m) riser section, the clearance can be adjusted between 0 and 1.5 inches (0 and about 38.1 mm). Preferably, the clearance can be selected between 0.1 and 1 inch, (2.54 and 25.4 mm) for optimum distribution of forces in the lines, to cause a decrease in the mass of the riser. Alternatively, the clearance can be selected between 0.1 and 0.25 inches (2.54 and 6.35 mm). Alternatively, the clearance may be between 0.25 and 1 inch (6.35 mm and 25.4 mm). A preferred solution with a good compromise is a clearance of about 0.5 inches (12.7 mm) or an inch (25.4 mm). According to one embodiment of the invention, the auxiliary tube elements are tubes shrunk by reinforcing threads, such as glass, carbon, or aramid fibers embedded in a polymer matrix. Thus, the resistance and the weight of the auxiliary lines are optimized. Indeed, the present invention is particularly suitable for the fretted auxiliary tube elements which have the advantage of reducing the thickness of steel and therefore the weight of the riser. The disadvantage of hooping to have a lower stiffness in bending is compensated by the clearance that limits the buckling of the auxiliary lines. Alternatively, the main tube elements and auxiliary tubes may be composed of metal alloy, for example an aluminum alloy or titanium alloy. In order to facilitate the assembly and to avoid stud locking problems in case of wear, at least one axial play can be achieved between a connector element and the locking ring. The axial clearance is preferably strictly positive. According to one embodiment of the invention, an axial clearance is formed between each connector element and the locking ring. Thus, the problems related to the wear of the tenons can be avoided, which facilitates the manipulation of the locking ring. The two axial sets can be identical or distinct. The axial clearances are distributed in the connector as and when steps of assembly, locking, unlocking, powering up the connector. For example, during assembly, there may be axial play between the tenons cooperating with each other, and once the connector is locked and under tension, there may be axial play between the ends of the two connector elements. Each axial play, strictly positive, may be between 0.5 and 30 mm, and preferably between 0.5 and 10 mm. Beyond 30 mm, the technical effect relating to the avoidance of blocking problems remains present, however, the bulk increases. In addition, according to a design of the connector, the ring may comprise means for limiting the rotation of the ring, for example stops, these means limiting a rotation of the locking ring for an angle equal to the angular range of the tenons. . In addition, according to a feature of the invention, the connector may comprise locking means of the locking ring in at least one position, in particular in the locked position. These means may also make it possible to prevent rotation of the ring relative to the male or female element in the unlocked position. Locking means of the locking ring prevent undesired unlocking of the locking ring. According to a design of the invention, the locking ring may comprise handling means which are external to the locking ring. These handling means make it possible to rotate the locking ring. For example, the handling means may be a manipulation bar. According to one design, the handling means can be inserted into a pawn. In addition, the present invention relates to a riser, comprising at least two riser sections assembled by a connector as described above. The connector may be made according to any combination of the embodiments described above: plurality of removable pins, plurality of rows of tenons, rows of pins inscribed on identical or different diameters, axial clearances ... In addition, the present invention relates to the use of such a riser (with any of the combinations of embodiments previously described) for performing an offshore drilling operation, to produce an offshore oil effluent, for a reconditioning operation ("work-over") ... Furthermore, the present invention relates to a method of assembling two column sections by means of a connector according to the invention. For this method, the following steps can be carried out: a) inserting the locking ring into the male connector element, thus the first main tube element is positioned in the locking ring without being locked; b) inserting at least one removable pin into the locking ring until it penetrates into the groove of the male connector element, so that the first main tube element is positioned in the locking ring, being locked in translation, and still has a rotational movement, so it is not locked; c) inserting the locking ring into the female connector member so as to engage the male connector member in the female connector member, whereby the second main tube member is positioned in the locking ring without being locked; and d) locking the locking ring, by rotation of the locking ring, this single rotation locks the two connector elements which no longer have relative movements with respect to the locking ring. For step d), during locking, the rotation of the ring engenders the respective cooperation of the first and third sets of tenons, and second and fourth sets of tenons. The rotation allowing the simultaneous locking of the two bayonet-type connections is a rotation of an angle corresponding to the angular range of the tenons. For example if the tenons have an angular range of 36 °, then the locking rotation is a rotation of 36 °. For step b), the locking in axial translation of the first main tube element relative to the locking ring is formed in both axial directions by the contact of the peg (s) removable (s) with the groove. The insertion steps consist in setting up the locking ring in the connector element concerned, so that a single subsequent rotation can allow locking of the connector. In some cases, the insertion steps correspond to a single relative translational movement of the ring relative to the connector element. This is the case, for example, when the series of tenons concerned comprises only one row of tenons, or when the series of tenons concerned comprises a plurality of rows of studs inscribed in different diameters. This translation makes it possible to put in position the tenons for the blocking of the bayonet connection. In other cases, the insertion steps correspond to a combined movement comprising a first translation step, followed by a first rotation and followed by a second translation. These are relative movements between the locking ring and the connector element concerned. This is for example the case, when the series of tenons concerned comprises a plurality of rows of studs inscribed in identical diameters. The first two relative movements are used to pass a first row of tenons. The last translation step makes it possible to position the tenons for blocking the bayonet connection. According to one embodiment of the invention, for which several pins are mounted to cooperate with the tenons of the male connector element, and for which the first and the third series of tenons comprise two rows of studs inscribed in different diameters, and the second and fourth sets of tenons comprise two rows of studs inscribed in different diameters, the method may comprise the following steps: a) inserting the locking ring into the male connector element, by means of a single translation; b) the removable pins are inserted into the locking ring; c) inserting the female connector element in the locking ring, by a single translation, so as to fit the male connector element in the female connector element; and d) locking the locking ring by rotation of the locking ring. In addition, the present invention relates to a method of disassembly of two column sections assembled by means of a connector according to the invention. For this method, the following steps can be carried out: a) the locking ring is unlocked, by rotation of the locking ring, this single rotation unlocks the two connector elements which may have relative movements with respect to the locking ring; lock; b) removing the female connector element from the locking ring, so as to release the interlocking of the male connector element of the female connector element, thus, the female connector element is extracted from the locking ring, while the male connector element is unlocked, but is locked in translation in the locking ring, in particular by at least one removable peg; c) removing at least one removable pin from the locking ring, thus the male connector element is positioned in the locking ring, being unlocked and free movement; and d) removing the locking ring from the male connector member, whereby the male connector member is removed from the locking ring. For step a), during unlocking, the rotation of the ring releases the respective cooperation of the first and third sets of tenons, and second and fourth sets of tenons. The rotation allowing the simultaneous unlocking of the two bayonet type connections is a rotation of an angle corresponding to the angular range of the tenons. For example, if the tenons have an angular range of 36 °, then the unlocking rotation is a 36 ° rotation. The removal steps consist in extracting the relevant connector element from the locking ring, from a position where the connector element is positioned in the locking ring. In some cases, the withdrawal steps correspond to a single relative translational movement of the ring relative to the connector element. This is the case, for example, when the series of tenons concerned comprises only one row of tenons, or when the series of tenons concerned comprises a plurality of rows of studs inscribed in different diameters. This translation releases the tenons of the bayonet connection. In other cases, the withdrawal steps correspond to a combined movement comprising a first translation step, followed by a first rotation and followed by a second translation. These are relative movements between the locking ring and the connector element concerned. This is for example the case when the series of tenons concerned comprises a plurality of studs inscribed in identical diameters. The first step of translation makes it possible to disengage the tenons of the second series of tenons. The last two relative movements are used to pass a first row of tenons. Figures 7a and 7b illustrate, without limitation, two steps of the disassembly process. FIG. 7a corresponds to the step of removing the detachable pins 12. FIG. 7b corresponds to the step of removing the locking ring 11 from the male connector element 9. Before removing the removable pins 12, the element female connector (not shown) has been removed. The locking ring 11 is then unlocked (the tenons of the first and third sets of tenons do not cooperate), and the locking ring 11 is held on the sleeve 21 of the male connector element 9 by removable pins 12. The withdrawal detachable pins 12 allows the relative translational movement of the locking ring 11 (Figure 7b) relative to the male connector member, this relative translation allows to remove the locking ring 11, in particular for its maintenance or inspection. According to one embodiment of the invention, for which several pins are mounted to cooperate with the tenons of the male connector element, and for which the first and the third series of tenons comprise two rows of studs inscribed in different diameters, and the second and fourth series of tenons comprise two rows of studs inscribed in different diameters, the method comprises the following steps: a) unlocking the locking ring, by rotation of the locking ring; b) removing the female connector element from the locking ring, by a single translational movement so as to release the interlocking of the male connector element of the female connector element; c) remove the removable pins in the locking ring; and d) removing the locking ring from the male connector element by a single translational movement. For the embodiment, for which two axial clearances are provided on either side between the connector elements and the locking ring, the distribution of the axial clearances is illustrated in FIGS. 8a to 8d for different stages of the assembly. These figures are sectional views similar to the sectional view of FIG. 3, and illustrate steps of assembling the male connector element 9 in the female connector element 8 by means of a locking ring 11 and Removable pins 12. The male connector element comprises a sleeve 21. The locking of the connector can be achieved by the following operations: 1. Approach phase (Figure 8a): interlocking of the male part 9 in the female part 8. The tenons of the locking ring 11 pass between those of the element female 8. 2. The interlocking continues (Figure 8b), the locking ring 11 comes into contact on the inner part of the female element 8. At this stage, a shoulder of the female connector element 8 is in contact C with the end of the locking ring 11, while an axial play J2 exists between the tenons of the second 16 and fourth series 18 tenons, that is to say between the central rows 16A and 18A and between the external rows 16B and 18B of the second and fourth series. 3. At the end of the interlocking (FIG. 8c), the sleeve 21 comes into contact against a shoulder of the female element 8. At this stage, an axial clearance J1 exists between tenons of the first 15 and third 17 sets of tenons. (i.e. between the central rows 15A and 17A and between the outer rows 15B and 17B of the second and fourth series), a shoulder of the female connector element 8 is in contact C with the end of the ring 11, while an axial play J2 between the tenons of the second 16 and fourth series 18 tenons (that is to say between the central rows 16A and 18A and between the outer rows 16B and 18B of the second and fourth series). At the end of this step, the connector is ready to be locked. 4. The rotation of the ring for locking (Figure 8d) comes to coincide the four rows of teeth. This is no longer likely to be impeded because the sliding surface is located on a low demand area. At the end of the locking, the tensioning of the rising conne comes to put the teeth of the two bayonet systems in contact. Thus, a contact C is made at the tenons of the four sets of tenons, and an axial clearance corresponding to the sum J1 + J2 exists between the ends of the sleeve 21 and a shoulder of the female connector element 8. In addition, a play J2 may be present between the end of the locking ring 11 and a shoulder of the female connector element 8. For this example, the axial clearances J1 and J2 are strictly positive, can be different or identical and can be 1,2, 3, 4 or 5 mm. The device according to the invention offers an interesting solution for quickly and simply mounting a riser whose tensioning forces are distributed between the auxiliary tube elements and the main tube. Indeed, the connection of a riser section to another riser section is performed in a single operation by means of the rotation of the locking ring. This connection makes it possible to connect and seal the main pipe element of one section with that of the other section and simultaneously to connect and seal the auxiliary pipe elements of one of the sections. with those of the other section. For the embodiment, for which the riser comprises at least one auxiliary line, the compact connector according to the invention makes it possible to minimize the bending forces in the flanges, and therefore to reduce the dimensions of the flanges and to lighten the weight connectors. Furthermore, the fact that the ring is positioned between the main tube element and the auxiliary tube elements makes it possible to increase the resistance of the connector. Indeed, the ring maintains the flanges and prevents their flexions. In addition, this positioning makes it possible to reduce the problem of interference of the connections of the auxiliary lines, since the bending moments generated by the off-axis axial forces are of opposite signs. In addition, in the locked position, the tenons of the ring are engaged with the tenons of the female connector element which are positioned on the solid part of the female connector element.
权利要求:
Claims (29) [1" id="c-fr-0001] 1) Connector for joining two riser sections, having a first main tube member (6) extended by a male connector member (9), a second main tube member (6) extended by a female connector member (8) the male connector element (9) fitting into said female connector element (8) for connecting said two main tube elements (6), said connector comprising locking means of said assembly comprising a locking ring (11), said locking ring (11) comprising a first (15) and a second (16) series of tenons on its outer surface, and said male (9) and female (8) connector members respectively having on their inner face a third (17) ) and a fourth (18) series of pins cooperating respectively with said first (15) and second (16) series of tenons, characterized in that said locking means further comprise at least one removable peg (12) arranged in said locking ring (11) and cooperating with said male connector member (9) to lock said locking ring (11) in translation relative to said male connector member (9) . [0002] 2) connector according to claim 1, wherein the tenons of the first (15) and second (16) series of tenons are projecting on identical angular ranges. [0003] 3) connector according to one of the preceding claims, wherein said removable pin (12) cooperates with a groove formed in said male connector member (9) or with a shoulder formed in said male connector member (9). [0004] 4) Connector according to claim 3, wherein said male connector element (9) comprises a nozzle (20) and a sleeve (21) comprising said groove (19) or said shoulder, said sleeve (21) being adapted to be fitted into said female connector element (8). [0005] The connector of claim 4, wherein said sleeve (21) is bolted to said tip (20). [0006] 6) connector according to one of the preceding claims, wherein each set of tenons (15, 16, 17, 18) comprises at least one row of tenons, and preferably two rows of tenons. [0007] 7) Connector according to claim 6, wherein the circumferential distributions of said tenons of two rows of consecutive posts of the same series of pins are alternated. [0008] 8) Connector according to one of claims 6 or 7, wherein at least one row of tenons of a series of tenons is inscribed in a different diameter of another row of said series of tenons. [0009] 9) Connector according to one of claims 6 to 8, wherein said rows of tenons of at least one series of tenons are inscribed in identical diameters. [0010] 10) Connector according to one of claims 6 to 9, wherein said locking means comprise a plurality of removable pins (12), preferably a number of removable pins (12) corresponding to the number of pins per row of tenons. [0011] 11) Connector according to one of the preceding claims, wherein said removable pin (12) is threaded, and said removable pin (12) is arranged in said locking ring (11) by screwing. [0012] 12) connector according to one of the preceding claims, wherein said removable pin (12) is arranged in said locking ring (11) between said first (15) and said second (16) series of tenons. [0013] 13) Connector according to one of the preceding claims, wherein said series of tenons (15, 16, 17, 18) comprise at least three pins, and preferably at least four tenons. [0014] 14) Connector according to one of the preceding claims, wherein said male (9) and female (8) connector elements are respectively provided with a flange for the respective passage of a first and a second element (7) of auxiliary tube. [0015] 15) Connector according to claim 14, wherein said auxiliary tube elements (7) are integrally attached to said flanges. [0016] The connector according to claim 14, wherein an auxiliary tube member (7) is integral with one of said flanges, and the other auxiliary tube member (7) is connected by a sliding pivot connection with the other of said flanges, said sliding pivot connection allowing relative translational movement between said main tube member (6) and said auxiliary tube member (7) over a limited distance. [0017] 17) A connector according to claim 14, wherein said two auxiliary tube elements (7) are connected by a sliding pivot connection with said flanges. [0018] 18) Connector according to one of the preceding claims, wherein a first axial play (J1) is provided between said first set of pins (15) and said third set of tenons (17), and a second axial clearance (J2) is provided between said second set of tenons (16) and said fourth set of tenons (18). [0019] 19) The connector of claim 18, wherein said first and second axial sets (J1, J2) are between 0.5 and 30 mm, preferably between 0.5 and 10 mm. [0020] 20) riser comprising at least two riser sections (4) assembled by a connector (5) according to one of the preceding claims. [0021] 21) A method of assembling two sections (4) riser by means of a connector (5) according to one of claims 1 to 19, characterized in that the following steps are carried out: a) said insert is inserted locking ring (11) in said male connector member (9); b) inserting said removable peg (12) into said locking ring (11); c) inserting said locking ring (11) into said female connector member (8); and d) locking said locking ring (11). [0022] The method of claim 21, wherein the locking step is carried out by relative rotation of said locking ring (11) with respect to said main tube members (6). [0023] 23) Method according to one of claims 21 or 22, wherein at least one insertion of said locking ring (11) in said male connector element (9) or female (8) is implemented by a relative translation of said locking ring (11) with respect to said male (9) or female (8) connector element. [0024] 24) Method according to one of claims 21 to 23, wherein at least one insertion of said locking ring (11) in said male connector element (9) or female (8) is implemented by at least a first translation , a first rotation and a second relative translation of said locking ring (11) with respect to said male (9) or female (8) connector element. [0025] 25) A method of disassembly of two sections (4) riser assembled by means of a connector (5) according to one of claims 1 to 19, characterized in that the following steps are carried out: a) it unlocks said locking ring (11); b) removing a first main tube member (6) from said locking ring (11); c) removing said removable peg (12) from said locking ring (11); and d) removing said locking ring (11) from the second main tube member (6). [0026] The method of claim 25, wherein the unlocking step is carried out by relative rotation of said locking ring (11) with respect to said main tube members (6). [0027] 27) Method according to one of claims 25 or 26, wherein at least a withdrawal of at least one main tube member (6) of said locking ring (11) is implemented by a relative translation of said ring locking (11) with respect to said main tube member (6). [0028] 28) Method according to one of claims 25 to 27, wherein at least a withdrawal of at least one main tube element (6) of said locking ring (11) is implemented by a first translation, a first relative rotation and translation of the locking ring (11) relative to said main tube member (6). [0029] 29) Use of a riser according to claim 20 for performing a drilling operation, or reconditioning wells or production at sea.
类似技术:
公开号 | 公开日 | 专利标题 EP3390765B1|2020-05-13|Connector for assembling two riser segments, comprising an internal locking ring and removable pins EP3390767B1|2020-02-19|Connector for assembling two riser segments, comprising an internal locking ring and removable pins EP2360346B1|2013-05-08|Connector for riser lengths comprising flanges, internal locking ring and external annular locking element EP3140493B1|2018-07-25|Section of a riser provided with an inner locking ring and a means for adjusting play between the auxiliary tube elements and the main tube elements EP2225432B1|2011-07-20|Riser pipe segment with flanged auxiliary ducts and bayonet connections EP3449084B1|2020-05-06|Connector for assembling two sections of a riser, comprising an outer locking ring and securing means EP3140494B1|2018-07-25|Section of a riser provided with a locking ring arranged between the main tube and the auxiliary tube FR2956694A1|2011-08-26|UPLINK COLUMN CONNECTOR WITH FLANGES AND EXTERNAL LOCKING RING FR2950924A1|2011-04-08|UPLANT COLUMN WITH RIGID AUXILIARY PIPES AND DECAL CONNECTORS FR2946082A1|2010-12-03|UPLINK COLUMN WITH ADJUSTABLE AUXILIARY PIPES. FR2891579A1|2007-04-06|Riser section for assembling a riser for deep-sea oil drilling and production comprises connectors on the ends of a main pipe and on the ends of auxiliary lines whereby longitudinal forces can be transmitted FR2891577A1|2007-04-06|Riser section for use in deep sea oil drilling has auxiliary conduit fixings that allow rotation relative to main pipe and perpendicular to its axis EP2985407B1|2017-10-11|Riser connector provided with an external locking ring FR2891578A1|2007-04-06|Riser section for deep sea oil deposits has at least one auxiliary conduit connected to main pipe by fixing ring able to transmit longitudinal forces EP3369889B1|2019-08-28|Method for moving a connector joining two sections of a riser by means of a removable locking ring EP3663507A1|2020-06-10|Connector for assembling two sections of a riser with internal locking ring FR2928958A1|2009-09-25|Boring and exploitation system for oil reservoir in sea, has connectors situated above application point and comprising pre-stress exertion units to exert axial pre-stress on ring, and other connectors situated below application point FR2985282A1|2013-07-05|THREADED JOINT WITH LOW VISE TORQUE
同族专利:
公开号 | 公开日 WO2017102220A1|2017-06-22| EP3390765A1|2018-10-24| CN108431364B|2021-04-16| US10704341B2|2020-07-07| EP3390765B1|2020-05-13| US20180363390A1|2018-12-20| CN108431364A|2018-08-21| BR112018010423A2|2018-11-27| FR3045708B1|2018-01-26|
引用文献:
公开号 | 申请日 | 公开日 | 申请人 | 专利标题 FR2925105A1|2007-12-18|2009-06-19|Inst Francais Du Petrole|Riser pipe section for e.g. well drilling field, has main and auxiliary tube elements jointly forming connector that transmits tension force, and locking ring mounted on male connector element, where ring includes series of pin mountings| WO2015169559A1|2014-05-05|2015-11-12|IFP Energies Nouvelles|Section of a riser provided with an inner locking ring and a means for adjusting play between the auxiliary tube elements and the main tube elements|EP3447353A1|2017-08-24|2019-02-27|IFP Energies nouvelles|Driving element with a tube band and tips made of steel with high elastic limit, and method for advancing a riser with such a driving element| FR3089245A1|2018-12-04|2020-06-05|IFP Energies Nouvelles|Connector to assemble two riser sections with internal locking ring|DE2832220C3|1978-07-19|1981-03-12|Mannesmann AG, 4000 Düsseldorf|Plug connection for riser pipes| FR2432672B1|1978-08-03|1982-04-23|Inst Francais Du Petrole| AU2009245441B8|2008-05-04|2012-03-15|Aquatic Company|Aluminum riser assembly| FR2937676B1|2008-10-29|2010-11-19|Inst Francais Du Petrole|METHOD FOR LIFTING A UPRIGHT COLUMN WITH OPTIMIZED WEAR| FR2956693B1|2010-02-23|2012-02-24|Inst Francais Du Petrole|UPRINK CONNECTOR WITH FLANGES, INTERIOR LOCKING RING, AND OUTDOOR LOCKING RING| FR2956694B1|2010-02-23|2012-02-24|Inst Francais Du Petrole|UPLINK COLUMN CONNECTOR WITH FLANGES AND EXTERNAL LOCKING RING| US8746349B2|2011-03-01|2014-06-10|Vetco Gray Inc.|Drilling riser adapter connection with subsea functionality| CN202441272U|2012-02-22|2012-09-19|舒旭辉|Drilling rod| NO337626B1|2013-11-15|2016-05-09|Maritime Promeco As|Stigerørkonnektorsammenstilling| FR3020655B1|2014-05-05|2016-05-06|Ifp Energies Now|UPLINK COLUMN EQUIPPED WITH A LOCKING RING ARRANGED BETWEEN THE MAIN TUBE AND THE AUXILIARY TUBE|DE102014119249A1|2014-12-19|2016-06-23|Festool Gmbh|Suction hose fitting| US9644443B1|2015-12-07|2017-05-09|Fhe Usa Llc|Remotely-operated wellhead pressure control apparatus| WO2019149988A1|2018-01-30|2019-08-08|Wärtsilä Finland Oy|Pipe element and connecting element for starting air system of piston engine| US20190301260A1|2018-03-28|2019-10-03|Fhe Usa Llc|Remotely operated fluid connection|
法律状态:
2016-12-12| PLFP| Fee payment|Year of fee payment: 2 | 2017-06-23| PLSC| Search report ready|Effective date: 20170623 | 2017-12-14| PLFP| Fee payment|Year of fee payment: 3 | 2019-12-23| PLFP| Fee payment|Year of fee payment: 5 | 2020-12-29| PLFP| Fee payment|Year of fee payment: 6 |
优先权:
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申请号 | 申请日 | 专利标题 FR1562605|2015-12-17| FR1562605A|FR3045708B1|2015-12-17|2015-12-17|CONNECTOR FOR ASSEMBLING TWO ROUND COLUMNS WITH INTERNAL LOCKING RING AND REMOVABLE PINS|FR1562605A| FR3045708B1|2015-12-17|2015-12-17|CONNECTOR FOR ASSEMBLING TWO ROUND COLUMNS WITH INTERNAL LOCKING RING AND REMOVABLE PINS| CN201680074489.4A| CN108431364B|2015-12-17|2016-11-15|Connection for assembling two riser sections comprising an inner locking ring and a removable pin| PCT/EP2016/077754| WO2017102220A1|2015-12-17|2016-11-15|Connector for assembling two riser segments, comprising an internal locking ring and removable pins| EP16795361.1A| EP3390765B1|2015-12-17|2016-11-15|Connector for assembling two riser segments, comprising an internal locking ring and removable pins| BR112018010423-0A| BR112018010423A2|2015-12-17|2016-11-15|connector for joining two riser segments with internal locking ring and detachable tops| US16/061,227| US10704341B2|2015-12-17|2016-11-15|Connector for assembling two riser segments, comprising an internal locking ring and removable pins| 相关专利
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