FR2921894A1 - Deck transporting, installing and dismantling structure for fixed/floating offshore oil rig, has shuttle displaced by one of legs between lower position on hull and upper deck lifting position and including unit locking shuttle on leg - Google Patents

Abstract

The structure (10) has a U-shaped floating hull (11) including legs (12) displaced vertically with respect to the hull in floatability, by a mechanical displacement unit (20), where the hull has opposed and parallel lateral branches (11a) connected together by a central branch. A shuttle (30) is associated with each leg and is applied against a lower face of a deck of a fixed/floating offshore oil rig. The shuttle is displaced by one of the legs between a lower position on the hull, and an upper oil rig deck lifting position and has a locking unit that locks the shuttle on the leg. Independent claims are also included for the following: (1) a method of transporting and installing a deck of an offshore oil rig (2) a method of dismantling and transporting a deck of an offshore oil rig.

Description

BACKGROUND OF THE INVENTION The present invention relates to a structure for transporting, installing and dismantling a structure of a platform of a petroleum platform and methods for implementing such a structure. The invention also relates to a method for transporting, installing and dismantling a bridge of an offshore oil platform. oil exploitation, it is known to place over an oil field, an oil platform that includes a bridge including operating equipment and living quarters. The bridge is supported by a support assembly formed by legs resting on the seabed or by a floating column anchored on the sea floor. In order to transport, install and dismantle a deck of an oil platform, several methods are used. One known method is to use barge-mounted lifting cranes to transfer the deck of the transport barge platform to the support assembly. This method, which until now is the most widespread, has limitations. Indeed, the first of these limitations is the capacity of the hoisting cranes which can impose to realize the bridge in several elements which significantly increases the manufacturing cost of this bridge and the cost of the installation and dismantling of said bridge of the oil rig. The second limitation lies in the fact that this method imposes to have a relatively large favorable window of time to be able to carry out this operation at sea under good conditions. Another known method is to install the deck of the oil platform in a single block on the support assembly by floating it. Then, the bridge is disposed on this support assembly either by a ballasting system or by a mechanical system. The main disadvantage of ballasting or deballasting systems is that they depend on sea conditions, which makes it difficult to use them in areas where windows of favorable weather are relatively short. In general, the mechanical systems used to date for the installation and dismantling of a deck of an oil rig are faster than ballast or deballasting systems. Furthermore, FR-A-2 837 461 discloses a structure for transporting, installing and dismantling a bridge of a fixed oil platform which comprises a U-shaped floating hull equipped with at least three lifting legs of this hull and adapted to bear on the seabed and a shuttle movable along said legs by the hull and intended to be applied to the underside of a deck of an oil platform. Thus, during the installation or dismantling of the deck of the platform, the legs are lowered to bear on the seabed and the deck is raised via the shuttle which is itself raised by the hull. In the case of deep-water oilfields, this type of structure can not be used for the installation or dismantling of the deck of an oil platform because the legs must be in contact with the bottom to lift the deck which is impossible for such deposits. The invention aims to avoid these disadvantages by providing a structure that allows the transport, installation or dismantling of a fixed or floating oil platform, both in shallow water in deep water.

To this end, the subject of the invention is a structure for transporting, installing and dismantling a bridge of an offshore oil platform, characterized in that it comprises: a floating hull U-shaped equipped with legs movable vertically relative to the hull buoyancy by means of 30 movement mechanisms, and - associated with each of said legs, a shuttle intended to be applied on the underside of the bridge and movable by the corresponding leg between a low position on the buoyant hull and a high platform platform lifting position, each shuttle being provided with locking means on the corresponding leg. According to particular embodiments: each movement mechanism comprises, on the one hand, two opposite plates, carried by the corresponding leg and each having on each lateral face, a series of teeth and, on the other hand, at least two opposite assemblies, carried by the shell and each formed by a pinion driven in rotation and cooperating with one of the series of teeth, the shell comprises at each leg, means for guiding the corresponding shuttle between the positions, respectively low and high, - each shuttle is formed by a body having a vertical leg extending substantially parallel to the corresponding leg 15 and provided, on the one hand, at its upper part, a plate extending substantially perpendicular to said branch and having an opening having a section of complementary shape to the cross section of the leg and, on the other hand, at its lower part, a sole the horizontal support of the bridge, 20 - the locking means are carried by the plate of each shuttle, - the locking means of each shuttle comprise at least one counter-rack movable by at least one actuating member between a retracted position and a locking position engaged with one of the series of teeth of the corresponding leg; the means for guiding the shuttle of each leg comprise two columns extending substantially parallel to the corresponding leg and two passages formed in the sole of said shuttle, each passage having a section of shape conjugated to the cross section of the corresponding column, the U-shaped floating hull comprises two opposite and parallel lateral branches each carrying at least one leg and interconnected by a central branch, - the two lateral branches and the central branch are floating, - the length of the central branch the is adjustable according to the width of the bridge. the two lateral branches are formed by two floats and the central branch is formed by a transverse beam carried by said lateral branches movable to slide on said beam as a function of the width of the bridge, the shell, at its open portion, comprises a door formed of two opposite beam sections and each sliding on a float sliding between an open position for the positioning of at least one support column below the bridge and a closed position during transport of said bridge. The subject of the invention is also a method for transporting and installing a bridge of a petroleum platform to an operating site, characterized in that it consists of the following steps: - to bring by a floating transport element the platform deck near a floating structure comprising a U-shaped hull equipped with vertically movable legs relative to the buoyant hull and a shuttle associated with each of the legs and displaceable by the corresponding leg, - to bring the floating structure below the deck, - to lower the legs, - to lock each shuttle on the corresponding leg, - to bridge the shuttles and to evacuate the transport element, - to lift the bridge by means of shuttles and legs, the hull remaining buoyant, - to move the structure supporting the bridge to bring this bridge over its support, - to get off the shuttles by means of the legs to lay the bridge on its support, - to lower the legs and shuttles to free the deck of the structure, and - to remove the structure of the site of exploitation. The invention also relates to a method of dismantling and transporting a bridge from a petroleum platform from an operating site to a floating transport element, characterized in that it consists of the following steps: - to bring to the operating site a floating structure comprising a U-shaped hull equipped with legs movable vertically with respect to the buoyant hull and a shuttle associated with each leg and movable by the corresponding leg - to lower the legs, - to lock each shuttle on the corresponding leg, - to lift the bridge from its support via the shuttles and legs, the hull remaining buoyant, 20 - to move the structure supporting the bridge to remove the bridge from its support, - to bring a transport element into the structure and under the bridge, - to lower the shuttles by means of the legs to put the bridge on the transport element, - lowering the legs and shuttles to free the deck of the structure, and - removing the deck from the structure by the transport element. The invention will be better understood on reading the description which will follow, given solely by way of example and with reference to the appended drawings, in which: FIG. 1 is a diagrammatic elevational view of a floating oil platform in operating position, FIGS. 2 and 3 are schematic perspective views of a transport structure, installation and dismantling, according to the invention, respectively, in the receiving position of the deck of the oil platform and in the installation position of this bridge, FIG. 4 is a schematic perspective view of a shuttle of the structure; FIG. 5 is a partial vertical sectional view of the mechanical means for moving a leg of the structure; FIG. 6 is a sectional view along line 5-5 of FIG. 5, - FIG. 7 is a diagrammatic view in vertical section of the locking means of a shuttle on a leg of the structure, according to the invention, - Figs. 8A to 8E are diagrams showing the various stages of transport and installation of a platform by the structure according to the invention; FIG. 9 is a side view of a variant of the structure. Fig. 10 is a schematic perspective view of a variant of the transport structure, installation and dismantling, according to the invention, and - Figs. 11 and 12 are two schematic perspective views of the structure of FIG. 10 and showing the movement of a closing door of the front part of this structure.

In general, the invention applies to any type of fixed or floating oil platform in shallow water or in deep water. In what follows, the description will be made with respect to a floating platform for deep-water oil exploitation. In FIG. 1, there is shown schematically a floating oil platform generally designated by the reference 1 and which comprises, conventionally, a bridge 2 provided with the usual operating equipment and living quarters. This bridge 2 is mounted on a support column 3 forming a float and which is fixed on the seabed, not shown, by anchor lines 4. To ensure transportation, installation (comissioning) and decommissioning the bridge 2 of the oil platform 1 of a transport element 5 (FIG 8A), such as for example a barge, to the support column 3 or vice versa, a structure designated by the general reference 10 and shown in Figs. 2 and 3. In these figures, the general dimensions of the structure 10 as well as the proportions between the various elements composing this structure have not necessarily been respected in order to simplify the understanding of the drawing. In general, the structure 10 comprises a U-shaped floating shell 11 having two parallel and opposite lateral branches 11a interconnected by a central branch 11b. The two lateral branches 11a and the central branch 11b are floating. The hull 11 is equipped with legs 12 movable vertically relative to the hull 11 in buoyancy. In the embodiment shown in Figs. 2 and 3, the shell 11 is equipped with four legs 12 arranged in pairs on each lateral branch 11a of said shell 11. As shown in FIGS. 2, 3 and 5, each leg 12 has, in this embodiment, a triangular section. These legs 12 may also have a square or circular section. Each leg 12 is conventionally formed of three ribs 14 connected to one another by a lattice of metal beams 15 (FIG 6) and is associated with mechanical displacement means designated by the general reference 20 (FIGS. and 5) for each leg 12. The mechanical displacement means 20 are housed in a supporting frame 16 (Fig. 5), also known by the "jack-house" specialists, which is supported by the shell 11. As shown in FIG. Figs. 5 and 6, the mechanical displacement means 20 of each leg 12 comprise, on the one hand, two opposite plates 21 each carried by a rib 14 of the corresponding leg 12 and each having, on each lateral face, a series of teeth 22 forming on the two ribs 14, a double rack. The mechanical displacement means 20 also comprise several sets 25 distributed on either side of each plate 21, according to the height thereof. Each set 25 comprises a geared motor unit 26 for driving a pinion 27 which meshes with a series of teeth 22 of the corresponding plate 21. In the embodiment shown in Figs. 4 and 5, the two series of teeth 22 of each plate 21 are associated with six pinions 27 each driven in rotation by a geared motor unit 26. The structure 10 also comprises, associated with each of the legs 12, a shuttle designated by the general reference 30 which is movable by the corresponding leg 12 between a low positon resting on the hull 11 in buoyancy, as shown in FIG. 2 and a high position, as shown in FIG. 3. The shuttles 30 associated with the legs 12 are moved simultaneously by the legs 12.

As shown in FIG. 4, each shuttle 30 is formed by a body 31 having a vertical leg 32 extending substantially parallel to the ribs 14 of the leg 12 corresponding. In the embodiment shown in Figs. 2 to 4, the vertical branch 32 is formed of two beams 32a vertical and parallel.

The branch 32 is provided, on the one hand, at its upper part, with a plate 33 extending substantially perpendicularly to said branch 32 and, on the other hand, at its lower part, with a horizontal support soleplate 35 Bridge 2 of the platform 1, as will be seen later. The plate 33 has an opening 34 having a section of complementary shape to the cross section of the corresponding leg 12 and, in this case, a triangular section. The plate 33 is connected to the sole 35 by stiffening beams 36. Each shuttle 30 is provided with locking means 40 on the corresponding leg 12.

These locking means 40 shown in more detail in FIG. 7 are formed by at least one counter-rack 41 and, preferably, by at least one counter-rack 41 for each plate 21. The counter-rack 41 is displaceable by at least one actuating member 42 and, preferably, by two actuating members 42 constituted for example by hydraulic or pneumatic cylinders in order to move the counter-rack 41 between a retracted position and a locking position engaged on one of the sets of teeth 22 of the corresponding leg 12. The assembly constituted by the counter-rack 41 and the actuating members 42 is carried by the plate 33 of each shuttle 30. Finally, the shell 11 comprises, at each leg 12, means 50 for guiding the shuttle Correspondingly between the positions, respectively low (Fig.2) and high (Fig.3). As shown in these Figs. 2 and 3, the means 50 for guiding the shuttle 30 of each leg 12 comprise two vertical columns 51 extending substantially parallel to the corresponding leg 12. Each column 51 cooperates with a passage 52 formed in the sole plate 35 of the shuttle 12 and each of these passages 52 has a section of shape conjugate to the section of the corresponding column 51. The two columns 51 are interconnected by a connecting plate 53 extending substantially perpendicularly to said columns 51 and which has a central passage 54 (FIG 3) having a section of complementary shape to the cross section of the corresponding leg 12 and in this case, a triangular section. The connecting plate 53 forms a guide for the corresponding leg 12. During the movement of the shuttle 30 between the low position and the high position by the leg 12, the sole 35 of the shuttle 30 is guided by the columns 51 and in the low position shown in FIG. 2, the plate 31 of the shuttle 30 is supported on the upper end of each column 51. According to a preferred embodiment, the length of the central branch 11b of the shell 11 is adjustable depending on the width of the bridge 2 of the oil platform 1. For this, this central branch 11b can be composed of two sections between which can be mounted one or more intermediate sections 11c to change the length of this central branch 11b.

The transport and installation of the bridge 2 by the structure 10 on an operating site are carried out as follows. The structure 10 is floated near the operating site with the legs 12 raised to not slow its movement.

First, and as shown in FIG. 8A, a floating transport element, such as a barge 5, brings the bridge 2 of the platform 1 near the floating structure 10. The barge 5 is placed between the two lateral branches 11a of the shell 11, the legs 12 of the shell 11 being in an intermediate position or in a fully raised position. Then, these legs 11 are lowered and each shuttle 30 is locked on the corresponding leg 12 according to the lifting height, but preferably on the upper end of said leg. The locking of the shuttles 30 on the legs 12 is achieved by actuating the cylinders 42 so that the counter-racks 41 engage with the teeth 22 adjacent. The bridge 2 is placed on the soles 35 of the shuttles 30 by ballasting the barge 5 and this barge 5 is then evacuated. In the case where the barge 5 does not have a ballasting system, the shuttles 30 are locked on the legs 12 and the legs 12 are raised to lift the deck 2 of the barge 5. The deck 2 is raised via shuttles 30 and legs 12, the shell 11 of the structure 10 remaining buoyant. For this, the geared motor units 26 are actuated to drive the pinions 27 which mesh the series of teeth 22 of the plates 21 of each leg 12 in order to move by means of the legs 12, the shuttles 30 in the raised position of the bridge 2 as shown in FIG. 8C. During the displacement of the legs 12 to lift the bridge 2 by means of the shuttles 30, each shuttle 30 is guided by the columns 51 which slide in the passages 52. These columns 51 also make it possible to maintain the soles 35 in a substantially horizontal position and avoid that the shuttles 30 fall under the weight of the bridge 2. The structure 10 supporting the bridge 2 is moved to bring the bridge 2 above its support constituted by the support column 3.

The shuttles 30 are lowered through the legs 12 to put the bridge 2 on the support column 3, as shown in FIG. 8D. To carry out this operation, the geared motor units 26 are actuated in opposite directions in order to drive the gears 27 in rotation and to lower the legs 12. During the laying of the bridge on the support column 3 (FIGS 8D and 8E) this support column 3 gradually sinks into the water due to the weight of the bridge 2. The legs 12 and the shuttles 30 continue to descend so that the weight of the bridge 2 is fully recovered by the support column 3.

Once the bridge 2 is placed on the support column 3, the legs 12 are lowered, thereby freeing the bridge 2 of the structure 10 (FIG 8E). This structure 10 is then removed from the operating site. The dismantling and transport of the bridge 2 from the operating site to the transport element constituted by the barge 5 are performed by performing the reverse operations which are briefly mentioned below. First, the hull 11 of the floating structure 10 is brought to the operating site and the legs 12 of the hull 11 are lowered. The shuttles 30 are locked on the legs 12 and the hull 11 is moved to bring the support column 3 between the side branches 11a of the hull 11 and to place the shuttles 30 below the deck 2. The shuttles 30 are raised by the legs 12 by means of the displacement mechanisms 20. The soles 35 come into contact with the bridge 2 and this bridge 2 is raised, then the floating structure 10 supporting the bridge 2 is moved to remove the bridge 2 from the support column 3. The barge 5 is brought between the lateral branches 11a of the hull 11 and is placed below the deck 2. The shuttles 30 via the legs 12 are lowered to put the bridge 2 on the barge 5 and these legs 12 and the shuttles 30 are lowered to release the bridge 2 of the structure 10, the bridge 2 now resting on the barge 5. Then, the barge 5 supporting the bridge 2 is removed from the structure 10.

In FIG. 9, there is shown a variant of the structure 10. In this embodiment, the lower ends of the two legs 12 contiguous, that is to say borne by the same side branch 11a of the shell 11 comprise a stabilizer 60 connecting the two lower extremities together. In Figs. 10 to 11, there is shown another variant of the structure 10 showing respectively in FIG. The rear part of the structure 10 and Figs. 11 and 12 the front portion of said structure 10 which is introduced the support column 3 of the bridge 2, as will be seen later.

In these figures, the elements common to the previous embodiment have been designated by the same references. In this embodiment, the structure 10 is formed by a floating shell 71 having two lateral branches 71a and a central branch 71b connecting the two lateral branches 71a.

The two lateral branches 71a are formed by two floats 72a extending parallel to one another and forming between them a free space and the central branch 71b is formed by a transverse beam 72b carried by said lateral branches 71a, as shown in Fig.10. Preferably, the transverse beam 72b is constituted by a grid of tubes 75 interconnected by longitudinal members 76. The lateral branches 71a of the structure 10 are displaceable by sliding relative to each other on the transverse beam 72b so as to adjust their spacing according to the width of the bridge 2. For this, each float 72a each forming a lateral branch 71a comprises means 73 for displacement on the transverse beam 72b formed for example by a set comprising for example rails guide and rack-and-pinion system, not shown and of known type. In addition, each float 72a constituting the lateral branches 71a is equipped with locking means, not shown, on the transverse beam 72b so as to maintain the spacing between these lateral branches 71a constant and determined.

As shown in Figs. 11 and 12, the shell 71 has, at its open portion, that is to say opposite the central branch 71b, a door generally designated by the general reference 80. This door 80 is formed of two sections of beam 81 opposite and movable by sliding each on a float 72a. The two beam sections 81 are movable between a closed position of the entrance of the structure 10, as shown in FIG. 11 in which they are brought together and in contact with each other and a spaced apart position, as shown in FIG. 12 in which they release the entry of the structure 10 for the positioning of the support column 3 below the bridge 2. For this, each float 72a each constituting a lateral branch 71a of the shell 71 comprises displacement means 82 of each beam section 81. These means 82 are constituted for example by an assembly comprising guide rails and a rack-and-pinion system or by any other means of known type. Finally, each float 72a also comprises locking means, not shown, of the beam section 81 corresponding in the closed position or in the open position. As in the previous embodiment, the shell 71 is also equipped with legs 12 movable vertically relative to said hull 71 in buoyancy by means of displacement mechanisms and, associated with each of said legs, a shuttle 30 intended to be applied on the lower face of the bridge 2 and movable by the corresponding leg 12 between a low position on the hull 71 in buoyancy and a high lifting position of the bridge 2 of the platform 1, each shuttle 30 being provided with locking means on the corresponding leg 12 . The transport and installation of the bridge 2 as well as the dismantling of this bridge 2 with the shell 71 are carried out in identical manner to the previous embodiment, except that it is necessary to open and close the door 80 for laying the bridge 2 on the shuttles 30 and also for the positioning of the support column 3 below the deck 2.

In this embodiment, the rigidity of the shell 11 is obtained by the transverse beam 72b constituting the central branch 71b of the shell 71 and also by the door 80, in the closed position. In this closed position of the door 80, the two beam sections 81 are interlocked with each other by appropriate means, of the con nu type, not shown. The structure according to the invention has the advantage of being able to transport, install and dismantle a deck of an oil platform in shallow water or in deep water, without any modification and in complete safety.

Claims (21)

1. Structure for transporting, installing and dismantling a bridge (2) of an offshore oil rig (1), characterized in that it comprises: - a hull (11 .71 U-shaped float equipped with legs (12) movable vertically relative to the hull (11; 71) in buoyancy by means of displacement mechanisms (20), and associated with each of said legs (12), a shuttle ( 30) intended to be applied on the lower face of the bridge (2) and movable by the corresponding leg (12) between a low position on the hull (11; 71) in buoyancy and a high lifting position of the bridge (2) of the platform (1), each shuttle (30) being provided with locking means (40) on the corresponding leg (12). 2. Structure according to claim 1, characterized in that each displacement mechanism (20) comprises, firstly, two plates (21) opposite, carried by the corresponding leg (12) and each having on its lateral face, a series of teeth (22) and, on the other hand, at least two sets (25) opposite, carried by the shell (11; 71) and each formed by a pinion (27) driven in rotation and cooperating with one of series of teeth (22). 3. Structure according to claim 1 or 2, characterized in that the shell (11; 71) comprises, at each leg (12), means (50) for guiding the corresponding shuttle (30) between the positions, respectively low and high. 4. Structure according to any one of claims 1 to 3, characterized in that each shuttle (30) is formed by a body (31) having a vertical leg (32) extending substantially parallel to the leg (12) corresponding and provided, on the one hand, at its upper part, with a plate (33) extending substantially perpendicularly to said branch (32) and having an opening (34) having a section of shape complementary to the cross section of the leg (12) and, on the other hand, at its lower part, a sole (35) horizontal bridge support (2). 5. Structure according to any one of claims 1 to 4, characterized in that the means (40) for locking are carried by the plate (33) of each shuttle (30). 6. Structure according to any one of claims 1 to 5, characterized in that the means (40) for locking each shuttle (30) comprises at least one counter-rack (41) movable by at least one actuating member (42) between a retracted position and a locking position engaged with one of the series of teeth (22) of the corresponding leg (12). 7. Structure according to any one of claims 1 to 6, characterized in that the means (50) for guiding the shuttle (30) of each leg (12) comprise two columns (51) extending substantially parallel to the leg (12) corresponding and two passages (52) formed in the sole (35) of said shuttle (12), each passage (52) having a section of shape conjugated to the cross section of the corresponding column (52). 8. Structure according to any one of the preceding claims, characterized in that the hull (11; 71) U-shaped floating comprises two lateral branches (11a; 71a) opposite and parallel, each carrying at least one leg (12) and interconnected by a central branch (11b; 71b). 9. Structure according to claim 8, characterized in that the two lateral branches (11a) and the central branch (11b) are floating. 10. Structure according to claim 9, characterized in that the lengths of the central branch (11b) is adjustable depending on the width of the bridge (2). 11. Structure according to claim 8, characterized in that the two lateral branches (71a) are formed by two floats (72a) and the central branch (71b) is formed by a transverse beam (72b) carried by said lateral branches (71a). ) slidably movable on said beam (72b) depending on the width of the bridge (2). 12. Structure according to claim 11, characterized in that each float (72a) comprises means (73) for displacement on the transverse beam (72b) formed for example by a set comprising guide rails and a rack-and-pinion system. 13. Structure according to claim 11 or 12, characterized in that each float (72a) comprises locking means on the beam (72b). 14. Structure according to any one of claims 11 to 15, characterized in that the shell (71), at its open portion, comprises a door (80) formed of two beam sections (81) opposite and displaceable by each sliding on a float (72a) between an open position for positioning at least one support column (3) below the bridge (2) and a closed position during transport of said bridge (2). 15. Structure according to claim 14, characterized in that each float (72a) comprises means (82) for moving each beam section (81) formed for example by a set comprising guide rails and a rack-and-pinion system . 16. Structure according to claim 14 or 15, characterized in that each float (72a) comprises locking means of the corresponding beam section (81). 17. Structure according to any one of the preceding claims, characterized in that the lower ends of two legs (12) carried by each lateral branch (11a; 71a) of the shell (11; 71) are interconnected by a stabilizer. (60). 18. A method of transporting and installing a bridge (2) of a petroleum platform (1) to an operating site, characterized in that it consists of the following steps: - to bring by a floating transport element (5), the bridge (2) of the platform (1) near a floating structure (10) having a U-shaped shell (11; 71) with legs ( 12) movable vertically relative to the hull (11; 71) in buoyancy and a shuttle (30) associated with each leg (12) and movable by the leg (12) corresponding - to bring the structure (10) floating at below the bridge (2), - to lower the legs (12), - to lock each shuttle (30) on the corresponding leg (12), - to put the bridge (2) on the shuttles (30) and discharging the transport element (5), - lifting the bridge (2) via the shuttles (30) and legs (12), the hull (11; 71) remaining in buoyancy, - moving the structure ( 10) supporting the bridge (2) to bring the bridge (2) over its support (3), - to descend the shuttles (30) via the legs (12) to put the bridge (2) on its support (3), - to lower the legs (12) and the shuttles (30) to release the bridge of the structure (10), and - to remove the structure (10) of the operating site. 19. The method of claim 10, characterized in that the bridge (2) is placed on the shuttles (30) by ballasting the transport element (5). 20. The method of claim 10, characterized in that one places the bridge (2) on the shuttles (30) by lifting the legs (12) and shuttles (30). 21. A method of dismantling and transporting a bridge (2) from a petroleum platform (10) from an operating site to a float transport member (5), characterized in that it consists of the following steps: - to bring to the operating site a structure (10) floating comprising a shell (11; 71) U-shaped equipped with legs (12) movable vertically relative to the shell (11; 71) and a shuttle (30) associated with each of the legs (12) and movable by the leg (12) corresponding, - to lower the legs (12), - to lock each shuttle (30) on the leg (12) correspondingly, - lifting the bridge (2) from its support (3) via the shuttles (30) and legs (12), the hull (11; 71) remaining in buoyancy, - moving the structure (3) 10) supporting the bridge (2) to remove said bridge (2) from its support (3), - to bring into the structure (10) and below the bridge (2) the element (5) of t ransport, - to descend the shuttles (30) via the legs (12) to put the bridge (2) on the element (5) transport, - to lower the legs (12) to bring the shuttles (30) ) to release the bridge (2) of the structure (10), and - to remove the bridge (2) of the structure (10) by the transport element (5).