CN214695517U - Self-elevating platform system - Google Patents

Abstract

The utility model provides a pair of from lift-type platform system, include: a jack-up platform on which a jack-up device is provided, the jack-up device being adapted to be detachably connected to a water bottom and to adjust a vertical height of the jack-up platform; the conveying device comprises a conveying carrier and a track assembly, the conveying carrier is suitable for advancing along a bearing surface and conveying chunks to the self-elevating platform and the foundation, and the track assembly is connected with the self-elevating platform and the foundation and is suitable for bearing the conveying carrier. The self-elevating platform is fixed at the bottom, the height of the self-elevating platform is adjusted along the vertical direction, the height difference between the self-elevating platform and a dock and a foundation is reduced, and the conveying carrier is convenient to convey the block from the dock to the self-elevating platform and from the self-elevating platform to the foundation.

Description

Self-elevating platform system

Technical Field

The utility model relates to a marine power generation technical field, concretely relates to self-elevating platform system.

Background

With the rapid development of the offshore wind power industry, offshore wind farms are gradually developing to deep and open seas in a large scale. The booster station serving as the offshore wind field power transmission transfer station is also larger in scale, so that the weight of a booster station block is heavier and heavier. In China, the offshore booster station blocks are mostly hoisted by large-scale floating cranes, namely, the blocks are hoisted to the foundation by the floating cranes to be assembled, and after partial booster station blocks in shallow water areas utilize the bottom of a semi-submersible ship seat, the blocks are translated to the foundation by a carrier to be assembled with the foundation.

However, installation of a heavy booster station block usually requires several thousand-ton floating cranes with a hoisting level, the number of the floating cranes in this scale is limited in China, and resource selection is difficult, while a semi-submersible ship is used for installing the booster station block in a sliding manner, and the semi-submersible ship needs to be seated, so that the installation mode can be only used in shallow water areas, and good sea conditions are required, so that the scheme has more limitation conditions and poor universality.

SUMMERY OF THE UTILITY MODEL

Therefore, the to-be-solved technical problem of the utility model lies in overcoming among the prior art the booster station chunk installation of offshore wind field and having the defect of equipping the resource shortage or installing the commonality poor to a self-elevating platform system is provided.

The utility model provides a self-elevating platform system, include:

a jack-up platform on which a jack-up device is provided, the jack-up device being adapted to be detachably connected to a water bottom and to adjust a vertical height of the jack-up platform;

the conveying device comprises a conveying carrier and a track assembly, the conveying carrier is suitable for advancing along a bearing surface and conveying chunks to the self-elevating platform and the foundation, and the track assembly is connected with the self-elevating platform and the foundation and is suitable for bearing the conveying carrier.

The track assembly includes: a track beam adapted to connect the foundation and the jack-up platform;

and the track supporting structure is connected with the track beam, is suitable for bearing the track beam, and comprises a first supporting structure arranged on the self-elevating platform and a second supporting structure arranged on the foundation.

First bearing structure follows jack-up platform's edge sets up, its top terminal surface with jack-up platform's deck laminating sets up, is between its side direction terminal surface and the top terminal surface and buckles the setting, and with jack-up platform's topside laminating, be provided with a plurality of accommodate openings that extend to the side direction terminal surface on the top terminal surface, accommodate opening is suitable for to bear and spacing track roof beam.

The second support structure includes: the bearing main body penetrates through the supporting legs of the foundation, is fixedly connected with the supporting legs, corresponds to the accommodating opening and is suitable for bearing the track beam;

and the limiting parts are arranged on the bearing main body, are respectively arranged on two sides of the supporting leg and are suitable for limiting the track beam.

The jack-up platform further comprises a crane adapted to mount the track assembly on the foundation and the jack-up platform.

The conveying carrier comprises a plurality of conveying vehicles, wherein a bearing plate, a height adjusting device and a first power part are arranged on the conveying vehicles, the conveying carriers are suitable for moving under the action of the first power part, and the height adjusting device is suitable for adjusting the moving height of the bearing plate.

The conveying carrier further comprises chunk supporting structures, the chunk supporting structures are uniformly arranged along the bearing plate, arranged between the bearing plate and the chunks and suitable for bearing the chunks.

The self-elevating platform is also provided with a platform supporting structure which is suitable for being fixedly arranged on the self-elevating platform, the block and the block supporting structure.

The jack-up platform system further comprises an orbital traction system comprising:

one end of the traction part is connected with the track beam;

and the second power part is arranged on the self-elevating platform and is connected with the other end of the traction part.

The track traction system further comprises a redirection piece comprising:

a fixing member disposed along the rail support structure in an extending direction toward the self-elevating platform;

the pulley piece is arranged adjacent to the fixed piece, and the traction part is arranged along the circumferential direction;

and the shackle is detachably connected with the fixing piece and the pulley piece.

The second power part is a crane on the self-elevating platform.

The self-elevating device comprises a plurality of adjustable supporting legs and a lifting driving device, the adjustable supporting legs penetrate through the self-elevating platform and have a working state fixed to the water bottom and a sailing state separated from the water bottom, and the self-elevating platform is suitable for lifting movement of the adjustable supporting legs along the working state under the action of the lifting driving device.

And the plurality of adjustable supporting legs are uniformly arranged along the self-elevating platform.

The foundation is a jacket.

The utility model discloses technical scheme has following advantage:

1. the utility model provides a pair of from lift-type platform system, include: a jack-up platform having a jack-up device disposed thereon, the jack-up device adapted to be detachably connected to a water bottom and adjust a vertical height of the jack-up platform; the conveying device comprises a conveying carrier and a track assembly, the conveying carrier is suitable for advancing along a bearing surface and conveying chunks to the self-elevating platform and the foundation, and the track assembly is connected with the self-elevating platform and the foundation and is suitable for bearing the conveying carrier.

The self-elevating platform is provided with the self-elevating device and the conveying device comprising the conveying carrier and the track assembly, so that the self-elevating platform can be detachably fixed and positioned at the bottom of the water, the navigation or fixation control of the self-elevating platform is realized, the transfer of the block of the self-elevating platform on a wharf is improved, the stability of the self-elevating platform when the track assembly is erected and the block is installed on the foundation is improved, the self-elevating platform can adapt to different sea condition conditions, and the position adjustment between the self-elevating platform and the foundation of the block to be installed is facilitated; on the other hand, can also realize self-elevating platform along the altitude mixture control of vertical direction after self-elevating device is fixed at the bottom, reduce the difference in height between self-elevating platform and pier and the basis, be convenient for utilize transport carrier from the pier to self-elevating platform and from self-elevating platform to the basis on transport the chunk.

In addition, the height difference is reduced through a height adjusting mode, and the arrangement of the rail assembly is combined, so that a conveying carrier advancing along the bearing surface can convey chunks with large weight, the hoisting requirement on the chunks is avoided, a large floating crane in the prior art is effectively replaced, the equipment resource requirement is reduced, meanwhile, redundant arrangement space exists on a deck of the self-elevating platform, construction resources can be shared with a fan, the universality of platform installation and use is improved, and the defect that equipment resources are in shortage or the installation universality is poor in the installation of booster station chunks of an offshore wind field in the prior art is overcome.

2. The utility model provides a from lift-type platform system, first bearing structure follow from lift-type platform's edge sets up, its top side terminal surface with from lift-type platform's deck face laminating sets up, is the setting of buckling between its side direction terminal surface and top side terminal surface, and with from lift-type platform's topside laminating, be provided with a plurality of accommodate openings that extend to the side direction terminal surface on the side direction terminal surface, accommodate opening is suitable for to bear and spacing the track roof beam.

The first supporting structure is arranged, on one hand, the first supporting structure is clamped and arranged on the deck side edge of the self-elevating platform in a bending mode by arranging the lateral end face and the top side end face, and bears and limits the track beam through the accommodating opening on the top side end face, so that the track beam and the deck side edge of the self-elevating platform can be arranged in a flush mode while the installation stability of the track beam is ensured, and a conveying carrier can be conveyed along the track beam conveniently; on the other hand, the accommodating opening extends to the lateral end face, so that the size and the weight of the first supporting structure are reduced, installation of constructors is facilitated, meanwhile, a supplementary limiting structure can be arranged on the track beam and is matched with the accommodating opening of the extending part, and the stability of the track beam matched with the first supporting structure is improved.

3. The utility model provides a from lift-type platform system, carry the carrier and include a plurality of delivery trucks, be provided with the loading board on it, heighten device and first power portion, carry the carrier and be suitable for the effect of first power portion moves down, heighten the device and be suitable for the regulation the free height of loading board.

The first power part is arranged to provide a power source for the conveying carrier to advance, the bearing plate and the heightening device are arranged at the same time, the bearing plate is controlled to lift through the heightening device, the vertical height of the conveying carrier is further controlled, the conveying carrier can move to the bottom side of the chunk after the height of the bearing plate is lowered, and the chunk is supported through the heightening of the bearing plate.

4. The utility model provides a from lift-type platform system carries the carrier and still includes chunk bearing structure, chunk bearing structure follows the loading board evenly sets up, and place in the loading board with between the piece, be suitable for to bear the chunk.

The arrangement of the chunk supporting structure facilitates uniform load transmission, the weight of the chunks can be uniformly dispersed on the bearing plate, and the bearing capacity of the conveying carrier is improved.

5. The utility model provides a from lift-type platform system, still be provided with platform bearing structure on the platform of lifting from lift, be suitable for fixedly locating from lift platform is last the chunk reaches chunk bearing structure.

After the conveying carrier conveys the chunk to the hull from the wharf, the height of the bearing plate is adjusted through the heightening device, the chunk is unloaded to the platform supporting structure, the platform supporting structure is arranged, on the one hand, the effect of fixing the chunk is achieved, the situation that the chunk is deviated or even overturned in the process of advancing from the lifting platform at sea is avoided, the stability of chunk installation is improved, on the other hand, the platform supporting structure replaces the conveying carrier on the lifting platform to bear the chunk, the load of the conveying carrier is reduced, and the service life of the conveying carrier is prolonged.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a self-elevating platform system provided in an embodiment of the present invention at a stage of transferring a block from a dock to the self-elevating platform;

fig. 2 is a schematic top view of the jack-up platform system of fig. 1 at a stage of transferring the blocks from the dock to the jack-up platform;

FIG. 3 is a schematic view of the transport vehicle of the jack-up platform system of FIG. 1 in transferring the blocks;

fig. 4 is a schematic structural view of the jack-up platform system of fig. 1 when a track beam is installed from the jack-up platform to the foundation;

FIG. 5 is a schematic diagram of a first support structure of the jack-up platform system of FIG. 1;

FIG. 6 is a schematic view of the first support structure of FIG. 5 installed on a self-elevating platform;

FIG. 7 is a schematic view of the first support structure of FIG. 6 at another angle when installed on a self-elevating platform;

FIG. 8 is a schematic diagram of the jack-up platform system of FIG. 1 with a second support structure disposed on the foundation;

FIG. 9 is a schematic view of a portion of the second support structure shown in FIG. 8 when installed on a foundation;

FIG. 10 is a schematic diagram of the jack-up platform system of FIG. 1 in conveying blocks from the jack-up platform to a foundation;

fig. 11 is a schematic diagram of the jack-up platform system of fig. 1 after the transport vehicle is retrieved from the foundation to the jack-up platform;

fig. 12 is a schematic diagram of the jack-up platform system of fig. 1 in a configuration in which the track assembly is retracted from the foundation to the jack-up platform;

fig. 13 is a schematic structural view of a redirecting portion of the jack-up platform system of fig. 1.

Description of reference numerals:

1-a self-elevating platform; 11-a self-elevating device; 12-a crane; 13-a platform support structure; 2-a transport vehicle; 21-a carrier plate; 22-a height-adjustment device; 23-a block support structure; 31-a track beam; 32-a first support structure; 321-topside end face; 322-a receiving opening; 323-lateral end faces; 33-a second support structure; 34-a carrier body; 35-a limiting part; 4-a rail traction system; 41-a traction part; 42-a redirection piece; 421-a fixing piece; 422-pulley member; 423-shackle; 5-a base; 51-a leg; 6-a wharf; 7-a chunk; 8-water surface; 9-water bottom.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the accompanying drawings, and obviously, the described embodiments are some, but not all embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Furthermore, the technical features mentioned in the different embodiments of the invention described below can be combined with each other as long as they do not conflict with each other.

As shown in fig. 1 to 13, the present embodiment provides a jack-up platform system including a jack-up platform 1 and a transporting means.

The jack-up platform 1, which can be used as a ship to sail on the water surface 8, has a platform deck on the top surface, and a deck space is arranged in the middle of the deck, and in the embodiment, the area has no bulge 1.5m higher than the deck and has no interference in the height range of 25-30 m from the deck, and the block is fixed in the area of the platform during the marine transportation.

The jack-up platform 1 is provided with a jack-up unit 11, and the jack-up unit 11 may be detachably connected to the water bottom 9. The jack-up unit 11 includes a plurality of adjustable legs 51 and a lifting driving unit. In this embodiment, four adjustable legs 51 are parallel to each other and uniformly arranged on the jack-up platform 1 along the periphery of the deck space, the adjustable legs 51 pass through the jack-up platform 1 and are movably connected with the jack-up platform 1, and in this embodiment, the adjustable legs 51 are vertically arranged with the jack-up platform 1. As an alternative embodiment, the adjustable legs 51 are at a fixed angle with the jack-up platform 1, which may be less than 90 degrees. Furthermore, the adjustable legs 51 have an operative condition, in which they are fixed to the water bottom 9, and a sailing condition, in which they are free from the water bottom 9. The lifting driving device is arranged on the periphery of the adjustable supporting leg 51 on the self-elevating platform 1 and can provide power for the relative movement between the self-elevating platform 1 and the adjustable supporting leg 51. As an alternative embodiment, the lifting drive can also be provided on the adjustable leg 51. The jack-up platform 1 can be lifted and lowered along the adjustable legs 51 in the working state by the lifting and lowering driving device.

The conveying device comprises a conveying carrier 2 and a rail assembly, wherein the conveying carrier 2 can bear a block 7 of the offshore booster station and can advance by taking a wharf 6, a deck of the self-elevating platform 1 and the rail assembly as bearing surfaces to convey the block 7 to the self-elevating platform 1 and the foundation 5 respectively. The track assembly is detachably connected with the self-elevating platform 1 and the foundation 5 and used for bearing the conveying carrier 2. In the present embodiment, the foundation 5 is a jacket, and as an alternative embodiment, the foundation 5 may be a pile foundation 5.

The self-elevating platform 1 is provided with the self-elevating device 11 and the conveying device comprising the conveying carrier 2 and the track assembly, the self-elevating platform 1 can be detachably fixed and positioned at the water bottom 9 through the self-elevating device 11, the sailing or fixing control of the self-elevating platform 1 is realized, the stability of the self-elevating platform 1 in the wharf 6 for transferring the block 7 and the stability of the track assembly and the block 7 for installing are improved when the track assembly and the block 7 are erected on the foundation 5, the self-elevating platform can adapt to different sea conditions, and the position adjustment between the self-elevating platform 1 and the foundation 5 of the block 7 to be installed is facilitated; on the other hand, after the self-elevating device 11 is fixed at the water bottom 9, the height adjustment of the self-elevating platform 1 along the vertical direction can be realized, the height difference between the self-elevating platform 1 and the wharf 6 and the foundation 5 is reduced, and the conveying carrier 2 is convenient to convey the block 7 from the wharf 6 to the self-elevating platform 1 and from the self-elevating platform 1 to the foundation 5.

In addition, the height difference is reduced through a height adjusting mode, and the arrangement of a track assembly is combined, so that the conveying carrier 2 advancing along the bearing surface can convey the chunk 7 with heavy weight, the hoisting requirement on the chunk 7 is avoided, a large-scale floating crane in the prior art is effectively replaced, the equipment resource requirement is reduced, meanwhile, redundant arrangement space exists on a deck of the self-elevating platform 1, construction resources can be shared with a fan for installation, the universality of platform installation and use is improved, and the defects of equipment resource shortage and poor installation universality in the installation of the chunk 7 of the booster station in the offshore wind field in the prior art are overcome.

The track assembly includes: a track beam 31 and a track support structure.

In this embodiment, the track beam 31 is a plurality of column-shaped straight beams, after the block 7 is transported from the wharf 6 to the jack-up platform 1, the track beam 31 is fixedly arranged on the upper side of the block 7, on the one hand, an installation space is provided for the track beam 31, the use efficiency of a deck of the jack-up platform 1 is improved, and the stability of the track beam 31 in the transportation process is improved, on the other hand, after the jack-up platform 1 sails and stops at a position adjacent to the foundation 5, the track beam 31 can be detached in advance and installed between the jack-up platform 1 and the foundation 5 to be used as a bearing device of the transportation carrier 2, and the convenience of installing the track beam 31 is improved.

The track support structure, including the first support structure 32 and the second support structure 33, is arranged on the jack-up platform 1 and the foundation 5, respectively, is fixedly connected with the track beam 31, and is adapted to bear the track beam 31.

The first support structure 32 is bent and disposed along the edge of the jack-up platform 1, and includes a top end face 321 and a lateral end face 323 that are fixedly connected. In this embodiment, the bottom side of the top end face 321 is attached to the deck of the jack-up platform 1, and a plurality of receiving openings 322 are provided thereon, and the receiving openings 322 extend to the lateral end face 323, so that the top end face 321 is composed of three support beams arranged along the same plane, and the receiving openings 322 can carry and limit the track beam 31; the lateral end face 323 is attached to the side of the jack-up platform 1, and is provided with a receiving opening 322 partially extending from the top end face 321, and the bottom side of the receiving opening 322 on the lateral end face 323 is a support surface of the track beam 31 and is adapted to engage with and support the track beam 31.

The first supporting structure 32 is arranged, on one hand, through arranging the lateral end face 323 and the top end face 321, the first supporting structure is clamped and arranged on the side edge of the deck of the self-elevating platform 1 in a bending mode, and the track beam 31 is borne and limited through the accommodating opening 322 on the top end face 321, so that the track beam 31 can be ensured to be arranged flush with the deck surface of the self-elevating platform 1 while the installation stability of the track beam 31 is ensured, and the transportation of the transportation carrier 2 along the track beam 31 is facilitated; on the other hand, the accommodating opening 322 extends to the lateral end face 323, which not only reduces the volume and weight of the first supporting structure 32 and facilitates installation of constructors, but also can provide a supplementary limiting structure on the track beam 31 and match with the accommodating opening 322 of the extending part, thereby increasing the stability of matching the track beam 31 and the first supporting structure 32.

The second support structure 33 comprises a carrier body 34 and a stop portion 35.

The bearing main body 34 is in a trapezoid box shape, and is inserted through the support leg 51 of the foundation 5 along the middle part and fixedly connected with the support leg, in this embodiment, the top surface of the bearing main body 34 is provided with bearing surfaces along the two sides of the support leg 51, and is suitable for bearing the track beam 31, and the bearing surfaces are flush with the accommodating opening 322; the stopper 35 is plate-shaped, is provided on the edges of the bearing surfaces on both sides of the leg 51, and protrudes upward to be able to stop the track beam 31. In this embodiment, the second support structure 33 is installed on the legs 51 of the foundation 5 after the self-elevating platform 1 has sailed to the side of the foundation 5, and the second support structure 33 may be preset on the foundation 5 as an alternative embodiment.

Still be provided with loop wheel machine 12 on jack-up platform 1 for jack-up platform 1 can install or dismantle second bearing structure 33 on basis 5 after sailing to the adjacent position with basis 5, and erect or dismantle track roof beam 31 between basis 5 and jack-up platform 1, compare the large-scale floating crane who is used for hoist and mount chunk 7 among the prior art, the loop wheel machine 12 that sets up in this embodiment only needs the less track subassembly of conveying quality, the optional wide range, specifically select for small-size loop wheel machine 12, there is the problem of equipping the resource shortage in the installation of booster station chunk 7 of effectively overcoming marine wind field among the prior art.

In the present embodiment, the transport vehicle 2 includes a plurality of transport vehicles, specifically, an axle vehicle, also called a hydraulic flat car, the bottom of which is a tire and can move in the horizontal direction, and the upper part of which is provided with a plate-shaped carrier plate 21. The bearing plate 21 is provided with a height-adjusting device 22, and a hydraulic system is arranged in the height-adjusting device 22 and can adjust the height of the bearing plate 21 and the height of the bearing objects. The conveying vehicle is internally provided with a first power part, specifically an engine, which can drive the conveying vehicle to move.

Set up first power portion and provide the power supply of marcing for carrying carrier 2, set up loading board 21 and heightening device 22 simultaneously, through heightening device 22 control loading board 21's lift, and then control the vertical height of carrying carrier 2 for carry carrier 2 can reduce the high back motion of loading board 21 to chunk 7 bottom side, and highly accomplish the bearing to chunk 7 through heightening loading board 21.

As an alternative embodiment, the first power unit may be provided not on the transport vehicle 2 but on the self-elevating platform 1 or the base 5, and the transport vehicle 2 may be driven by providing a traction tool or a push-pull tool.

In this embodiment, the transportation vehicle 2 further includes a supporting structure 23 for the block 7, the supporting structure 23 for the block 7 is a steel structural member, is disposed in a truss form, is disposed between the bearing plate 21 and the block 7, and is correspondingly and uniformly disposed along the bearing plate 21 according to the distribution of the main beams of the block 7, and is suitable for bearing the block 7. By the arrangement, load can be uniformly transmitted, the weight of the blocks 7 can be uniformly dispersed on the bearing plate 21, and the bearing capacity of the conveying carrier 2 is improved.

The self-elevating platform 1 is further provided with a platform supporting structure 13, which can fix and bear the blocks 7 and the block 7 supporting structure 23 which are conveyed to the self-elevating platform 1 by the conveying carrier 2.

After the conveying carrier 2 conveys the chunk 7 to the ship body from the wharf 6, the height of the bearing plate 21 is adjusted through the heightening device 22, the chunk 7 is unloaded to the platform supporting structure 13, the platform supporting structure 13 is arranged, on one hand, the effect of fixing the chunk 7 is achieved, the chunk 7 is prevented from being offset or even falling over in the process of advancing from the sea of the lifting platform 1, the stability of installation of the chunk 7 is improved, on the other hand, the platform supporting structure 13 replaces the conveying carrier 2 on the lifting platform 1 to bear the chunk 7, the load of the conveying carrier 2 is reduced, and the service life of the conveying carrier 2 is prolonged.

As an alternative embodiment, the platform support structure 13 may not be provided and may be modified to a vehicle fixing structure for fixing the transport vehicle 2 without unloading the block 7 from the self-elevating platform 1 after the transport vehicle 2 transports the block 7 from the quay 6 to the hull.

In this embodiment, the jack-up platform system further comprises a track hauling system 4, the track hauling system 4 comprising a hauling part 41 and a second power part. One end of the traction part 41 is connected with the track beam 31, specifically is a traction rope or a traction chain, and meanwhile, the track beam 31 is provided with a hook and other knots matched with the traction part 41, so that the track beam is convenient to disassemble and assemble. The second power unit is provided on the jack-up platform 1, connected to the other end of the traction unit 41, and configured to retract the traction unit 41 and draw the track beam 31 back to the jack-up platform 1.

In this embodiment, the second power unit is a crane 12, and as an alternative embodiment, the second power unit may be another power member additionally provided on the deck of the jack-up platform 1, such as a stationary motor.

In addition, the rail traction system 4 further comprises a direction-changing member 42, and the direction-changing member 42 comprises a fixing member 421, a pulley member 422 and a shackle 423. The fixture 421 is provided on the deck of the jack-up platform 1 and is provided in a direction extending toward the jack-up platform 1 along the rail beam 31; the pulley member 422 is arranged adjacent to the fixed member 421 at intervals, and is provided with a traction portion 41 along the circumferential direction, and can rotate under the action of the traction portion 41; the shackle 423 detachably fixes and connects the fixed member 421 and the pulley member 422, and facilitates the attachment and detachment of the structure such as the pulley member 422 and the traction portion 41.

The embodiment also provides a method for installing the booster station block 7 in a sliding manner, and by adopting the self-elevating platform system, the working process comprises the following steps:

s0. the booster station block 7 is built on the booster station building quay 6 and an accommodation passage for the entry of the transport vehicle 2 is provided below the block 7.

S1, the self-elevating platform 1 sails to a position adjacent to a construction wharf 6 of the booster station, leans against the wharf 6 laterally, and a bridge or a bridge slab is arranged between the wharf 6 and the self-elevating platform 1 and used for loading a block 7 of the booster station.

S2, selecting the number of the axis vehicles according to the weight of the booster station block 7 and the supporting capacity of the axis vehicles as the conveying carrier 2, uniformly dividing the axis vehicles into a plurality of rows according to the size of the block 7, correspondingly arranging the axis vehicles according to the position and the interval of a second supporting structure 33 which is arranged on a leg column of the jacket,

meanwhile, the supporting structure 23 of the block 7 is arranged on the axis vehicle, and the supporting structure 23 of the block 7 needs to be correspondingly distributed according to the condition of the main beam of the block 7, so that the load of the block 7 can be uniformly transmitted. The axle carriage adjusts the height of the carrier plate 21 and the support structure 23 of the block 7 by its own height adjustment device 22, moves into the receiving channel in the lowered position, and raises the block 7 in the raised position and releases it from the support structure or other resting surface during construction.

Then the axis car transports the block 7 to the designated position of the deck of the self-elevating platform 1 through a bridge between the wharf 6 and the self-elevating platform 1, and then the axis car is lowered to a low position state, so that the block 7 is supported on a platform supporting structure 13 prefabricated on the deck of the platform and is fixed through a fixing and binding piece.

As an alternative embodiment, the block 7 support structure 23 can be pre-set under the block 7 during construction, leaving a housing channel for the entry of the transport vehicle 2.

And S3, after the block 7 is fixed, the track beam 31 is hoisted and arranged on the top side of the block 7 through the small crane 12 on the self-elevating platform 1, so that the next step of installation is facilitated, and the self-elevating platform 1 starts to sail and moves towards the direction of the booster station foundation 5 in the construction sea area.

After the self-elevating platform 1 reaches the position near the booster station foundation 5 of the construction sea area, the self-elevating platform 1 is fixed with the seabed through the self-elevating device 11 according to a preset installation position to realize initial positioning, fine adjustment of the azimuth angle and the position of the self-elevating platform 1 is carried out according to the relative position between the block 7 and the foundation 5 after the positioning is finished, and prepressing and lifting of the platform are carried out through the self-elevating device 11.

In this embodiment, the deck of the jack-up platform 1 is adjusted and raised to the upper surface of the foundation 5, i.e. the predetermined height of the track beam 31 is installed, which ensures that the deck of the platform is flush with the top surface of the track beam 31 after the track beam 31 is installed, and the track beam 31 is horizontally disposed.

As a convertible facility, the deck of the jack-up platform 1 may have a height difference from the upper surface of the foundation 5, and the transport vehicle 2 may be driven by an internal or external power unit to move along the inclined track beam 31.

S4, after the self-elevating platform 1 is fixed and positioned, the first supporting structure 32 on one side of the self-elevating platform 1 and the second supporting structure 33 on the foundation 5 are installed and fixed through the small crane 12, then the track beam 31 between the foundation 5 and the self-elevating platform 1 is hoisted, and the track beam 31 is respectively connected and fixed with the foundation 5 and the track supporting structure on the self-elevating platform 1.

As an alternative embodiment, the second support structure 33 may be pre-set on the foundation 5 without being transported through the jack-up platform 1.

S5, after the track beam 31 is installed, the fixed binding piece of the block 7 on the self-elevating platform 1 is detached, the block 7 is jacked through the lifting device 22 of the axis vehicle to be separated from the platform supporting structure 13 on the self-elevating platform 1, then the axis vehicle is aligned with the track beam 31 on the foundation 5, the positions of the block 7 and the axis vehicle are finely adjusted, and the consistency of the position of the axis vehicle and the position of the track is ensured.

After the position of the block 7 is finely adjusted, the block 7 is transported to the foundation 5 by the axis vehicle step by step along the track beam 31, when the leg of the block 7 is consistent with the leg of the foundation 5, the axis vehicle stops and descends, the block 7 is supported by the axis vehicle and is converted into the support of the foundation 5, and then the leg of the block 7 is temporarily fixed with the leg of the foundation 5.

And S6, returning the conveying carrier 2 to the self-elevating platform 1 along the track assembly, and dismantling the track assembly.

After the block 7 and the foundation 5 are assembled and fixed, the axis vehicle returns to the self-elevating platform 1 and moves towards two sides, and the position of the track beam 31 is made.

The deck height of the jack-up platform 1 is adjusted through the jack-up device 11, the top surface of the deck is flush with the bottom surface of the rail beam 31, a hauling cable passes through the redirection piece 42 on the deck, the two ends of the hauling cable are respectively connected with the small crane 12 and the rail beam 31, the connection between the rail beam 31 and the supporting structure of the rail beam 31 is dismantled, and then the rail beam 31 is drawn from the jacket to the deck of the jack-up platform 1 through the small crane 12 and is fixed.

And finally, after the leg columns of the booster station block 7 and the leg columns of the foundation 5 are welded, the self-elevating platform 1 is subjected to height adjustment through the self-elevating device 11 and is pulled out of the water bottom 9 for fixing, and then the installation of the booster station block 7 is completed.

It should be understood that the above examples are only for clarity of illustration and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious changes and modifications can be made without departing from the scope of the invention.

Claims (14)

1. A jack-up platform system, comprising:

a jack-up platform (1) having a jack-up device (11) disposed thereon, said jack-up device (11) adapted to be removably connected to a water bottom (9) and adjust a vertical height of said jack-up platform (1);

the conveying device comprises a conveying carrier (2) and a track assembly, wherein the conveying carrier (2) is suitable for advancing along a bearing surface and conveying a chunk (7) on a self-elevating platform (1) and a foundation (5), and the track assembly is connected with the self-elevating platform (1) and the foundation (5) and is suitable for bearing the conveying carrier (2).

2. The jack-up platform system according to claim 1, wherein the track assembly comprises:

-a track beam (31) adapted to connect the foundation (5) and the jack-up platform (1);

the track supporting structure is connected with the track beam (31), is suitable for bearing the track beam (31), and comprises a first supporting structure (32) arranged on the self-elevating platform (1) and a second supporting structure (33) arranged on the foundation (5).

3. The jack-up platform system according to claim 2, wherein the first support structure (32) is arranged along the edge of the jack-up platform (1), the top end surface (321) thereof is attached to the deck of the jack-up platform (1), the lateral end surface (323) thereof is bent from the top end surface (321) and attached to the side of the jack-up platform (1), the top end surface (321) is provided with a plurality of receiving openings (322) extending to the lateral end surface (323), and the receiving openings (322) are adapted to carry and position the track beams (31).

4. The jack-up platform system according to claim 3, wherein the second support structure (33) comprises:

a bearing body (34) passing through and fixedly connected to the leg (51) of the foundation (5), arranged in correspondence with the housing opening (322), and adapted to bear the rail beam (31);

and the limiting parts (35) are arranged on the bearing main body (34), are respectively arranged on two sides of the supporting leg (51) and are suitable for limiting the track beam (31).

5. The jack-up platform system according to claim 1, wherein the jack-up platform (1) further comprises a crane (12) adapted to mount the rail assembly on the foundation (5) and the jack-up platform (1).

6. The jack-up platform system according to any one of claims 1 to 3 or 5, wherein the transport vehicle (2) comprises a plurality of transport carts on which a carrying floor (21), an elevation means (22) and a first power part are arranged, the transport vehicle (2) is adapted to move under the action of the first power part, the elevation means (22) is adapted to adjust the moving height of the carrying floor (21).

7. The jack-up platform system according to claim 6, wherein the transport vehicle (2) further comprises chunk (7) support structures (23), the chunk (7) support structures (23) being evenly arranged along the carrying floor (21), interposed between the carrying floor (21) and the chunks (7), adapted to carry the chunks (7).

8. The jack-up platform system according to claim 7, wherein a platform support structure (13) adapted to fix the block (7) and the block (7) support structure (23) provided on the jack-up platform (1) is further provided on the jack-up platform (1).

9. The jack-up platform system according to claim 8, further comprising an orbital traction system (4), the orbital traction system (4) comprising:

a traction part (41) with one end connected with the track beam (31);

and the second power part is arranged on the self-elevating platform (1) and is connected with the other end of the traction part (41).

10. The jack-up platform system according to claim 9, wherein the rail haulage system (4) further comprises a redirection piece (42), the redirection piece (42) comprising:

a fixture (421) provided along a rail support structure in an extending direction toward the jack-up platform (1);

a pulley member (422) provided adjacent to the fixed member (421), the traction portion (41) being provided along a circumferential direction;

a shackle (423) detachably connecting the fixing member (421) and the pulley member (422).

11. The jack-up platform system according to claim 9, wherein the second motive power section is a crane (12) on the jack-up platform (1).

12. The jack-up platform system according to claim 1, wherein the jack-up device (11) comprises a plurality of adjustable legs (51) and a lifting driving device, the adjustable legs (51) pass through the jack-up platform (1) and have an operating state fixed with the water bottom (9) and a sailing state separated from the water bottom (9), the jack-up platform (1) is adapted to move up and down along the adjustable legs (51) in the operating state by the lifting driving device.

13. The jack-up platform system according to claim 12, wherein a number of said adjustable legs (51) are evenly arranged along the jack-up platform (1).

14. The jack-up platform system according to claim 1, wherein the foundation (5) is a jacket.

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