CN207374606U - Offshore wind turbine whole Transporting installs integrated ship - Google Patents

Abstract

The utility model proposes a kind of offshore wind turbine whole Transportings to install integrated ship, including the hull that can sink or float, the fore body of the hull is equipped with to be caught in the U-shaped opening of foundation of wind-driven generator unit stake, the top of the U-shaped opening is equipped with to load the loading attachment of the wind power generating set, and for driving the lifting gear that the loading attachment is lifted compared with the hull, the lifting gear is fixedly connected on the hull.The offshore wind turbine whole Transporting installs integrated ship, and hull can sit bottom and be supported in seabed, can effectively avoid " puncturing " phenomenon, and working security is high, moreover, its low cost, can effectively reduce the construction cost that offshore wind turbine is installed.

Description

Offshore wind turbine whole Transporting installs integrated ship

Technical field

The utility model belongs to wind power generating set installation apparatus field more particularly to a kind of offshore wind turbine is whole Body transport installation integrated ship.

Background technology

At present, the installation of offshore wind turbine is installed mostly using jack up wind-powered electricity generation mounting platform, during construction, The spud leg of platform is supported in seabed, and platform jacking is made to depart from the water surface, and then the split of wind turbine is carried out by the crane on platform Installation.However, this jack up wind-powered electricity generation mounting platform to build cost higher, moreover, platform is supported in seabed by spud leg, when There are " puncture " phenomenon may be caused during dynamic load, trigger major accident.Therefore, offshore wind turbine installation how is reduced Construction cost, while improve working security, be a current technical problem for being badly in need of solving.

Utility model content

The utility model is directed to the technical issues of above-mentioned, proposes a kind of offshore wind turbine whole Transporting installation one Ship, hull can sit bottom and be supported in seabed, can effectively avoid " puncturing " phenomenon, and working security is high, moreover, its low cost, The construction cost of offshore wind turbine installation can effectively be reduced.

In order to achieve the above object, the technical solution adopted in the utility model is：

Offshore wind turbine whole Transporting installs integrated ship, including the hull that can sink or float, the hull Fore body is equipped with to be caught in the U-shaped opening of foundation of wind-driven generator unit stake, and the top of the U-shaped opening is equipped with to load described The loading attachment of wind power generating set and for driving the lifting gear that the loading attachment is lifted compared with the hull, The lifting gear is fixedly connected on the hull.

Preferably, the fore body and stern of the hull are equipped with the buoyancy tank that can inject or discharge ballast water, the buoyancy tank Be electrically connected with to control the buoyancy tank to inject or the ballast water control unit of discharge ballast water, with control the Hull sinkage or It floats.

Preferably, the lifting gear includes hoistable platform and is fixedly connected on the direction peg of the hull, the liter Drop platform can be lifted along the direction peg compared with the hull, and the lifting gear further includes to drive the hoistable platform The lifting assembly of lifting and the locating piece for fixing the lifting platform position.

Preferably, the hoistable platform is made of the first platform body and the second platform body, the first platform sheet Body is U-shaped, and second platform body is removably embedded in the U-shaped mouth of first platform body, and with it is described first flat The U-shaped mouth of playscript with stage directions body surrounds the first through hole that may pass through the foundation pile.

Preferably, the lifting assembly is fixedly connected on the hoistable platform, and can climb along the direction peg.

Preferably, the direction peg is arranged in pairs on the hull of the U-shaped opening both sides, first-class of the direction peg Away from equipped with several location holes that can be inserted into the locating piece.

Preferably, the loading attachment includes the fixed frame for fixing the wind power generating set, for by described in Fixed frame is locked in the connector of the hoistable platform and the tune for adjusting the fixed frame and hoistable platform relative position Whole group part.

Preferably, the fixed frame includes the upper fixed platform being arranged in parallel up and down and lower fixed platform, it is described solid Fixed platform is fixedly connected with lower fixed platform by more diagonal braces.

Preferably, fixed platform is made of the first noumenon and the second body, the first noumenon is U-shaped, institute The second body is stated removably to be embedded in the U-shaped mouth of the first noumenon, and with the U-shaped mouth of the first noumenon surround with it is described The second through hole that wind power generating set matches.

Preferably, the lower fixed platform is made of the 3rd body and the 4th body, the 3rd body is U-shaped, institute The 4th body is stated removably to be embedded in the U-shaped mouth of the 3rd body, and with the U-shaped mouth of the 3rd body surround with it is described The third through-hole that wind power generating set matches.

Compared with prior art, it is the advantages of the utility model with advantageous effect：

1st, offshore wind turbine whole Transporting installation integrated ship provided by the utility model, passes through Hull sinkage to sea Bottom sits bottom and forms solid base, can effectively avoid " puncture " phenomenon that may trigger by spud leg support, and working security is high, Moreover, the stability of hull is good, it is easy for construction；

2nd, offshore wind turbine whole Transporting installation integrated ship provided by the utility model, is loaded by loading attachment Wind power generating set realizes the whole Transporting of wind power generating set, by lifting gear load controller compared with hull liter Drop realizes that wind power generating set is docked with the accurate of the foundation pile in seabed, and easy to operate, construction efficiency is high, short time limit, to surrounding Environment influences small；

3rd, the low cost of offshore wind turbine whole Transporting installation integrated ship provided by the utility model, can be effective Reduce the construction cost of offshore wind turbine installation.

Description of the drawings

Fig. 1 is that the offshore wind turbine for being mounted with wind power generating set that the utility model embodiment provides integrally is transported The front view of defeated installation integrated ship；

Fig. 2 is the vertical view that the offshore wind turbine whole Transporting that the utility model embodiment provides installs integrated ship Figure；

Fig. 3 is the top view for the hull that the utility model embodiment provides；

Fig. 4 is the structure diagram for the lifting gear that the utility model embodiment provides；

Fig. 5 is the structure diagram for the hoistable platform that the utility model embodiment provides；

Fig. 6 is the structure diagram for the loading attachment that the utility model embodiment provides；

Fig. 7 is the structure diagram for the upper fixed platform that the utility model embodiment provides；

Fig. 8 is the structure diagram for the lower fixed platform that the utility model embodiment provides；

The offshore wind turbine whole Transporting installation integrated ship that Fig. 9 provides for the utility model embodiment uses shape State figure；

In above each figure：1st, hull；2nd, lifting gear；21st, hoistable platform；211st, the first platform body；212nd, second is flat Playscript with stage directions body；213rd, first through hole；22nd, direction peg；23rd, lifting assembly；24th, locating piece；25th, location hole；3rd, loading attachment；31、 Fixed frame；311st, upper fixed platform；3111st, the first noumenon；3112nd, the second body；3113rd, the second through hole；312nd, lower fixation is put down Platform；3121st, the 3rd body；3122nd, the 4th body；3123rd, third through-hole；313rd, diagonal brace；32nd, connector；33rd, component is adjusted； 4th, wind power generating set；5th, buoyancy tank；6th, ballast water control unit；7th, U-shaped opening；8th, foundation pile.

Specific embodiment

In the following, the utility model is specifically described by illustrative embodiment.It should be appreciated, however, that do not having In the case of being further discussed below, element, structure and features in an embodiment can also be advantageously incorporated into other implementations In mode.

, it is necessary to explanation, term " interior ", " outer ", " on ", " under ", "front", "rear" etc. in the description of the utility model The orientation or position relationship of instruction are based on attached position relationship shown in FIG. 1, are for only for ease of description the utility model and letter Change description rather than instruction or imply signified device or element must have specific orientation, with specific azimuth configuration and Operation, therefore it is not intended that limitation to the utility model.In addition, term " first ", " second ", " the 3rd ", " the 4th " are only For descriptive purposes, and it is not intended that instruction or hint relative importance.

As shown in Figure 1-Figure 3, the utility model is related to a kind of offshore wind turbine whole Transportings to install integrated ship, bag The hull 1 that can sink or float is included, the fore body of hull 1 is equipped with to be caught in the U-shaped opening 7, U of foundation of wind-driven generator unit stake 8 The top of type opening 7 be equipped with for load wind power generating set 4 loading attachment 3 and for drive loading attachment 3 compared with The lifting gear 2 that hull 1 lifts, lifting gear 2 are fixedly connected on hull 1.

Hull 1 in the integrated ship can form solid base by sinking down into seabed, effectively avoid because spud leg support can " puncture " phenomenon that can trigger, working security higher.In one embodiment, as shown in Figures 2 and 3, the fore body of hull 1 The buoyancy tank 5 of ballast water can be injected or discharge by being equipped with stern, and buoyancy tank 5 is electrically connected with that buoyancy tank 5 is controlled to inject or discharge pressure The ballast water control unit 6 of water is carried, hull 1 to be controlled to sink or is floated.When carrying out wind power generating set installation, work as ship After body 1 reaches predetermined installation site, make the foundation of wind-driven generator unit stake 8 in 7 face seabed of U-shaped opening, pass through ballast water management Unit 6 controls buoyancy tank 5 to inject ballast water, and hull 1 is made to sink down into seabed and forms solid base, while makes foundation of wind-driven generator unit Stake 8 is caught in U-shaped opening 7.It is understood that those skilled in the art can also use the hull 1 of other structures, as long as energy Hull 1 is enough made to sink or float.

The integrated ship is lifted by 2 load controller 3 of lifting gear compared with hull 1, the wind-power electricity generation that will be loaded Unit 4 is accurately docked with the foundation pile 8 in seabed.As shown in figure 4, lifting gear 2 includes hoistable platform 21 and is fixedly connected on ship The direction peg 22 of body 1, hoistable platform 21 can be lifted along direction peg 22 compared with hull 1, and lifting gear 2 further includes to be risen for driving The lifting assembly 23 of the lifting of platform 21 and the locating piece 24 for fixing 21 position of hoistable platform drop.

In one embodiment, as shown in figure 5, hoistable platform 21 is by the first platform body 211 and the second platform body 212 are formed, and the first platform body 211 is U-shaped, and the second platform body 212 is removably embedded in the U-shaped of the first platform body 211 In mouthful, and the first through hole 213 that may pass through foundation pile 8 is surrounded with the U-shaped mouth of the first platform body 211.In wind power generating set 4 When being docked with foundation pile 8, with the decline of hoistable platform 21, foundation pile 8 passes through first through hole 213 and wind power generating set 4 Bottom is accurately docked, and after the completion of docking, the second platform body 212 of dismantling is in order to which wind power generating set 4 is from the opening left It is separated with hull 1.

Further, as shown in figure 4, lifting assembly 23 is fixedly connected on hoistable platform 21, and can climb along direction peg 22. It should be noted that those skilled in the art can also use the lifting assembly 23 of other structures, as long as lifting can be driven flat Platform 21 lifts.

Further, as shown in Fig. 2, direction peg 22 is arranged in pairs on the hull 1 of 7 both sides of U-shaped opening, to ensure to lift Platform 21 steadily lifts.As shown in figure 4, the location hole 25 of several pluggable locating pieces 24 is equidistantly equipped on direction peg 22, with Hoistable platform 21 is fixed on set height position.

The integrated ship loads wind power generating set 4 by loading attachment 3, can realize the whole fortune of wind power generating set 4 It is defeated.As shown in Figure 2 and Figure 6, loading attachment 3 includes fixing the fixed frame 31 of wind power generating set 4, for by fixed frame 31 It is locked in the connector 32 of hoistable platform 21 and the adjustment component for adjusting fixed frame 31 and 21 relative position of hoistable platform 33.After wind power generating set 4 assembles on bank, wind power generating set 4 is fixed in fixed frame 31, and passes through connection Fixed frame 31 is locked on hoistable platform 21 by part 32, to carry out whole Transporting, is falling hoistable platform 21 so that wind-power electricity generation Before unit 4 is docked with the foundation pile 8 in seabed, the relative position of fixed frame 31 and hoistable platform 21 is adjusted by adjusting component 33, Make wind power generating set 4 with foundation pile 8 to that just, can ensure that 4 bottom of wind power generating set is accurately docked with 8 top of foundation pile.

In one embodiment, as shown in Figure 2 and Figure 6, fixed frame 31 includes the upper fixed platform being arranged in parallel up and down 311 and lower fixed platform 312, upper fixed platform 311 be fixedly connected with lower fixed platform 312 by more diagonal braces 313.Such as Fig. 7 Shown, upper fixed platform 311 is made of 3111 and second body 3112 of the first noumenon, and the first noumenon 3111 is U-shaped, the second body 3112 are removably embedded in the U-shaped mouth of the first noumenon 3111, and surround with the U-shaped mouth of the first noumenon 3111 and wind-driven generator The second through hole 3113 that group 4 matches, with the wind power generating set 4 that is fixed.As shown in figure 8, lower fixed platform 312 is by the 3rd 3121 and the 4th body 3122 of body is formed, and the 3rd body 3121 is U-shaped, and the 4th body 3122 is removably embedded in the 3rd body In 3121 U-shaped mouth, and the third through-hole 3123 to match with wind power generating set 4 is surrounded with the U-shaped mouth of the 3rd body 3121, With the wind power generating set 4 that is fixed.When loading wind power generating set 4, wind power generating set 4 is placed in the first noumenon 3111 In the U-shaped mouth of U-shaped mouth and the 3rd body 3121, the second body 3112 is embedded in the U-shaped mouth of the first noumenon 3111, while by Four bodies 3122 are embedded in the U-shaped mouth of the 3rd body 3121, with the wind power generating set 4 that is fixed, convenient for whole Transporting.Work as wind After the completion of power generator group 4 is docked with foundation pile 8, dismantle the second body 3112 and the 4th body 3122 are in order to wind-driven generator Group 4 is separated from the opening left with hull 1.

In order to make offshore wind turbine whole Transporting installation integrated ship provided by the utility model clearer, below The course of work of offshore wind turbine whole Transporting provided by the utility model installation integrated ship is described as follows：

As shown in figure 9, offshore wind turbine 4 is after the completion of the harbour integral installation of bank, by offshore wind generating Group 4 is integrally fastened in the fixed frame 31 in loading attachment 3, and passes through connector 32 and fixed frame 31 is locked in lifting gear 2 In hoistable platform 21 on, during transport, hoistable platform 21 falls within and is fixed on the deck of hull 1.After reaching construction site, throw Anchor mooring drives hoistable platform 21 to be raised to compared with hull 1 along direction peg 22 pre- by lifting assembly 23 in lifting gear 2 Fixed height, then stranded cable adjustment hull 1, makes the foundation pile 8 positioned at seabed be caught in the U-shaped opening 7 of 1 fore body of hull.Pass through pressure Carrying water control unit 6 controls buoyancy tank 5 to inject ballast water, and hull 1 is made to sink down into seabed and sits bottom.It is driven and lifted by lifting assembly 23 The corner of platform 21 micro-shifting up or down, meets installation requirement with the verticality for ensureing wind power generating set 4, passes through and loads dress The relative position that the adjustment component 33 in 3 adjusts fixed frame 31 and hoistable platform 21 is put, makes wind power generating set 4 and foundation pile 8 In the in-plane direction to just.By lifting assembly 23 hoistable platform 21 is driven to decline along direction peg 22 compared with hull 1, foundation pile 8 pass through the first through hole 213 of hoistable platform 21 accurately to be docked with the bottom of wind power generating set 4, after the completion of docking, lifting of dismantling Second body 3112 of upper fixed platform 311 and lower fixed platform in second platform body 212 of platform 21, fixed frame 31 312 the 4th body 3122, moving back ship makes wind power generating set 4 be separated from the opening left with hull 1.

Offshore wind turbine whole Transporting provided by the utility model installs integrated ship, and sea is sunk down by hull 1 Bottom sits bottom and forms solid base, can effectively avoid " puncture " phenomenon that may trigger by spud leg support, and working security is high, Moreover, the stability of hull 1 is good, it is easy for construction.Meanwhile offshore wind turbine whole Transporting peace provided by the utility model Integrated ship is filled, wind power generating set 4 is loaded by loading attachment 3, the whole Transporting of wind power generating set 4 is realized, passes through lifting 2 load controller 3 of device is lifted compared with hull 1, realizes that wind power generating set 4 is docked with the accurate of foundation pile 8 in seabed, Easy to operate, construction efficiency is high, short time limit, small to surrounding environment influence.In addition, Oversea wind power generation provided by the utility model Unit whole Transporting installs the low cost of integrated ship, can effectively reduce the construction cost of offshore wind turbine installation.

Claims (10)

1. offshore wind turbine whole Transporting installs integrated ship, it is characterised in that：Including the hull that can sink or float (1), the fore body of the hull (1) is equipped with to be caught in the U-shaped openings (7) of foundation of wind-driven generator unit stake (8), described U-shaped to open The top of mouth (7) is equipped with to load the loading attachment (3) of the wind power generating set (4) and for driving the loading The lifting gear (2) that device (3) is lifted compared with the hull (1), the lifting gear (2) are fixedly connected on the hull (1)。

2. offshore wind turbine whole Transporting according to claim 1 installs integrated ship, it is characterised in that：The ship The fore body and stern of body (1) are equipped with the buoyancy tank (5) that can inject or discharge ballast water, and the buoyancy tank (5) is electrically connected with to control The ballast water control unit (6) of the buoyancy tank (5) injection or discharge ballast water is made, the hull (1) to be controlled to sink or is floated.

3. offshore wind turbine whole Transporting according to claim 1 installs integrated ship, it is characterised in that：The liter Falling unit (2) includes hoistable platform (21) and the direction peg (22) for being fixedly connected on the hull (1), the hoistable platform (21) It can be lifted along the direction peg (22) compared with the hull (1), the lifting gear (2) further includes to drive the lifting The lifting assembly (23) of platform (21) lifting and the locating piece (24) for fixing the hoistable platform (21) position.

4. offshore wind turbine whole Transporting according to claim 3 installs integrated ship, it is characterised in that：The liter Drop platform (21) is made of the first platform body (211) and the second platform body (212), and first platform body (211) is in U Type, second platform body (212) are removably embedded in the U-shaped mouth of first platform body (211), and with described the The U-shaped mouth of one platform body (211) surrounds the first through hole (213) that may pass through the foundation pile (8).

5. offshore wind turbine whole Transporting according to claim 3 installs integrated ship, it is characterised in that：The liter Part (23) of coming down to a lower group is fixedly connected on the hoistable platform (21), and can climb along the direction peg (22).

6. offshore wind turbine whole Transporting according to claim 3 installs integrated ship, it is characterised in that：It is described to lead Be arranged in pairs to stake (22) on the hull (1) of the U-shaped opening (7) both sides, the direction peg (22) if on be equidistantly equipped with The dry location hole (25) that can be inserted into the locating piece (24).

7. offshore wind turbine whole Transporting according to claim 3 installs integrated ship, it is characterised in that：The dress It carries and puts (3) and include fixing the fixed frames (31) of the wind power generating set (4), for the fixed frame (31) to be locked In the connector (32) of the hoistable platform (21) and for adjusting the fixed frame (31) with hoistable platform (21) with respect to position The adjustment component (33) put.

8. offshore wind turbine whole Transporting according to claim 7 installs integrated ship, it is characterised in that：It is described solid Determining frame (31) includes the upper fixed platform (311) being arranged in parallel up and down and lower fixed platform (312), fixed platform (311) it is fixedly connected with lower fixed platform (312) by more diagonal braces (313).

9. offshore wind turbine whole Transporting according to claim 8 installs integrated ship, it is characterised in that：On described Fixed platform (311) is made of the first noumenon (3111) and the second body (3112), and the first noumenon (3111) is U-shaped, institute State the second body (3112) removably be embedded in the first noumenon (3111) U-shaped mouth in, and with the first noumenon (3111) U-shaped mouth surrounds the second through hole (3113) to match with the wind power generating set (4).

10. offshore wind turbine whole Transporting according to claim 8 installs integrated ship, it is characterised in that：It is described Lower fixed platform (312) is made of the 3rd body (3121) and the 4th body (3122), and the 3rd body (3121) is U-shaped, 4th body (3122) removably be embedded in the 3rd body (3121) U-shaped mouth in, and with the 3rd body (3121) U-shaped mouth surrounds the third through-hole (3123) to match with the wind power generating set (4).