DE202010011625U1 - Foundation for a wind energy plant - Google Patents

Abstract

Foundation structure for a hydraulic structure, in particular for an offshore wind turbine with at least several foundation piles, each foundation pile having at least partially guided in its interior pile for anchoring in the seabed, and at least one support structure for receiving the hydraulic structure, wherein the support structure, the upper ends of the Foundation piles interconnecting, characterized in that the foundation pile (2, 3, 4) and the driven pile (11, 12, 13) on a predetermined length portion have a region of an overlap, wherein in the overlap region (25) of the piles at least partially the gap ( 29) between the piles and over a portion of the overlap region (25) and in a portion below the overlap region (25) of the free, inner cross section of the pile pile (11, 12, 13) are filled with a thermosetting filler (30).

Description

The The invention relates to a foundation structure for a hydraulic structure, in particular for an offshore wind turbine, with at least several foundation piles, wherein each foundation pile a section led in its interior Rammpfahl for anchoring in the seabed has, and with at least a support structure for receiving the hydraulic structure, the support structure being the upper ends of the foundation piles connects with each other.

Known Foundation structures for hydraulic structures, such as Example of offshore wind turbines usually form the transition from the building to the ground, in the present Fall from the hydraulic structure to the seabed, and should have a safe Ensure anchoring in the seabed. Especially offshore wind turbines are becoming increasingly remote from the coast and thereby often placed in water depths of up to 50 meters. Due to the prevailing environmental conditions at such a location and thus usually on the founding structure and the hydraulic structure acting wind and wave loads, are accordingly high demands on the anchoring of the foundation structure in the Seabed and the foundation structure supporting the hydraulic structure self-made.

In the EP 1 673 536 B1 For example, a foundation structure for an offshore wind energy plant is described, which has several foundation piles each with at least partially guided in the interior of the foundation piles driven piles for anchoring in the seabed. The foundation structure further comprises at least one support structure for receiving the tower of the wind turbine, wherein the support structure connects the upper ends of the foundation piles with each other. In this case, after the ramming of the driven piles, a predetermined length section is produced, in which the driven piles are received by the foundation piles. In order to prevent the relative movement between the foundation piles and the piles and thereby possibly causing a loosening of the anchoring of the foundation structure in the seabed, a portion of the covering area between the outside of the pile pile and the inside of the foundation pile is bonded. Due to the relatively narrow bonding between the outside of the foundation pile and the inside of the pile pile there is the risk that the bond will break and thus the pile pile will again be movable towards the foundation pile. On the other hand, in the area of the seafloor, the greatest moment caused by wind and wave loads acts on the foundations and ramming piles of the foundation structure, so that the permanent load changes shortly below the covering area of the piles can lead to deformation and possibly buckling of the walls of the piles , which in any case can have a detrimental effect on their anchoring and thus on the reliable long-term function of the foundation structure.

Of the The invention is therefore based on the object, a foundation structure type previously described in that deformations on the piles, due to the effective load changes avoided are. Furthermore, the invention is based on the object Method for constructing a foundation structure for To show a hydraulic structure that is simplified and safe Way can be performed.

The Solution of the problem is carried out according to the invention by a foundation structure with the features of the protection claim 1. Advantageous developments and refinements of the invention are in the dependent on the protection claim 1 dependent claims specified.

at a foundation structure for a hydraulic structure, in particular for an offshore wind turbine with at least several foundation piles, each foundation pile an at least partially guided in its interior Rammpfahl for anchoring in the seabed has, and with at least a support structure for receiving the hydraulic structure, the support structure being the upper ends of the foundation piles interconnects, is provided according to the invention that the foundation pile and the pile pile on a predetermined Length section a range of coverage have, wherein in the coverage area of the piles at least in sections, the gap between the piles and over a portion of the coverage area and in a portion below the covering area of the free, inner cross section of the pile with a hardening Filling material is filled.

With the help of such a solid structure around the overlap area of the foundation piles and the foundation piles partially received Rammpfähle kinking or buckling of the pile walls in the seabed is avoided in an advantageous manner by within the pile pile and between the foundation pile and pile pile hardened in part filler. The filling material reaching below the covering area inside the pile pile gives it optimum rigidity over a predetermined section, whereby the design of the pile pile from a single-walled pipe is possible. By preferably from below to above the Overlay area reaching, hardening filling material, such as concrete, is advantageously produced a foundation structure by means of which can easily ensure a reliable long-term function of the minimum required 20 years.

With Advantage is provided according to a development of the invention that the foundation pile in the foot area a his free Cross-section on the inner lateral surface reducing guide having for the pile. The use of a guide has the advantage that the pile during ramming in particular is axially movable at the beginning of pile driving, so that the driven pile with its center axis preferably coaxial with Center axis of the foundation pile driven into the seabed becomes. A running of the pile is thus advantageously avoided become. The leadership is about half the coverage area of the two piles in Gap between the inside of the foundation pile and the outside of the pile at least partially over formed the scope. The guide can, for example be designed as a socket. Preferably, several sheets are used, their longitudinal axes parallel to the center axis of the foundation pile extend and extend radially from the inside of the foundation pile extend in the direction of the center axis.

Of the Foundation pile has a bottom ring with a gap to the pile pile sealing gasket, which during a and after ramming the ingress of seawater, as well as sludge or rock parts in particular in the gap in the guide is avoided. Thus, an unwanted pollution of the following auszubetonierenden section of foundation pile and pile locked out. On the other hand, the seal prevents in the area of Spaltes also the leakage of the subsequently introduced Fill material. The hardening filling material remains thus always at the same level in the gap between foundation pile and pile and can therefore be a solid connection with enter the surfaces of the respective pile walls. To form the seal provided on the bottom ring, for example a felt or other suitable material may be used, as appropriate is to prevent ingress of water or ingress of mud. On the bottom ring can further from below a rupture disk be placed, which is the free cross section of the preferably designed as a tube and thus open bottom Rammpfahles effectively closes and thus the penetration of seawater already when lowering the formation of the foundation structure serving construction part on the seabed prevented. Already when placing the construction part on the seabed, but at the latest with the beginning of the pile work, the rupture disk by the preferably driven vertically down driven pile, which is no obstacle to be carried out Piling represents.

Of the Foundation pile preferably has an inner circumferential surface forming inner tube and its outer surface forming outer tube, wherein between the inner tube and Outer tube a core material is arranged. With such a thing Wall construction according to the invention is a constructive advantageous possibility for the formation of the foundation piles reached. Due to the sandwich structure of the pile wall is on the one hand the stiffness of the foundation pile improved and the others may be the amount of commonly used to training of the foundation pile used steel advantageously reduced become. Due to the increased stiffness can be both the diameter as well as the total thickness of the interior and Clearly minimize outer tube, which at the same time the economic efficiency such inventive foundation structures, due to reduced manufacturing and material costs, on advantageous Way improved. The core material as an intermediate layer between inner and outer tube is particularly in addition to Reinforced reinforcement, which as a reinforcing bars or arranged in the form of a hollow cylindrical lattice in the core material is. It is envisaged that the reinforcement is always complete enclosed by the core material and at a distance to the inside of the Outer tube and to the outside of the inner tube is arranged.

With Advantage is provided according to a development of the invention that the driven pile at a distance below the covering area arranged bulkhead, which has the free, inner cross section of the pile blocked. With the help of such a bulkhead is when ramming the pile, the penetration of water or mud over the hollow cylindrical trained pile into the interior of the foundation pile avoided, so that the free cross section of the pile only until filled to the bulkhead with seabed. Furthermore serves the bulkhead as filling limit for the in the pile pile head filler to be filled, which hardens therein and gives the driven pile improved rigidity. The bulkhead is in particular a plate body, which with his Plate plane perpendicular to the center axis of the pile and circumferentially sealing with the inside of the Rammpfahlwandung connected, in particular welded, is. The bulkhead is thereby arranged approximately at a distance below the foundation pile end, the length of the covering of the piles equivalent.

Around an excessive pressure build-up inside of the pile and thus an unnecessary drag on the To avoid ramming is a vent from the pile pile interior provided. For this purpose, the piling has in its pile wall at least one breakthrough below the bulkhead. When ramming Accordingly, air contained in the pile can escape, so that the components of the seabed in the free cross section of the pile can rise to below the bulkhead. It is it is advantageous if several breakthroughs over below the bulkhead the length of the pile and at the same time several breakthroughs in the pile wall at the same height level on the perimeter of the pile are arranged distributed. Every breakthrough for venting in the pile wall of the pile can also with a suitable Material sealed, for example, when in contact with Water dissolves and thus the breakthroughs in the pile wall released in the longitudinal direction one after the other for ventilation.

Of the Rammpfahl points on its outer lateral surface a radially outwardly extending paragraph as a stop at the guidance of the foundation pile, with help the ram pile in the longitudinal direction positively with in particular the leadership forming sheets the inside of the foundation pile brought into abutment and a holding force on the foundation pile perpendicular to down exercises. The ring along the lateral surface the Rammpfahle extending paragraph is in particular spaced arranged to the upper end of the pile, so that always a certain Section of the pile above the guide free in in the foundation pile. This creates a gap between Outside of the pile and inside of the foundation pile into which the filling material is then entered can. The radially outwardly extending peripheral surface of the paragraph can at the same time as a guide surface for supporting on the inside of the foundation pile be educated. This is the leadership of the pile further improved and simultaneously within the foundation pile a running of the pile during ramming avoided with advantage. The paragraph may in particular a flange-like ring body be, which with the outer surface of the pile is welded.

A Another embodiment of the invention provides that the driven pile at least in sections on the inside of the pile wall with Reinforcement is equipped. With the help of reinforcement will in particular the subsequently introduced filler reinforced, beyond its tensile strength is increased and thus the load capacity of the piles significantly improved in the area of the seabed. Specially dynamic let forces act on the foundation structure easily from the reinforced component structure of the Start up. Reinforcing is in particular reinforcing steel in the form of rods used on a predetermined Partial diameter arranged spaced from the inside of the pile pile are. In place of individual bars can also be a cylindrical reinforcing cage can be used that is similar a grid on a uniform radius runs around the center axis of the pile.

By the structurally simplified design of the foundation structure can a method for building a foundation structure implement for a hydraulic engineering, in particular for an offshore wind turbine, where several with driven piles equipped foundation piles with at least a supporting structure consisting of bars be pre-assembled to a structural part, the pre-assembled Conveyor transported to the site and with its foundation piers ahead be deposited on the seabed, then be the piles rammed into the seabed and anchored in the seabed Founding part produced, and finally in the founding part a hardening filling material in at least the covering area filled the piles and thus a solid foundation structure is trained.

With the aid of the method steps according to the invention and their specifically implemented sequence, a foundation structure can be produced in a simplified but at the same time secure manner. The pre-assembly of the foundation piles and the respectively incorporated therein piles with the support structure to a finished structural part is preferably still on land, so that a relatively accurate pre-assembly is guaranteed here. The finished construction part is then lifted onto a floating platform and transported by means of this to the predetermined location. The still relatively lightweight construction part with its piles and the support structures is then lifted with a hoist, such as a floating crane, in one piece from the platform and lowered with the foundation piles pointing vertically down until the foundation piles touch the seabed. After lowering the ramming piles are rammed successively into the seabed with a Slenderramme, whereby a solid anchoring of the structural part is achieved and thus a founding part is produced. Finally, in at least the coverage area of the piles a curing filler material, such as concrete, filled. Preferably, the filler material will pass both into the free cross-section of the pile pile into a portion below the coverage area of the piles to an area above the surface filled filling area, so that at the same time runs into the gap above the leadership of the foundation pile, the filler between pile and foundation pile. After the filling material has hardened, such a solid foundation structure is created, which easily accommodates without difficulty the dynamic load changes of wind or waves acting on the foundation structure.

there is preferably provided that after ramming the curing Filling material also in a gap between an inner tube and an outer tube of a respective foundation pile filled and then the top ends of the foundation piles be closed. The subsequent introduction of the filling material between inner and outer tube has in contrast to one Already during the pre-assembly of introduced filling material as core material between inner and outer tube the advantage that the structural part has a lower weight and thus when loading on a floating platform and at Setting up can be easily raised and aligned.

One Embodiment of the invention, from which more give inventive features is shown in the drawing. Show it:

1 a view of a foundation structure according to the invention, and

2 : A view of a section of a foundation used for anchoring in the seabed foundation pile and the driven therein pile in the section.

With 1 is a foundation structure for a hydraulic structure called, in particular for an offshore wind turbine, which three vertical foundation piles 2 . 3 . 4 and a support structure 5 with a variety of bars 6 . 7 . 8th and with a central recording 9 for the tower of the wind turbine, not shown. The foundation piles 2 . 3 . 4 stand on the seabed 10 on, from which fixed piles 11 . 12 . 13 stick out for anchoring in the seabed. To ensure a secure anchoring, have the piles 11 to 13 a rammed into the seabed section, which corresponds approximately to the depth of water at the installation. The support structure 5 simultaneously connects the upper and free ends of the foundation piles 2 . 3 . 4 above the waterline 14 with each other, so that by wind and wave loads on the foundation structure 1 or the wind energy plant acting forces advantageous to all three foundation piles 2 to 4 and their piles 11 to 13 be distributed. In addition, at a predetermined depth of water above the seabed 10 a second support structure 15 with bars 16 . 17 . 18 provided, which are the three foundation piles 2 to 4 during the transfer to the site or during ramming advantageous fixed to each other. Both the foundation piles 2 to 4 and the piles 11 to 13 as well as the posts or bars 6 to 8th the support structure 5 preferably have a cylindrical configuration.

2 shows a partial view of one of the foundation piles 2 to 4 with one of the driven piles 11 to 13 on average and should clarify in particular their structure in more detail. Each of the foundation piles 2 to 4 has a wall of several layers 19 . 20 . 21 different material. Between the inner, preferably metallic layer 19 and the outer, metallic layer 20 is a liner 21 made of a core material, such as concrete introduced. Every foundation pile 2 to 4 has in its foot area a his free cross section on the inner circumferential surface reducing guide 22 for the pile on, whereby the running of the piles during ramming is avoided. The leadership is by means of four, on the inner layer 19 a foundation pile arranged sheets 23 . 23 ' are formed, which extend at an angle of 90 degrees to each other on the inner side of the inner layer in the longitudinal direction and extend radially inwardly. To form a stable end position of the driven piles 11 to 13 in a respective foundation pile 2 to 4 is on the outside of each driven pile at a predetermined distance below the upper end of an annular stop 24 provided on the upper ends of the sheets 23 . 23 ' the leadership 22 comes to lie, so that sections of the two piles to each other a coverage area 25 form a predetermined length. At the bottom of each foundation pile is further a bottom ring 26 provided with a seal for sealing the guide gap to the driven pile. Every pile 11 to 13 has a demarcated pile pile head 27 on top of a bulkhead 28 is limited, which from the upper end in about twice the length of the overlap area 25 amounting distance whose free inner cross-section is arranged obstructing. Both the pile pile head 27 above the bulkhead 28 as well as the gap 29 between the outside of the pile pile and the inside of the foundation pile and the portion of the foundation pile above the covering area 25 are with a hardening filler 30 filled. To improve the tensile strength of the filler 30 is at least partially on the inside of the pile pile wall a reinforcement 31 arranged for example rods. Every pile 11 to 13 further points below the bulkhead 28 at least one breakthrough 32 in its pile wall for advantageous ventilation during ramming in the seabed 10 on.

QUOTES INCLUDE IN THE DESCRIPTION

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Cited patent literature

• - EP 1673536 B1 [0003]

Claims (8)

Foundation structure for a hydraulic structure, in particular for an offshore wind turbine with at least several foundation piles, each foundation pile has at least partially guided in its interior pile for anchoring in the seabed, and at least one support structure for receiving the hydraulic structure, wherein the support structure, the upper ends of the Intermediate piles interconnects, characterized in that the foundation pile ( 2 . 3 . 4 ) and the pile ( 11 . 12 . 13 ) on a predetermined length section have a region of an overlap, wherein in the overlap region ( 25 ) of the piles at least in sections, the gap ( 29 ) between the piles and over a portion of the coverage area ( 25 ) and in a section below the covering area ( 25 ) the free, inner cross section of the pile ( 11 . 12 . 13 ) with a hardening filling material ( 30 ) are filled. Foundation structure according to claim 1, characterized in that the foundation pile ( 2 . 3 . 4 ) in the foot region a guide which reduces its free cross section on the inner lateral surface ( 27 ) for the pile ( 11 . 12 . 13 ) having. Foundation structure according to claim 1 or 2, characterized in that the foundation pile ( 2 to 4 ) a bottom ring ( 26 ) with a gap ( 29 ) to the pile ( 11 . 12 . 13 ) has sealing gasket. Foundation structure according to one of claims 1 to 3, characterized in that the foundation pile ( 2 to 4 ) has an inner tube forming its inner circumferential surface and an outer tube forming its outer circumferential surface, wherein between the inner tube and outer tube, a core material is arranged. Foundation structure according to one of claims 1 to 4, characterized in that the driven pile ( 11 to 13 ) at a distance below the coverage area ( 25 ) arranged bulkhead ( 28 ), which has the free, inner cross section of the pile ( 11 . 12 . 13 ) closes. Foundation structure according to claim 5, characterized in that the driven pile ( 11 to 13 ) in its pile wall below the bulkhead ( 28 ) at least one breakthrough ( 32 ) for venting. Foundation structure according to one of claims 1 to 6, characterized in that the driven pile ( 11 to 13 ) on its outer lateral surface a radially outwardly extending shoulder as a stop ( 24 ) at the leadership ( 22 ) of the foundation pile ( 2 to 4 ) having. Foundation structure according to one of claims 1 to 7, characterized in that the driven pile ( 11 to 13 ) at least in sections on the inside of the pile wall with reinforcement ( 31 ) is equipped.