Patent Application
20160002874
The present invention relates to a connection between a foundation pile of a structure, in particular an onshore or offshore structure, such as, for example, an onshore or offshore wind turbine, and an in particular tubular transition piece. In what are known as grouted connections, the part having a transition function is also referred to as a transition piece. The transition piece can take the form of a pin or sleeve, for example.
The prior art discloses, for example, a connection between a monopile and a transition piece of a wind turbine in the form of a grouted connection. This involves tube-in-tube plug connections in which steel cylinders are threaded one over the other. High-strength mortar is cast into the interspace.
In quite general terms, the grouting operation entails two usually tubular components being connected to one another by a special concrete or mortar (grout). For this purpose, the grout compound is introduced into a substantially annular gap (interspace), which is sealed at the bottom, and then cures. During the curing process, the components must not move substantially relative to one another, if at all, since the grout compound has an initially considerably reduced load-bearing capacity in the transition state between fresh and cured and must cure at rest.
When bringing together the components (before grouting), they are usually roughly centered by what are known as guide cleats and held at a minimum distance apart. However, these guide cleats cannot be used to prevent any movement of the components relative to one another. The reasons for this are as follows:
Such a relative movement occurs perforce as it were if a plurality of supports (foundation piles/foundation tubes) are intended to support a common structure and one or more of the supports is/are exposed to the sea swell. What is known as a tripile foundation structure can be mentioned as an example. In what are known as monopiles (a foundation pile (ramming tube) and a transition piece placed thereon)), this problem arises in principle also as a result of inertia forces or else as a result of direct wave loading of the transition piece.
The grouting operation can therefore be carried out offshore only with a relatively low sea swell. These weather restrictions can considerably prolong the cost-intensive offshore work.
The object on which the present invention is based is therefore to protect the connection of the type mentioned at the outset from damage during curing of the high-strength concrete or mortar.
According to the invention, this object is achieved by a connection between a foundation pile of a structure, in particular an onshore or offshore structure, such as, for example, an onshore or offshore wind turbine, and an in particular tubular transition piece, in which the foundation pile and the transition piece are fitted one over the other or plugged one inside the other with an interspace therebetween and the interspace is at least partially filled with a concrete or mortar which has a high strength after curing, characterized in that, at least during curing, there are arranged in the interspace a first group of preferably at least three double wedges which are arranged against one another and which are arranged to run around at a distance from one another, and a second group, arranged axially offset with respect to the first group, of preferably at least three double wedges which are in each case arranged against one another and which are arranged to run around at a distance from one another, in order to suppress or inhibit a relative movement between the foundation pile and the transition piece, in particular a tilting and/or horizontal translational movement of the foundation pile. Here, the foundation pile can be designed to be tubular or cylindrical, for example. The transition piece can likewise be designed to be tubular or cylindrical, for example. The interspace is typically annular. The double wedges typically comprise an upper and a lower wedge. Instead of an axial offset between the first group and the second group, this may also be referred to as a height offset.
The double wedges of a respective group are advantageously arranged equidistantly over the circumference. The double wedges can be designed to be different within a group, but also between the groups.
The double wedges typically serve not to take up the intrinsic weight of the actual structure, such as, for example, of a support cross and/or of a tower, etc. Rather, they are intended to take up clamping forces which would otherwise manifest themselves in deformation. The aforementioned intrinsic weight is typically taken up by a supporting device with or without the possibility of height adjustment.
The double wedges of one group are advantageously arranged at a large vertical distance from the double wedges of the other group.
Furthermore, the object is achieved by a method for producing a connection between a foundation pile of a structure, in particular an onshore or offshore structure, such as, for example, an onshore or offshore wind turbine, and an in particular tubular transition piece, in particular according to one of the preceding claims, wherein the method comprises: fitting the foundation pile and the transition piece one over the other or plugging them one inside the other with an interspace therebetween, at least partially filling the interspace with a concrete or mortar which has a high strength after curing, and leaving the concrete or mortar to cure, characterized by, before leaving the concrete or mortar to cure, arranging in the interspace a first group of preferably at least three double wedges which are arranged in each case against one another and run round at a distance from one another, and a second group, arranged axially offset with respect to the first group, of preferably at least three double wedges which are in each case arranged against one another and run around at a distance from one another, in order to suppress or inhibit a relative movement between the foundation pile and the transition piece, in particular a tilting and/or horizontal translational movement of the foundation pile.
Provision can be made in the connection for at least one of the double wedges of the first group and/or at least one of the double wedges of the second group to be designed to be self-locking. For this purpose, the “wedge angles” of the wedges of a respective double wedge must be chosen correspondingly (to be correspondingly small). For example, the first group of double wedges and/or the second group of double wedges can be arranged before introducing the concrete or mortar.
According to a particular embodiment of the invention, at least one of the wedges of a double wedge of the first group and/or at least one of the wedges of a double wedge of the second group is/are premounted. To be more precise, at least one of the wedges of a double wedge of the first group and/or at least one of the wedges of a double wedge of the second group can be mounted on the foundation pile or the transition piece.
At least one of the wedges of a double wedge of the first group and/or at least one of the wedges of a double wedge of the second group is/are advantageously configured to be height-displaceable during mounting. As a result, the wedges can be pushed together during mounting.
In a further particular embodiment of the invention, at least one double wedge of the first group and/or at least one double wedge of the second group is/are provided with a device for setting a defined distance between the two wedges of the respective double wedge.
At least one of the wedges of a double wedge of the first group and/or at least one of the wedges of a double wedge of the second group is/are advantageously fixed in its/their height position by means of a magnet.
At least one of the wedges of a double wedge of the first group and/or at least one of the wedges of a double wedge of the second group is/are advantageously arranged outside the region containing the concrete or mortar. As a result, the wedge/wedges can be removed again after the concrete or mortar has cured.
Provision can furthermore be made for at least one of the wedges of a double wedge of the first group and/or at least one of the wedges of a double wedge of the second group to be arranged inside the region containing the concrete or mortar.
Provision can further be made, during curing, for a supporting device to be arranged to support the transition piece on the foundation pile.
The supporting device is also advantageously designed to adjust the transition piece in height.
According to a further preferred embodiment, the stiffness of at least one of the wedges of a double wedge of the first group and/or the stiffness of at least one of the wedges of a double wedge of the second group is/are adapted to the stiffness of the concrete or mortar after curing. This is particularly advantageous when the wedges are intended to remain in the actual concrete or mortar region, since stress peaks are avoided by virtue of comparable load-bearing and elastic properties. To ensure that the wedges do not themselves lead to uncontrolled stress peaks, it is advantageous in principle for the wedges, in a suitable number with a correspondingly dimensioned bearing face, to be embodied as double wedges which are arranged against one another. For example, by using a suitable material or preferably a combination of materials (for example steel and plastic), the stiffness of the wedges can be adapted to the stiffness of the concrete or mortar.
In the method, at least one of the wedges of a double wedge of the first group and/or least one of the wedges of a double wedge of the second group is/are advantageously is/are arranged by premounting on the foundation pile and/or on the transition piece.
At least one of the double wedges is expediently arranged by the wedges of the double wedge being pushed together relative to one another.
At least one of the double wedges is advantageously removed again after the concrete or mortar has cured.
Provision can additionally be made for at least one of the double wedges to be arranged in the region of the subsequently filled concrete or mortar.
Finally, provision can also be made for at least one of the double wedges to be arranged outside of the subsequently filled concrete or mortar.
The invention is based on the surprising finding that the play still present after the transition piece has been aligned is suppressed by the special wedge construction (double wedges). As a result, the concrete or mortar is protected from damage by a to and fro movement for example due to the sea swell during curing.
In the case of monopiles, for example, the double wedges can additionally also serve to align the system.
By virtue of the invention, the weather window for such a grouting operation can be considerably extended and the grouted connection can be protected from damage during curing.
According to a particular embodiment, it is also possible, by pushing together the wedges of respective double wedges in a controlled manner, for the components to be better centered relative to one another or, in the case of monopiles, also to completely align them.
The connection and the method can be used, at least in particular embodiments, both for monopiles and for “multi”-piles, tripods, jackets, etc.
Further features and advantages of the invention will become apparent from the appended claims and the following description in which a number of exemplary embodiments are explained in detail with reference to the schematic drawings, in which
The description given below shows foundation piles in the form of cylindrical tubes into which a transition piece is plugged from above, said transition piece being formed at its lower end as a pin. However, there is in principle also the other possibility, namely that a transition piece which is formed at its lower end as a sleeve is fitted over a foundation pile which is formed, for example, as a cylindrical tube. In the case of the last-mentioned exemplary embodiments, which are not shown and described here however, the double wedges can also be used analogously.
Moreover, the faces of the double wedges which lie on one another (contact faces) can also be oriented oppositely to the embodiments shown in
Each of the double wedges 18 and 22 has two wedges 18a and 18b, 22a and 22b which are arranged against one another. Depending on the size of the wedge angle a which is formed by the contact faces 18c and 18d, which are in contact with one another, of the wedges 18a and 18b and which is also formed, in some circumstances, by the contact faces 22c and 22d of the 22a and 22b, the wedges 18a and 18a and 22a and 22b can theoretically slide on one another (sliding friction) or else not (static friction). The last-mentioned case is also referred to as self-locking. In the exemplary embodiment shown in
In the exemplary embodiment shown in
As is furthermore particularly evident from
Furthermore, the wedges 18a and 18b and the wedges 22a and 22b can be premounted or else installed only during the mounting operation.
In the embodiment of double wedges illustrated in
In the further embodiment illustrated in
If the wedges can be moved in a vertically controlled manner, the foundation pile 10 and the transition piece can be better aligned with one another by a controlled pushing-together of one or both wedges of a double wedge or, in the case of monopiles, can also be completely aligned.
Finally,
In the embodiments shown above, the double wedges can be installed in the region of the upper and lower grout wedge. Depending on the particular embodiment, the double wedges can be removed again after the grout has cured or can remain at the installation site.
According to a particular embodiment of the present invention, a method for producing the above-described connections, but also other connections according to the invention, comprises:
plugging the transition piece 12 into the foundation pile 10 with said interspace 14 therebetween, at least partially filling the interspace 14 with a concrete (grout) which has a high strength after curing, arranging in the interspace 14 a first group of a plurality of double wedges, such as, for example, double wedges 18 or 22, which are arranged against one another and run around at a distance from one another, and a second group of a plurality of double wedges, such as, for example, double wedges 22 or 18, which run around at a distance from one another, in order to suppress or inhibit a relative movement between the foundation pile 10 and the transition piece 12, in particular a tilting and/or horizontal translational movement of the foundation pile 10, and leaving the concrete to cure.
In order to mount the double wedges or wedges “from below”, a typically present lower opening in the transition piece 12 could be used.
The connection and the method allow support of a grouted connection or a grouted fixing.
The features of the invention disclosed in the present description, in the drawings and in the claims may be essential both individually and in any desired combinations for implementing the invention in its various embodiments.
| Number | Date | Country | Kind |
|---|---|---|---|
| 13001017.6 | Feb 2013 | EP | regional |
| Filing Document | Filing Date | Country | Kind |
|---|---|---|---|
| PCT/EP2014/000475 | 2/24/2014 | WO | 00 |
