The invention relates to a fixing system for cables, in particular in wind turbines, having a main body, which can be fixed to a supporting structure, and having cable holders, which have an opening for the insertion of cables, wherein said opening can be sealed by a cover device.
In order to discharge the energy generated in wind turbines as well as for other operational purposes such as control, monitoring and the like, cables, which run though the tower into the nacelle, must be reliably fastened to the appropriate supporting structures, in particular the tower segments. Fastenings with clamp-like main bodies, in which inserted cables can be secured, are typically used for this purpose. Fixing systems of this kind, in which a corresponding number of screwing procedures must also be carried out, require a high degree of assembly expenditure. This applies in particular to the fastening of cables, which must be routed from below, through the tower to the nacelle and connected to the generator unit. In the case of conventional wind turbines, this generator unit may need to be rotated together with the nacelle for up to three turns before the nacelle is steered back. In order for the cables to be able to make this movement as well, they are routed over a cable loop hanging in the tower. To prevent the cables from rubbing against one another during the rotational movements, the cables must be kept at a distance here. Cables are therefore typically held by means of a round supporting structure, for example in the form of a tubular piece, around which the cables are distributed and fastened using simple clamps. Mounting of this kind is costly and tedious.
In this respect, the object of the invention is to provide an especially suitable fixing system for the application in question.
This objective is achieved according to the invention by a fixing system comprising the features in claim 1.
Accordingly, an essential feature of the invention is that cable holders are provided in the form of components that can be mounted on the main body, and are disposed on the main body in an arrangement extending at least over a part of a ring with the openings of said cable holders on the outside, wherein the cover device has retaining elements, by means of which the opening of the respective cable holders can be blocked in order to fasten, in particular to pre-fasten, the inserted cables.
The annular arrangement of the cable holders allows the cables to be fixed in a cable loop hanging from the nacelle in the tower such that those cables are positioned and distanced from one another as in the tower segments themselves, so that chafing of the cables can be avoided in any event. The fact that further cable holders are provided in the form of components that can be mounted on the main body opens up the advantageous possibility of realizing a fixing system that can tolerate especially high loads with little design effort and at a low cost. In the case of separate cable holders that can be attached to the main body, different materials can be used for these cable holders and the main body. Thus cable holders can be efficiently and cost-effectively molded out of a plastic material, for example, while the main body can be formed as a metal structure, for instance in the form of a steel structure with a high degree of structural stability, i.e. it can be designed for optimal stability without having to forgo the use of cable holders made out of inexpensive materials. The fact that, according to the invention, retaining devices are also available as an element of the cover device, by means of which retaining devices the insertion opening can be blocked in order to pre-fasten the cables inserted into the cable guides of the cable holders, allows the cables to be readily inserted into the cable guides, one after the other, since they are secured against falling out.
Since the cover device preferably also has a band clamp, which exerts the retaining force on the cables by means of the retaining devices, only a single screwing procedure is needed to tension the band clamp in order to secure the total number of cables held in the annular arrangement. A retaining force can also be exerted on the received cables by means of the cover device if necessary.
In especially advantageous embodiments, the main body comprises a steel band, which is positioned between end sections that form attachment points for anchoring on the supporting structure, said steel band extending preferably as a part of an arc that forms a circular ring, along which a row of cable holders is mounted. This kind of steel supporting structure ensures that the cables are securely anchored even if the cable holders are made of a lower strength material such as plastic.
An overall structure with an especially high degree of stability can be achieved with embodiments, in which a cross-member in the form of an axis extending through the inside of the arc is provided, which penetrates the band of the arc on both sides between the end sections that serve as anchoring sites and the respective end of the row of cable holders and projects outward, wherein the projecting ends of the cross-member each form a point of application for the band clamp. Such a cross-member, in particular if it is welded to the band at the penetration points through the band, forms a particularly effective reinforcement of the arc that runs semicircularly, for example, so that a high degree of stability is assured with a low material cost. At the same time, due to the cross-member, points of application for the band clamp are available, to which the clamping force can be introduced into the structure with force components that predominantly run longitudinally with respect to the band and therefore with greater operational reliability.
In especially preferred embodiments, the cross-member is formed by a steel rod, the cross section of which is rectangular and the long side thereof, which extends in the circumferential direction of the arc, passes through a slot in the bracket band arc. In this arrangement, the clamping force of the band clamp is exerted in the direction of the long sides of the rectangular profile, thus in the direction of the greater bending resistance of the cross-member.
Each cable holder is preferably individually connected to the band of the main body and each has a trough-shaped cable guide.
It can be particularly advantageous if the arrangement is such that the cable holders have a curved base corresponding to the curvature of the band for installation on the band, and that a catch mechanism is formed between this curved base and the band, which secures the cable holders on the main body. Such a system is characterized by an especially low degree of installation effort.
The exact orientation of the cable holders on the band is very easy to achieve when the cable holders are disposed between positioning fittings, which extend radially in a row in the circumferential direction of the band from the circular arcuate band, and which engage with guide channels, which are formed by recesses in the side walls of the cable holders, in a fitted manner. The positioning fittings also serve to accept forces exerted between the cable holders and main body.
In especially preferred embodiments, the retaining devices are pivotably mounted on the edge of the opening of the trough-shaped cable guides of the cable holders in such a way that the retaining devices can be moved between an insertion position that can be turned away from the opening and a pre-fastening position securing the inserted cables, wherein a locking device, which secures the cable holders in the pre-fastening position, is provided between the cable holders and retaining devices. The retaining devices are secured to the respective cable holder by means of the pivotal mounting of said retaining devices on the cable holder so that they are non-detachable and need not be handled separately for each assembly process.
In especially advantageous embodiments, the retaining devices have a cover member, which is hinged on the cable holder and forms a support surface on its upper side for the band clamp, and a displaceable clamping member on the cover member, which is advanced by a spring , arrangement in the direction of the received cable. If necessary, a pre-clamping force can also be realized in such a way.
The invention is explained in greater detail below with reference to the drawings. These show:
As shown in
As shown in
As shown in
The retaining devices 45 have hinge plates 53 on one side of the cover member 49 thereof, with which the retaining devices can be pivoted, as on a hinge, on a swivel bearing 55, which is located on the cable holders 11 at the insertion opening thereof. Compared to the position shown in
Thanks to the rigid steel structure forming the main body 1, the cable holders 11, the retaining devices 45, as well as the positioning studs 23, can be made out of a low cost material that allows efficient production, for example out of molded plastic.
To this end, the alignment device has a cantilever 71 extending from the end sections 5 of the band 3 in the same respective direction, at the end of each of which a threaded sleeve 73 is located. An adjustment screw 75 located in each threaded sleeve 73, the free end 77 of which screw is supported on the inner wall of the tower segment in question, allows the desired position adjustment of the level of the arc 3 to be adjusted relative to the tower wall.
Number | Date | Country | Kind |
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10 2011 012 391.1 | Feb 2011 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP2012/000034 | 1/5/2012 | WO | 00 | 10/21/2013 |