A Hub Enclosure for a Hub of a Wind Turbine
A hub enclosure (6), e.g. a spinner, for a hub (4) of a wind turbine is disclosed. The hub enclosure (6) comprises an aperture defining an aperture area and at least two aperture covers (10). The aperture covers (10) are arranged to cover substantially separate parts of the aperture area. Each of the aperture covers (10) is movable between a first position and a second position. In the first position the corresponding part of the aperture area is closed, and in the second position the corresponding part of the aperture area is open. The aperture covers (10) are positioned relative to each other in such a manner that neighbouring aperture covers (10) are arranged to cover adjacent parts of the aperture area. Thus, when two neighbouring aperture covers (10) are both in the second position, an opening is defined having an area which corresponds to the sum of the areas covered by the two aperture covers (10). Thereby a passage opening of a desired size can be obtained, simply be moving an appropriate number of neighbouring aperture covers (10) to the second position. This allows objects of various size to pass through the aperture without compromising the strength of the structure.
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The present invention relates to a hub enclosure for a hub of a wind turbine. The hub enclosure may be a spinner or it may be a part which is mounted directly on a hub of a wind turbine. More particularly, the present invention relates to a hub enclosure being provided with an access aperture with an adjustable size.
BACKGROUND OF THE INVENTIONIt is sometimes required to provide a possibility of gaining access to an interior part of a hub of a wind turbine, e.g. to a spinner part or a nose cone part. It may, e.g., be necessary to gain access to the interior part of the hub in order to install, remove or replace components of the wind turbine, e.g. generator, gear, etc. In this case it is necessary to provide access openings of an appropriate size and shape to allow such components to pass. Alternatively or additionally, the access openings may be of a size and shape which allows a person to pass, e.g. in order to allow maintenance personnel to enter the area of the hub, and/or in order to provide an emergency exit from the nacelle.
Furthermore, it may be desirable to provide openings in a region near the hub for the purpose of providing ventilation. US 2006/0120862 discloses a wind energy plant with an aeration equipment for a rotor hub. The aeration equipment has a cup-shaped element which has a bottom and a circumferential side wall, and a pipe-shaped connection piece, directed into an inner space of the rotor hub. The cup-shaped element is kept in front of an entrance opening of the connection piece such that the entrance opening is arranged in the interior of the cup-shaped element. The openings disclosed in US 2006/0120862 are very inflexible, and they are not suitable for allowing large components of a wind turbine or persons to pass.
DESCRIPTION OF THE INVENTIONIt is an object of embodiments of the invention to provide a hub enclosure which is adapted to allow objects of various sizes to pass between the interior and the exterior of the hub enclosure.
It is a further object of embodiments of the invention to provide a hub enclosure which is adapted to allow large objects to pass between the interior and the exterior of the hub enclosure without compromising the strength of the structure.
It is an even further object of embodiments of the invention to provide a hub enclosure with access openings of configurable size and shape.
The invention provides a hub enclosure for a hub of a wind turbine, said hub enclosure comprising:
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- an aperture defining an aperture area,
- at least two aperture covers arranged to cover substantially separate parts of the aperture area, each of the aperture covers being movable between a first position in which the corresponding part of the aperture area is closed and a second position in which the corresponding part of the aperture area is open,
wherein the aperture covers are positioned relative to each other in such a manner that neighbouring aperture covers are arranged to cover adjacent parts of the aperture area.
In the present context the term ‘hub enclosure’ should be interpreted to mean a part of the wind turbine which partly or entirely encloses or covers the hub. The hub enclosure may, e.g., be a spinner, a nose cone or a part of a spinner or a nose cone. Alternatively, it may be a part which is mounted directly on the hub.
The aperture defines an aperture area. The aperture area is preferably a maximum size of the aperture, defining the maximum size of components allowed to pass between the interior of the hub enclosure and the exterior of the hub enclosure.
The hub enclosure comprises at least two aperture covers. The aperture covers are arranged to cover substantially separate parts of the aperture area. This should be interpreted to mean that the aperture covers do not overlap, or that there is only a small overlap between neighbouring aperture covers. Furthermore, the aperture covers in combination cover the entire aperture.
Each of the aperture covers is movable between a first position and a second position. When an aperture cover is in the first position the corresponding part of the aperture is closed, and when an aperture cover is in the second position the corresponding part of the aperture is open. Thus, when all of the aperture covers are in the first position the entire aperture is closed, and passage between the interior of the hub enclosure and the exterior of the hub enclosure is not possible. When all of the aperture covers are in the second position the entire aperture is open, thereby allowing passage of objects of a maximum size between the interior of the hub enclosure and the exterior of the hub enclosure. Finally, when some of the aperture covers are in the first position and some of the aperture covers are in the second position, the aperture is partly open and partly closed, thereby defining an access opening which is smaller than the aperture area. The size of the access opening corresponds to the combined area of the aperture covers which are in the second position.
The aperture covers are positioned relative to each other in such a manner that neighbouring aperture covers are arranged to cover adjacent parts of the aperture area. Thus, when two neighbouring aperture covers are both in the second position an access opening is defined which has an area corresponding to the sum of the areas covered by the two aperture covers. Accordingly, an opening of a specific size in order to allow a specific object to pass between the interior of the hub enclosure and the exterior of the hub enclosure can be provided, simply by moving a sufficient number of neighbouring aperture covers to the second position, thereby obtaining a passage of a sufficient area. Thereby the size of the aperture can easily be configured or adjusted to match the requirements of the present situation.
It should be noted that the hub enclosure may be provided with additional apertures, each defining an aperture area, and each having at least two associated aperture covers as described above.
Each of the aperture covers may be movable from the first position to the second position in a direction towards an interior part of the hub enclosure. In the case that an aperture is moved outwards there is a risk that a gust catches the aperture cover, thereby causing damage to the aperture cover, or even tearing the aperture cover off, thereby risking that it falls to the ground causing damage to buildings or structures on the ground, or injuries or even fatalities to persons located in the vicinity of the wind turbine. It is therefore an advantage to design the aperture covers to be movable from the first position to the second position in a direction towards an interior part of the hub enclosure. However, embodiments could be envisaged in which one or more of the aperture covers are movable from the first position to the second position in an outwards direction.
Each of the aperture covers may be hinged to a part of the hub enclosure. According to this embodiment the aperture covers are moved pivotally between the first position and the second position via a hinge. Hinging the aperture covers to the hub enclosure is a simple way of mounting the aperture covers in a movable manner. As an alternative, one or more of the aperture covers may follow alternative moving patterns, e.g. a sliding moving pattern.
The aperture may be arranged in a tip part of the hub enclosure, preferably covering the entire tip part. In the present context the term ‘tip part’ should be interpreted to mean an outermost part of the hub enclosure, arranged as far as possible from the nacelle. As an alternative, the aperture may be arranged closer to the nacelle.
The hub enclosure may further comprise a sealing element arranged to cover a part of at least two of the aperture covers. The sealing element provides sealing between neighbouring aperture covers, and it can thereby be ensured that the hub enclosure is substantially tight when all of the aperture covers are in the first position.
The sealing element may be arranged to cover a part of each of the aperture covers, or it may be arranged to cover a part of only some of the aperture covers. In the case that the aperture is arranged in a tip part of the hub enclosure the sealing element may advantageously be arranged at the outermost part of the tip, preferably in a region where all of the aperture covers meet. In such a region there is a high risk that leaks occur, and it is therefore an advantage to position a sealing element there. Alternatively or additionally, one or more sealing elements may be arranged in regions where two neighbouring aperture covers meet, and/or in regions defining an interface between the aperture and other parts of the hub enclosure.
As mentioned above the hub enclosure may be or form part of a spinner. As an alternative, it may be or form part of a nose cone. As another alternative, it may be a part which is mounted directly on the hub.
Each of the aperture covers may be manually movable between the first position and the second position. According to this embodiment the aperture covers are always movable, regardless of power failures, fire, breakdown, etc. Furthermore, manually movable aperture covers are advantageous in the case that the aperture is to be used as an emergency exit from the nacelle.
Alternatively or additionally, the hub enclosure may further comprise means for automatically moving each of the aperture covers between the first position and the second position. Automatic movement of the aperture covers allows them to be moved without requiring the presence of a person at the hub enclosure. It may be advantageous to be able to move the aperture covers automatically as well as manually. In this case the aperture covers may be moved automatically under normal circumstances, and the aperture covers may be manually movable in the case of an emergency.
Each of the aperture covers may be mounted detachably on the hub enclosure. According to this embodiment it may be possible to completely remove the aperture covers, thereby providing improved clearance for passage of objects through the aperture. Furthermore, the risk of damaging the aperture covers during movement of large and heavy components through the aperture is reduced.
The hub enclosure of the present invention may advantageously be positioned at the hub of a wind turbine. Accordingly, the present invention further relates to a wind turbine comprising a hub enclosure according to the invention.
The invention will now be described in further detail with reference to the accompanying drawings in which
The hub enclosure 6 comprises an inner part 8 and an outer part 9. The inner part 8 is arranged closer to the hub 4 than the outer part 9. The inner part 8 forms a substantially single part which extends the entire perimeter of the hub enclosure 6. The outer part 9 is formed by three movable covers. This will be explained in further detail below.
A cover plate 14 is arranged at a centre part of the tip of the hub enclosure 6. Since the three aperture covers 10 as well as the three mounting parts 11 meet at the tip, there is a risk that leaks may occur in this region. The cover plate 14 provides sealing to the region, thereby reducing, or even preventing, leaks.
Each of the aperture covers 10 is provided with two handles 15. When an aperture part is opened manually a person can grip the handles 15 of a corresponding aperture cover 10, after having released the fittings 12, and thereby rotate the aperture cover 10 manually via the hinge 13.
Claims
1-10. (canceled)
11. A hub enclosure for a hub of a wind turbine, said hub enclosure comprising: wherein the aperture covers are positioned relative to each other in such a manner that neighbouring aperture covers are arranged to cover adjacent parts of the aperture area, and wherein each of the aperture covers is movable from the first position to the second position in a direction towards an interior part of the hub enclosure.
- an aperture defining an aperture area; and
- at least two aperture covers arranged to cover substantially separate parts of the aperture area, each of the aperture covers being movable between a first position in which the corresponding part of the aperture area is closed and a second position in which the corresponding part of the aperture area is open;
12. The hub enclosure according to claim 11, wherein each of the aperture covers is hinged to a part of the hub enclosure.
13. The hub enclosure according to claim 11, wherein the aperture is arranged in a tip part of the hub enclosure.
14. The hub enclosure according to claim 11, further comprising a sealing element arranged to cover a part of at least two of the aperture covers.
15. The hub enclosure according to claim 11, wherein the hub enclosure is or forms part of a spinner.
16. The hub enclosure according to claim 11, wherein each of the aperture covers is manually movable between the first position and the second position.
17. The hub enclosure according to claim 11, further comprising means for automatically moving each of the aperture covers between the first position and the second position.
18. The hub enclosure according to claim 11, wherein each of the aperture covers is mounted detachably on the hub enclosure.
19. A wind turbine comprising a hub enclosure according to claim 11.
Type: Application
Filed: May 29, 2009
Publication Date: Jun 30, 2011
Applicant: VESTAS WIND SYSTEMS A/S (Randers)
Inventors: Carsten Bruun Andersen (Aarhus), Niels Thomas (Bengtson)
Application Number: 13/000,567
International Classification: F04D 29/00 (20060101);