DE4432800A1 - Wind-powered energy plant - Google Patents

Abstract

The energy plant has a vertical mast shaft (1) supporting at least one wind turbine, attached to a ground foundation (2) via an associated support (3). The wind turbine can rotate about the vertical axis of the mast shaft relative to the support. The mast shaft can rotate relative to the support and is supported in the horizontal direction relative to the foundation at its bottom end. Pref. the support is provided by a conical shell enclosing the mast shaft adjacent its bottom end, via a conical bearing edge (6) projecting from the mast shaft. The latter may be rotated via an electric drive motor contained within the support, acting on a drive spline at the bottom end of the mast shaft.

Description

The invention relates to a wind turbine consisting of a tower shaft carrying at least one wind turbine and a supporting body for the Tower shaft, the wind turbine relative to the support body is rotatable about the vertical axis of the tower shaft. - The Rotation of the wind turbine or wind turbines is required Lich to always turn them in the main wind direction can, so that it works economically.

In known wind turbines of the type mentioned (cf. Lueger, encyclopedia of energy technology and power machines L-Z, Volume 7, Deutsche Verlags-Anstalt Stuttgart, 1965, Page 574) the tower shaft is fixed to the support body and Foundation connected, d. H. becomes the wind turbine on the tower turned. This is particularly the case when several doors are arranged on one and the same tower was very complex intensive.

In other wind turbines, where both the wind turbines on the tower shaft as well as the tower shaft with the Support body is connected, you also have between the Support body and the foundation pre-water storage see the wind turbine as a whole versus that To be able to twist the foundation (see publication of Saarland University of Technology and Economics "Der Wind farm on the tower ", April 1994) costly, because considerable masses move when turning  and the water storage for repair purposes like this is not easily accessible.

The invention has for its object a wind power plant of the type mentioned in such a way that at good accessibility of the pivot bearing as low as possible Masses have to be moved when turning.

The solution to this problem according to the invention consists in that the tower shaft rotatably mounted on the support body and with its lower end in the area of the horizon foundation valley is held.

In the wind turbine according to the invention, the Wind turbine or are the wind turbines in normal operation firmly attached to the tower shaft while the support body is united with the foundation. Consequently, that is too rotating mass is reduced since only the tower shaft with the Wind turbines must be turned. This results in lower manufacturing costs and less wear.

For further development, there are within the Erfin several options. So is after a preferred one Embodiment of the support body as a conical shell another tensile structure or a disassembled construction educated. The tower shaft is conveniently equipped with a outer support collar on the upper end of the support body stored. The tower shaft and the support bodies with adjustable and interchangeable horizontal  and vertical bearing or bearing surfaces. But there is also the possibility of this Design conical storage areas. The tower shaft itself runs down and becomes preferred Design in the foundation area in a warehouse vertically slidably held so that the lower portion of the Tower shaft can not move in the horizontal direction. The bearings between the tower shaft and support body or funda ment are preferably as alignable and interchangeable Plain bearings trained. The plain bearings are preferably provided with storage surfaces made of polytetrafluoroethylene to the To keep friction as low as possible. To the support surfaces inspect between tower shaft and support body and counter if necessary, to replace, it is recommended that the To arrange so that the tower shaft with the help of on the support body attachable, preferably mobile presses can be raised. The tower shaft can be used with a foot or Head area of the support body provided, electrically drivable slewing ring rotated about the vertical axis will. This is particularly advantageous in that the Maintenance of the rotating device is carried out near the ground, so that the tower does not have to be climbed every time.

In the following the invention is based on an embodiment example illustrated drawing explained in more detail. It demonstrate

Fig. 1 partially in longitudinal section a side view of a wind turbine and

Fig. 2 shows the part of the object of Fig. 1 shown in longitudinal section in an enlarged view.

The basic construction of the wind power plant shown in the figures consists of a tower shaft 1 and a support body 3 for the tower shaft 1, which is fastened to a foundation 2 . The tower shaft 1 carries a plurality of wind turbines 4 of the same function on cantilever arms 5 , the outer ends of which are braced. The wind turbines 4 are in any case rotatable relative to the support body 3 about the vertical axis of the tower shaft 1 .

In particular, the tower shaft 1 is rotatably mounted on the support body 3 and held horizontally with its lower end in the region of the foundation 2 ; In this regard, reference is made in particular to FIG. 2. The support body 3 is designed as a conical shell and, like the foundation 2, is made from reinforced concrete. The tower shaft 1 is also made of reinforced concrete. For the support, the tower shaft 1 has an outer support collar 6 in the region of the upper end of the support body 3 , with which collar it is supported on the upper end of the support body 3 . For this purpose, the tower shaft 1 and the support body 3 are provided with horizontal and vertical support or bearing surfaces 7 and 8 , respectively. These two bearing surfaces 7 , 8 could also be combined in conical bearing surfaces. The lower region of the tower shaft 1 is held vertically displaceably in a bearing 9 . In any case, all bearings between tower shaft 1 and support body 3 or foundation 2 are designed as plain bearings with bearing surfaces 7 , 8 , 10 made of polytetrafluoroethylene. The lifting of the tower shaft 1 relative to the support body 3 is carried out with the help of mobile presses, not shown in detail, which can be placed between the tower shaft 1 and the support body 3 . In FIG. 2 it is also indicated that the tower shaft 1 can be rotated with the aid of an electrically drivable turntable 11 provided in the foot region of the support body 3 .

Claims (9)

1. Wind power plant, comprising a tower shaft carrying at least one wind turbine and a support body for the tower shaft attached to a fun dam, wherein the wind turbine is rotatable relative to the support body about the vertical axis of the tower shaft, characterized in that the tower shaft ( 1 ) on the Support body ( 3 ) rotatably supported and held horizontally with its lower end in the region of the foundation ( 2 ). 2. Wind power plant according to claim 1, characterized in that the support body ( 3 ) is designed as a shell, preferably as a cone shell, as a tensile structure or rod structure. 3. Wind power plant according to claim 1 or 2, characterized in that the tower shaft ( 1 ) with an outer bearing collar ( 6 ) is supported on the support body ( 3 ). 4. Wind power plant according to one of claims 1 to 3, characterized in that the tower shaft ( 1 ) and the support body ( 3 ) are provided with conical bearing surfaces. 5. Wind power plant according to one of claims 1 to 4, characterized in that the tower shaft ( 1 ) is held vertically displaceably in a bearing ( 9 ). 6. Wind power plant according to one of claims 1 to 5, characterized in that the bearings (-, 9 ) between the tower shaft ( 1 ) and support body ( 3 ) and the foundation ( 2 ) are designed as interchangeable plain bearings. 7. Wind power plant according to claim 6, characterized in that the sliding bearings are provided with bearing surfaces ( 7 , 8 , 10 ) made of poly tetrafluoroethylene. 8. Wind power plant according to one of claims 1 to 7, characterized in that the tower shaft ( 1 ) can be raised with the aid of presses which can be attached to the supporting body ( 3 ). 9. Wind power plant according to one of claims 1 to 8, characterized in that the tower shaft ( 1 ) is rotatable with the aid of an electrically drivable slewing ring ( 11 ) provided in the foot or head region of the support body ( 3 ).