DE29520150U1 - Wind turbine system with a vertical axis of rotation - Google Patents

Description

TIME-LEK

PATENT ATTORNEYS · EUROPEAN PATENT ATTORNEYS

PO BOX 26 02 51 TELEPHONE: 089/22 18 06 HERRNSTRASSE 15

D-80059 MUNICH FAX: 089/22 26 27 D-80539 MUNICH

^b 5780 III/Br.

Dipl.-Ing. Andreas HÄBLER
Residence Square 1

87435 Kempten

Wind turbine system with vertical axis of rotation

The invention relates to a wind turbine system with a vertical axis of rotation.

Given the many disadvantages of generating energy from fossil fuels and the dangers of nuclear power plants, energy generation from alternative resources is playing an increasingly important role. Electricity generation from wind power has increased many times over in recent years.

The disadvantage of the exploitation of wind power is not only the high construction costs of wind turbines, but also their massive interference with the existing natural structure. Interest groups are often formed that are opposed to the installation of wind turbines and can delay the approval process by years.

Wind turbines with both horizontal and vertical axes of rotation are known. However, the disadvantages outlined apply to both types.

g ₅ Accordingly, the invention is based on the object of providing a wind turbine which

can be constructed cost-effectively and does not represent any major interference with the existing natural structure.

This object is achieved according to the invention by the features specified in the characterizing part of the main claim, whereby with regard to preferred embodiments, reference is made to the features of the subclaims.

According to the invention, the wind turbine system with a vertical axis of rotation is arranged inside a lattice power line mast. This means that the structure itself is already built, so that not only are the costs for setting up the system greatly reduced, but there is also no additional interference with the existing natural structure. Building permit procedures can be greatly streamlined or eliminated entirely, and conflicting interests of third parties are not affected. There are no land costs for setting up the wind turbine system. The masts and wind turbine system can be serviced at the same time, so that costs can also be reduced in this way. The masts can be used simultaneously to transmit or forward the electricity generated. Alternatively, the power can be fed into the grid directly at the mast.

^° According to an advantageous design, the wind turbine can be anchored directly to the framework of the mast. Alternatively, anchoring to the foundation of the mast is also possible, while a separate foundation in the

foot area of the mast can be considered. 30

The wind turbine blades are conveniently detachably attached to the axle so that subsequent installation or replacement of damaged blades inside the mast is possible.

is possible.
35

Preferably, the external dimensions of the system correspond essentially to the interior of the mast, i.e. that the system

is roughly truncated cone-shaped in order to make optimal use of the mast interior space.

Further advantages, details and features essential to the invention emerge from the following description of a preferred embodiment of the wind turbine system according to the invention with reference to the attached drawings. In detail:

Fig. 1 a side view of the wind turbine system according to the

Invention in schematic representation and

Fig. 2 shows a vertical section through the system along the section line II - II of Fig. 1 in the direction of the arrows.

In Fig. 1, a lattice power line mast, generally identified with the reference number 10, is shown in a schematic representation. The power line mast 10 is delimited and formed by four essentially triangular grid surfaces. In the top area, a crossbeam 11, also made of a lattice, is attached, from which the power lines 12 are suspended. The grid surfaces 13 are supported on a foundation 14 and enclose a cavity in which the wind turbine system 15 is arranged.

The wind turbine system 15 shown schematically in Fig. 2 is, for example, a Savonius system with blades 16 arranged essentially in an S shape. The blades 16 are detachably held on the vertical axis 17 and rotate in the direction of the arrow 18 (Fig. 1) or clockwise (Fig. 2) when exposed to wind. The wind turbine 15 is attached to the grid surfaces 13 of the mast 10 in a manner not shown in detail. It can alternatively be supported on the mast foundation 14 or have its own foundation.

• · ϕ

The blades 16, which are detachably attached to the vertical axis 17 of the system 15, allow the system to be subsequently installed within an existing mast 10. Alternatively, the system 15 can also be constructed at the same time as the mast 10, whereby the mast can also be adapted to a particular shape of the wind turbine 15 if necessary.

The connections of the ^generator of the wind power plant 15, which are not shown in detail, can be connected to a collection point via special lines carried by the mast 10 or can feed the current directly into the line 12.

!5 The outer contour 19 of the wind turbine 15 is essentially adapted to the inner cavity of the mast 10. Accordingly, in the case of lattice power line masts, which generally taper towards the top, it has the shape of a truncated cone. As an alternative, however, individual cylindrical sections can also form the wind turbine 15.

It should be expressly stated again at this point that the preceding description is merely an example and that various changes and modifications are possible without departing from the scope of the invention. In particular, the wind turbine is not limited to the Savonius rotor described, but can also be a Darrieus rotor, a whirlwind turbine, etc., provided that there is only a vertical axis of rotation.

Claims (11)

5780 IIl/Br. Protection claims: 1. Wind power plant with a vertical axis of rotation, characterized in that the plant (15) is arranged inside a lattice power line mast (10). 2. Wind power plant according to claim 1, characterized in that the plant (15) is anchored to the latticework (13) of the mast (10). 3. Wind power plant according to claim 1, characterized in that the plant (15) is anchored to the foundation (14) of the mast (10). 4. Wind turbine according to claim 1, characterized in characterized in that the system (15) has its own foundation in the foot area of the mast (10). 5. Wind power plant according to one of the preceding claims, characterized in that the blades (16) are detachably held on the axle (17). 6. Wind power plant according to one of the preceding claims, characterized in that the power supply connections are held on the masts (10), the masts (10) simultaneously serve to transmit the generated electricity. 7. Wind power plant according to one of claims 1 to 5, characterized in that connections are provided on the mast (10) for feeding in the generated electricity. 8. Wind power plant according to one of the preceding claims, characterized in that the external dimensions of the plant (15) correspond essentially to the interior of the mast (10) are equivalent to.
5 9. Wind power plant according to claim 8, characterized in that the outer contour (19) of the plant (15) is essentially frustoconical. 10. Wind power plant according to one of claims 1 to 7, characterized in that the plant (15) consists of individual cylindrical sections. 11. Wind power plant according to one of the preceding claims, characterized in that the power generator is located in the interior of the lattice mast (10).