WIND TURBINE WITH DIRECTLY DRIVEN GENERATOR

Abstract

A wind turbine system includes a wind turbine which has a wind turbine shaft rotatable around an axis, and a generator. The generator has shaft, a stator positioned on a machine housing, and a rotor interacting with the stator. The shaft of the generator and the wind turbine shaft are formed as one piece and/or are coupled to each other in axially aligned relationship. The wind turbine and the generator are mounted exclusively by two main bearings on the wind turbine shaft in a machine housing on top of a tower of the wind turbine system.

Claims

1.-7. (canceled)

8. A wind turbine system, comprising: a machine housing; a wind turbine including a wind turbine shaft rotatable around an axis; a generator including a shaft connected to the wind turbine shaft, and a stator positioned on the machine housing; at least one adjustable fastening configured to secure the stator to the machine housing; and two main bearings configured to support the wind turbine and the generator on the wind turbine shaft in the machine housing atop a tower of the wind turbine system.

9. The wind turbine system of claim 8, wherein the shaft of the generator and the wind turbine shaft are formed as one piece.

10. The wind turbine system of claim 8, wherein the shaft of the generator and the wind turbine shaft are coupled to each other in axially aligned relationship.

11. The wind turbine system of claim 8, wherein the generator includes a rotor interacting with the stator and having permanent magnets which point to an air gap of the generator.

12. The wind turbine system of claim 8, wherein the generator includes a rotor interacting with the stator, said generator being configured in segments in a circumferential direction of the generator, at least one of the stator and the rotor or both being configured in segments.

13. The wind turbine system of claim 8, wherein the generator is positioned on a side of the tower facing away from the wind turbine.

14. A method for mounting a generator onto a wind turbine system, comprising: prefabricating corresponding segments of a stator and a rotor in pairs; providing each stator segment and each rotor segment with a transport securing device; assembling the pairs of stator and rotor segments so as to form a generator at a base of the wind turbine system; fixing the generator as a whole to an axial extension of a wind turbine shaft; fixing the stator segments to a machine housing; and removing the transport securing devices from the pairs of stator and rotor segments.

15. The method of claim 14, wherein an air gap of the generator is formed as the transport securing devices are removed.

16. A method for mounting a generator onto a wind turbine system, comprising: prefabricating corresponding segments of a stator and a rotor in pairs; providing each stator segment and each rotor segment with a transport securing device; attaching the pairs of stator and rotor segments directly to an axial extension of a wind turbine shaft step by step so as to form a generator; fixing the stator segments to a machine housing; and removing the transport securing device from the pairs of stator and rotor segments.

17. The method of claim 16, wherein an air gap of the generator is formed as the transport securing devices are removed.

18. A method for mounting a generator onto a wind turbine system, comprising: prefabricating a generator in a factory; attaching the generator to a generator shaft or a support structure of a rotor on site directly onto an axial extension of a wind turbine shaft; and fixing a stator to a machine housing of the wind turbine system.

Description

[0023] The invention and an advantageous embodiment of the invention can be taken from the FIGURE.

[0024] The FIGURE shows a partial longitudinal section of a wind turbine system (not shown in greater detail), wherein a torque provided by the wind turbine is supplied to a generator 17 by way of a wind turbine shaft 6, which rotates about an axis 5. The turbine shaft 6 is exclusively held and fixed on two main bearings 2, which are arranged in a machine housing 1. The machine housing 1 is braced on the tower by way of an azimuth bearing 3. The generator 17, which has rotor elements on a support construction 13, is located in an axial extension of the wind turbine shaft 6. The rotor 9 formed by the rotor elements has permanent magnets 10 pointing to an air gap 19 of the generator 17.

[0025] Said permanent magnets 10 can be attached as surface magnets or buried magnets to the rotor 9 or rotor segment. Surface magnets are magnets which are held on the surface of the rotor 9 or rotor segment by means of adhesive and/or banding. Buried magnets are magnets which are positioned in recesses which run essentially axially and which when viewed in the circumferential direction are closed, for example by resin or another preferably magnetically conductive casting compound.

[0026] A stator 8 is attached to the rotor 9 and air gap 19 by its winding system, which forms winding overhangs 11 on the end faces of the stator 8. The stator 8 is fastened to the machine housing 1 by way of a support structure 12. The whole generator 17 is outwardly shielded by a cover 16 in particular against effects of the weather.

[0027] Because of this inventive system concept it is now merely necessary to provide two main bearings 2, wherein the generator 17 is located in an axial extension of the wind turbine shaft 6. The directly driven generator 17 can already be assembled segment by segment on site. Likewise the individual segments of the generator 17 can be attached at the top directly to the turbine shaft 6 by way of the support structure 13 of the rotor 9 and the interface 14 to the turbine shaft 6.

[0028] Alternatively it is possible also to assemble a shaft butt 7, which is be regarded as a shaft of the generator 17, in the factory or on site and then to flange the entire generator 17 to the turbine shaft 6 by way of a shaft connection 18 necessary in this case. The stator 8 is then fixed to the machine housing 1 by way of its fastening 15.

[0029] In none of the embodiments does the generator 17 have a separate bearing.