DE202008014000U1 - Wind power engine with horizontal rotor axis - Google Patents

Abstract

Wind power machine with a horizontal rotor axis (3) and a gondola (1) rotatably mounted on a tower (4) about a vertical axis (5) in order to stabilize and adapt the wind power machine to different wind speeds (6) 2) to the axis (3) of the rotor arranged rotatable and / or tiltable and by rods or cables (11, 12) are braced, characterized in that
The rotor with the rotor blades (2), seen from the wind direction (6), is arranged behind the nacelle (1),
- The hub for supporting the rotor blades (2) in continuation of the nacelle (1) is rotationally symmetric cone-shaped,
- The rotor blades (2) are attached to the largest outer diameter (9) of the cone-shaped extension (8) and
- The rotor blades (2) via first clamping or support means (11) in the axial direction to the rotor axis (2) and second clamping or support means (12) in a plane perpendicular to the rotor axis (3) to the circumference of the largest outer diameter ...

Description

The invention relates to a device for stabilizing the rotor blades of wind power machines with a horizontal rotor axis.

[State of the art]

Rotors with a horizontal axis of rotation have long been known and widely used in windmills and windmills. They are very powerful, but at the same time relatively complex and demanding in terms of their construction. Their main disadvantage is the dependence on the wind direction.

Mounts are known for rotor blades on wind turbines in the form of rods or ropes, which are front and / or rear side attached to the rotor blades and connected in both cases with an elongated rotor shaft. By connecting the rods or ropes attached to the back of the rotor with the rotor shaft, it is necessary to place the rotor blades farther away from the face of the machine nacelle, rather than directly in front of the end face of the nacelle. This leads to dangerous oscillations, in particular in the case of large two-bladed wind wheels, as a result of which the rotor shaft can be bent and the rotor no longer rotates cleanly. Furthermore, the orientation of the rotor in the wind direction is even more expensive, since the rotor is not directly in front of the tower.

In contrast, in the DE 196 06 359 A1 described a solution in which the rotor blades are supported and stabilized by standing forward and backward projecting rods on the rotor blades at 90 degrees to these standing at a distance from the rotor axis, which are held by rods or ropes, which at one the rotor root attached and connected to the other with the outer ends of the rotor blades.

This solution has the disadvantage that the rotor blades, which are stabilized in themselves, are exposed to large forces at the fastening points on the rotor shaft and a tendency of the rotor blades in the wind direction and their adaptation to different wind speeds is excluded.

From the DE 10 2004 022 731 A1 is a rotor for wind power machines with horizontal axis of rotation and tiltable rotor blades known by the rotor is variable with its blades to adapt to different wind speeds in diameter. The rotor blades are arranged to tilt in the direction of the axis of rotation of the rotor and back.

The disadvantage of this solution is that massive joints are necessary for the mounting and inclination of the rotor blades. The possibility of an independent orientation of the rotor in the wind direction is not given.

The DE 34 13 191 A1 describes a rotor for wind power plants or the like., Which should manage without error-prone adjustment mechanisms for the rotor blades.

Here it is proposed to mount the rotor blades inclined against the wind direction on the rotor hub and to arrange between the free end of the wind direction also opposite the rotor hub and the rotor blades, eccentric to the rotor blade axes attached to the rotor blades tension or tensioning devices.

Although this invention is given a simpler, easier and cheaper construction of the rotor. However, a disadvantage is the extension of the rotor shaft and the inclination of the rotor blades away from the tower of the wind power machine, which leads to significant stabilization problems, especially at high wind speeds.

OBJECT OF THE INVENTION

The object of the invention is to provide a wind turbine with a horizontal rotor axis, in which a wind alignment is possible without additional wind measuring and Nachführeinrichtungen substantially. In addition to the use of lighter rotor blades material savings can be achieved with effective use of wind energy.

The object is achieved with the features of the first protection claim. Advantageous embodiments are the subject of the dependent claims.

The wind power machine consists of a tower on which a nacelle is rotatably mounted. In the nacelle, the shaft of a rotor rotates with the rotor blades about a substantially horizontal axis and drives z. B. to a generator.

For rotation in different wind directions, the nacelle is rotatably mounted on the tower with the rotor about a vertical axis.

A substantially independent alignment of the rotor in the corresponding wind direction is achieved by the wind flows from the back of the wind turbine, ie the direction of flow of the wind against the rotor blades takes place from the direction of the nacelle. For this purpose, the nacelle aerodynamically advantageous design and the hub for supporting the rotor blades is extended in a continuation of the nacelle rotationally symmetric cone-shaped, wherein the rotor blades at the largest outer diameter of cone-shaped extension attached or stored in addition.

The rotor blades are tensioned by means of traction means in the axial direction to the rotor axis and also to the co-rotating rotor hub counter to the direction of rotation. As an alternative to the traction means, it is also possible to use supports which support the rotor blades against the force of the wind or in the direction of rotation of the rotor.

By this type of bracing or support a high stability of the rotor blades is achieved, so that light and flexible materials can be used.

Depending on the size of the diameter of the cone-shaped extension, the length of the rotor blades can be reduced with the same efficiency.

A tendency of the rotor blades against the wind can improve the efficiency of the wind power machine.

If the blades of the wind turbine attached to the cone-shaped extension hinged, the diameter of a plane spanned by the rotor blades plane of rotation over the length of the clamping or support means can be changed, whereby a wind strength-dependent control is possible.

In this type of bracing a counter force is required, which can be realized via an additional support or traction device.

Advantageously, ropes are used for the tension, z. B. attack at the outer ends of the rotor blades.

Due to the cone-shaped extension and the rotor blades arranged thereon, it is also possible to support the tower of the wind power machine, for example, in a light truss construction as a lattice mast, by ropes.

Also, the cone-shaped extension could be built in the form of a grid-like construction. Through this grid construction, the wind permeability could be regulated by means of suitable changeable coverings, lamellas or the like. The hood could then be omitted or also made permeable to air and / or controllable.

[Examples]

With reference to drawings, an advantageous embodiment of the invention is explained in detail.

Show it:

1 a schematic side view of the wind power machine,

2 a schematic view of the wind turbine seen from the wind direction,

From the drawings 1 and 2 the structure and operation of the wind turbine according to the invention can be seen.

The wind turbine consists of a gondola 1 in which the rotor shaft is located and the outside of the nacelle 1 arranged rotor blades 2 , The rotor shaft rotates about a substantially horizontal axis 3 and drives z. B. to a generator.

To the gondola 1 closes downwind 6 seen a cone-shaped extension 8th which is rotationally symmetrical about the rotor axis 3 in extension of the gondola 1 is trained.

The gondola 1 The wind turbine is on a mast or tower 4 around a vertical axis 5 rotatably mounted.

By doing that by the rotor blades 2 formed rotation plane 7 , from the wind direction 6 Seen, behind the tower 4 is located, the wind turbine turns essentially by itself in the wind direction 6 ,

For this purpose, the hub for supporting the rotor blades 2 in continuation of the gondola 1 extended cone-shaped, with the rotor blades 2 largest outer diameter of the cone-shaped extension 8th are attached. Leewardly, the cone-shaped extension 8th through a hood 10 be completed.

For stabilization are the first tension or proppant 11 the rotor blades 2 through tension cables towards the gondola 1 and as a second tightening or support means 12 by tensioning cables contrary to the direction of rotation 13 of the rotor tangential to the largest diameter 9 the cone-shaped extension 8th braced.

At the rotor blades 2 are the tension 11 . 12 z. B. attached to their outer ends.

About a change in length of the tension 11 can the diameter of one through the rotor blades 2 spanned rotation plane 7 to be changed.

In the drawings is the tower 4 additionally by tension cables 14 braced. This tension 14 is only possible by the inventive arrangement of the rotor.

The number of rotor blades 2 of the wind power engine, four of which are shown in the embodiment, may be arbitrary.

LIST OF REFERENCE NUMBERS

1

gondola

2

rotor blades

3

essentially horizontal rotor axis

4

Tower, mast

5

vertical tower axis

6

Wind direction, direction of the wind

7

plane of rotation spanned by the rotor blades

8th

cone-shaped extension

9

largest outer diameter of the cone-shaped extension

10

Hood

11

first clamping or support means

12

second clamping or support means

13

Direction of rotation of the rotor

14

Guy ropes tower

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 19606359 A1 [0004]
• DE 102004022731 A1 [0006]
• DE 3413191 A1 [0008]

Claims (10)

Wind power engine with horizontal rotor axis ( 3 ) and one on a tower ( 4 ) about a vertical axis ( 5 ) rotatably arranged nacelle ( 1 ) in order to stabilize and adapt the wind turbine to different wind speeds ( 6 ) arranged on a hub rotor blades ( 2 ) to the axis ( 3 ) of the rotor arranged rotatable and / or tiltable and by rods or ropes ( 11 . 12 ), characterized in that - the rotor with the rotor blades ( 2 ), from wind direction ( 6 ), behind the gondola ( 1 ), - the hub for holding the rotor blades ( 2 ) in continuation of the gondola ( 1 ) is extended rotationally symmetrical cone-shaped, - the rotor blades ( 2 ) at the largest outer diameter ( 9 ) of the cone-shaped extension ( 8th ) and - the rotor blades ( 2 ) via first clamping or supporting means ( 11 ) in the axial direction to the rotor axis ( 2 ) and second clamping or support means ( 12 ) in a plane perpendicular to the rotor axis ( 3 ) to the circumference of the largest outer diameter ( 9 ) of the cone-shaped extension ( 8th ) are stabilized. Wind power machine according to claim 1, characterized in that the first clamping or supporting means ( 11 ) Ropes are the rotor blades ( 2 ) on train against the wind direction ( 6 ). Wind power machine according to claim 1, characterized in that the second clamping or support means ( 12 ) Ropes are the rotor blades ( 2 ) on train counter to the direction of rotation ( 13 ) of the rotor blades ( 2 ). Wind power machine according to claim 1, characterized in that the first clamping or supporting means ( 11 ) Are supports that support the rotor blades ( 2 ) against the wind direction ( 6 ). Wind power machine according to claim 1, characterized in that the second clamping or support means ( 12 ) Are supports that support the rotor blades ( 2 ) in the direction of rotation ( 13 ) of the rotor blades ( 2 ). Wind power machine according to the preceding claims, characterized in that the diameter of the rotor blades ( 2 ) spanned rotation plane ( 7 ) about a change in length of the first clamping or support means ( 11 ) Is changeable in the axial direction. Wind power machine according to claim 1 and 6, characterized in that the rotor blades ( 2 ) at the greatest extent ( 9 ) of the cone-shaped extension ( 8th ) are attached via joints. Wind power machine according to claim 7, characterized in that the rotor blades ( 2 ) are extended beyond the joints out lever-shaped and the lever-shaped extensions when moving the rotor blades ( 2 ) are adjustably arranged within the cone-shaped extension and / or the hood. Wind power machine according to the preceding claims, characterized in that the clamping or support means ( 11 . 12 ) at the outer ends of the rotary blades ( 2 attack). Wind power machine according to the preceding claims, characterized in that further clamping or support means ( 11 . 12 ) per rotor blade ( 2 ) are arranged.

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