DE10340112A1 - Wind power unit has vanes turning about a vertical axis with surface areas that can be altered according to the wind strength - Google Patents

Abstract

A wind power unit (1) comprises a force-transmitting core (3) having at least one vane (4) and connected to a generator. The vane wind-receiving surface (6) is fixed vertically to an imaginary line extending radially from the axle and has an adjustable wind surface size.

Description

The The invention relates to a wind turbine, consisting of a order a vertical axis of rotation encircling force transmitting body, wherein on the body at least one wing is arranged from a generator and a connection between Generator and body.

Wind turbines are usually carried out in the form of a mast arranged on a propeller turbine at the one or more wings Propeller revolves around a horizontal axis. For energy is Here, the lift taken advantage of the wind flows around the rotor blades. adversely At this development is that these plants by construction of always larger rotor radii their stability limit bump. If the wind is too strong, the wind turbines are not for safety reasons to operate. At only low wind speeds are these Wind turbines shut down because no effective energy production due too low a buoyancy possible is.

It are also wind turbines have become known in the wind catcher order revolve a vertically aligned axis. This arrangement is reduced the static problems of the system at high wind speeds. Nevertheless, these wind turbines are also of the strength of the Wind dependent and can can not be used efficiently and continuously at different wind speeds.

The The present invention avoids the disadvantages of the prior art. It is the object of the invention to provide a cost-effective and easy to manufacture To provide wind turbine, which is weak as well as strong Winches can be used efficiently and continuously. The wind turbine should also be at changing wind speeds and wind directions quickly be aligned to this.

The Invention is that the wing has a wind attack surface, the vertical on a (imaginary) radiating from the axis of rotation radial Line is fixed and that the size of the wind attack surface on the firmly mounted on the body wing variable is. The attack surface of the Wind can be changed so on the fixedly mounted on the body wings. At low wind speed can be a comparatively large Area to disposal and at high wind speeds, the area can be reduced accordingly become. This possibility the change the wind attack surface a grand piano makes the wind turbine continuously at different wind strengths used for energy. Elaborate montages of various kinds Wing sizes or Downtimes of the system are eliminated.

Advantageous it is when the size of the wind attack surface of the wing within one revolution of the body so changeable is that in the arc segment in which the direction of rotation of the the body is equal to the wind direction, the wing surface is larger than in the arc segment, in which the wind direction acts counter to the direction of rotation of the base body. This ensures that in the circular arc segment, in which the wind direction is equal to the direction of rotation, the rotating wing surface offers a larger attack surface than in the other circular arc segment, in which the direction of rotation opposite the wind direction acts. It is an energy / surplus in the direction of circulation causes the continuous circulation of the main body to the vertical axis allows for energy.

The Wind turbine is without big design effort while maintaining stability at low Wind speeds usable.

It is appropriate if the wing from a wind attack surface and these wearing straps consists.

there It is beneficial if the wing is a sail, which is guided within guide rails and which can be rolled in or rolled out or folded. The sail can on the side facing away from the base body Side and / or be rolled out, or the sail can both at the facing away from the base body Side as well as on the main body facing side and be rolled out and in a central vertically extending area of the cloth firmly on guide rails be arranged. This wing construction is particularly easy and inexpensive to manufacture. costly and costly tools for making propeller turbines omitted.

Another possibility for changing the size of the wind attack surface is that the wind attack surface consists of at least two mutually displaceable surfaces which are guided in guides and that the displaceable surfaces are plates and / or sails. In order to increase the windage area of the wing, at least one plate is displaced in the guides such that the plates lie almost side by side or slightly overlapping. In order to reduce the windage area of the wing one plate against the other plate or the plates are shifted against each other so that they partially or completely behind each other. The displacement of the plates against each other can take place in the vertical direction or in the horizontal direction. A wing not only needs to be constructed of two plates and the guide rails, but it is a variety of mutually displaceable plates possible.

Advantageous it is when the size of the wind attack surface of the wing by one of the strength of the Wind power dependent controllable motor changeable is. This engine allows an exact control of the size of the wing surface the prevailing wind force, so that efficient energy production is possible. The change the wing surface takes place both within one revolution and because of the prevailing one Wind speed.

Is appropriate a formwork in the form of a Kreisbogensehments around the main body, which outside the radius of movement of the wings is arranged around. The shuttering shields the arc segment against attacking wind energy on the wing off, which against the Direction of rotation of the body lies.

Advantageous it is when a wind deflector is arranged on the casing, which holds the shuttering in the position to the wind direction, in which the Direction of rotation of the body shield against the wind direction.

For a simple Maintenance of the wind turbine, it is useful if the generator on Foot of the Mastes is arranged and over a vertical shaft with the revolving, at the top of the mast arranged body communicates.

The Essence of the invention is described below with reference to in the drawings schematically illustrated embodiments example closer explained. It show the:

1 a view of the upper area of the wind turbine

2 a plan view of wind attack surfaces of the wings in one revolution the vertical axis of rotation

3 a view on two opposite wings

4 another view on two opposite wings

5 a diagram of the dependence of wind power on the windage surface of the angular position.

In the 1 is a view of the upper portion of a wind turbine according to the invention shown. The wind turbine 1 consists of a generator (not shown), from a mast 2 and one on this mast 2 patched to a vertical axis of rotation 5 circulating basic body 3 on which the wings 4 the wind turbine 1 are arranged. The wings 4 are aligned vertically radial beam and fixed to the body 3 arranged. The wings have surfaces 6 on, in radial direction from the axis of rotation 5 aligned guide rails 7 are guided and serve as wind attack areas. A wind attack area 6 is of two vertically spaced superimposed guide rails 7 guided. The size of the wind attack area 6 is changeable on the permanently mounted wing. The wind attack areas 6 For example, they can be designed as sails or plates. The wind direction points into the drawing plane and rotates the main body 3 with the on the main body 3 arranged wings in the counterclockwise direction.

The 2 shows a plan view of the body 3 and the on this body 3 arranged wings, schematized on the wind attack surfaces 6 whose longitudinal end faces are radially radiating from the vertical axis of rotation extending straight lines. The wind direction is shown by dash-dotted arrows. The direction of rotation of the body 3 and the surfaces 6 is counterclockwise.

The wind attack areas 6 have in the arc segment on a larger area in which the wind direction is equal to the direction of rotation of the body 3 is (right semicircle). In the opposite circular arc segment (left semicircle) are the size of the wind attack surfaces 6 smaller and provide the wind, in this arc segment opposite to the direction of rotation of the body 3 attacks, a smaller attack surface. There remains an excess of energy in the direction of rotation.

In the 3 is a view on wings 4 shown at the about a vertical axis of rotation 5 circulating basic body 3 are arranged. The wind direction points into the drawing plane and rotates the main body 3 with the on the main body 3 arranged wings 4 counterclockwise. To the size of the wind attack surface 6 to change, is the wing 4 from two guide rails 7 which are telescopically extendable and shortenable. Between the vertically superimposed guide rails 7 a grand piano 4 is a canvas 9 as area 6 arranged. This is at the right of the body 3 at ordered wings 4a , in which the direction of rotation is equal to the wind direction, spanned large, while at the left on the main body pictured wing 4b , in which the direction of rotation is opposite to the wind direction, is small spanned. The reduction of the wind attack surface 4 is by curling or folding one or both end faces 8th reached the canvas ends.

In the 4 is a view on the wings 4 shown at the about a vertical axis of rotation 5 circulating basic body 3 are arranged. The wind direction points into the drawing level and rotates the body 3 with the on the main body 3 arranged wings 4 counterclockwise. To the size of the wind attack surface 6 to change, is the wing 4 from two guide rails 7 which are telescopically variable in length and between these guide rails 7 arranged plates 10 , The plates 10 can be made of plastic or metal. The plates 10 are inside the guide rails 7 slidably mounted against each other. At the right of the main body 3 arranged wings 4a , in which the direction of rotation is equal to the wind direction, the wind attack surface is by two adjacent or only slightly overlapping plates 10 big, while at the left of the main body pictured wings 4b , in which the direction of rotation is opposite to the wind direction, spanned by the successive overlapping plates small. It can also be closer to the body 3 arranged plate to be moved behind the plate, the body of 3 further away. It can be slidable against each other both plates, or only one plate can be fixed, while only the other plate of a wing is displaceable.

In the 5 is a diagram showing the dependence of the size of the windage surface of the angular position within a complete revolution of the body. On the abscissa is the angular position up to 360 °, on the ordinate is applied to the size of the wind attack surface. The size of the windage surface varies within a revolution in order to provide the largest possible windage surface in the circular arc segment in which the wind direction is equal to the direction of rotation and to provide a small possible attack surface in the circular arc segment in which the wind direction is opposite to the direction of rotation.

1

Wind turbine

2

connection (here: mast)

3

body

4

wing

5

vertical axis of rotation

6

area

7

guide rail

8th

front

9

sailcloth

10

plate

Claims (12)

Wind turbine, consisting of a rotating around a vertical axis of rotation force-transmitting base body, wherein at least one wing is arranged on the base body of a generator and a connection between the generator and the base body, characterized in that the wing has a wind attack surface vertically on a (imaginary ) is arranged fixedly from the axis of rotation radiating radial line and that the size of the wind attack surface on the fixedly mounted on the main body wing is changeable. Wind turbine according to claim 1, characterized in that that the size of the wind attack surface of the Wing within one turn of the main body so changeable is that in the circular arc segment, in which the direction of rotation of the basic body equal to the wind direction, the wing surface is larger than in the circular arc segment, in which the wind direction acts counter to the direction of rotation of the base body. Wind turbine according to claim 1, characterized in that that the wing from a wind attack surface and these wearing straps consists. Wind turbine according to claim 1, 3, characterized that the wing is a sail, which is guided within guide rails and which is on and ausrollbar. Wind turbine according to claim 4, characterized in that that the sail on the side facing away from the main body / and is rollable. Wind turbine according to claim 4, characterized in that that the sail both on the side facing away from the base body as also on the body turned side and / or rolled out and in a central vertically extending area of the cloth firmly on guide rails is arranged. Wind power plant according to claim 1,3, characterized in that the wind attack surface consists of at least two mutually displaceable surfaces, which are guided in guides and in that the displaceable surfaces plates and / or Sails are. Wind turbine according to claim 1, characterized in that that a flywheel is arranged, which mitantreibbar during rotation of the body is. Wind turbine according to claim 1, characterized in that a formwork in the form of a circular arc segment around the main body outside the radius of movement of the wings is arranged around. Wind turbine according to claim 9, characterized in that that a wind deflector is arranged on the casing. Wind turbine according to claim 1, characterized in that that the generator at the foot of the Connection between basic body and generator is arranged and over a vertically extending Wave with the circulating, arranged at the top of the mast body in Connection stands. Wind turbine according to claim 1, characterized in that that the size change the wind attack surface of the grand piano is effected by a motor.