DE202014004959U1 - Wind turbine with at least one rotor - Google Patents

Abstract

Wind power plant with at least one rotor, which is in operative connection with at least one engine, preferably with a generator, characterized in that the rotor (7) is arranged at the free end of a tower (1) on a vertically oriented shaft and that in the side walls of the Tower (1) air channels (5) with a first channel opening (3) are each arranged in the side wall, which have a second channel opening (6) below the rotor (7).

Description

The invention relates to a wind turbine with at least one rotor, which is in operative connection with at least one engine, preferably with a generator.

Wind turbines of the aforementioned genus have been known for decades. They each have rotors which are connected via a corresponding shaft with a generator for converting mechanical wind energy into electrical energy.

Mutually different types of wind turbines with horizontally located shafts for the rotor or with vertical shafts for the rotor have been developed for mutually different purposes. Common to these wind turbines, however, is that rotors with quite considerable diameters can be seen by third parties and cast shadows in individual cases. Landscapes can not be beautified with wind turbines of a well-known kind. In offshore wind turbines, spa directors on the coast regularly take care of the well-being of their guests.

Also problematic is the retrofitting of smaller wind turbines on houses or buildings within a city. Again, the visual impression is negative.

The invention is therefore based on the object to show a wind turbine of the type mentioned, which is inconspicuous ausbildbar, but nevertheless allows a high energy input.

This object is inventively achieved in that the rotor is arranged at the free end of a tower on a vertically oriented shaft and that in the side walls of the tower air ducts are arranged with a first channel opening respectively in the side wall having a second channel opening below the rotor.

In the wind turbine according to the invention, a vertically aligned shaft is provided. The rotor on this vertically aligned shaft is located at the free end of a tower. This gives the possibility that the blades of the rotor are at least partially covered by the tower and thus views are withdrawn. Air for driving the rotor does not hit directly on this, but air ducts are provided in the side walls of the tower. Air is supplied to the rotor via these air ducts, and channel openings are provided below the rotor for this purpose.

First channel openings of the air ducts are arranged in the side wall of the tower. In this way, a wind impinging on the side wall of the tower can enter the air duct and be guided upwardly below the rotor. Upwardly exiting air then drives the rotor.

A first development of the invention provides that the width of the tower is greater than the diameter of the rotor. With this configuration, the rotor can be completely covered by the tower, so that the rotor is not visible from a position next to the tower. This allows the installation of the wind turbine according to the invention in urban areas, is also possible, the arrangement of such a tower with rotor on an existing building.

For the air ducts can be provided that a plurality of air ducts have a common second channel opening. Air ducts emanating from the side wall of the tower can converge and emerge from the tower via a common second channel opening below the rotor. The first channel openings in the side wall can each have walls which are aligned in the direction of the rotor.

According to a next development of the invention, the second channel openings can be assigned air guide elements. With these spoiler air can be deflected from the air ducts exiting air. It is preferably also possible to close the channel openings with the air guiding elements, so that no air comes near the rotor, for example during maintenance times of the rotor. The air guide elements can be designed as flaps.

According to a next development of the invention, it is provided that the rotor is associated with an at least partially circumferential side wall. The width of the tower is preferably larger than the diameter of the rotor. The tower can therefore support a side wall associated with the rotor so that when fully circulated around the rotor it engages that rotor. The side wall prevents crosswinds coming to the rotor. Winches are to be supplied to the rotor only via the air ducts. The upper edge of the side wall is therefore higher than the rotor. From the side approaching winds are thereby deflected upwards, they can possibly cause a negative pressure, which promotes a lead out of the air through the ducts supplied air through the rotor. On the upper edge of the side wall windbreaking elements can be arranged to prevent a collapse of strong side winds in the region of the rotor.

Below the hub of the rotor is preferably still a space available in which technical equipment such as the generator are arranged.

The tower of the wind power plant according to the invention may for example have a height of 70 m and thereby have a width of 30 m. The width is formed, for example, as a diameter when the tower is circular in horizontal cross-section.

An embodiment of the invention, from which further inventive features arise, is shown in the drawing. The sole figure of the drawing shows a sectional view of a wind turbine according to the invention.

The wind turbine in the embodiment has a circular cross-section tower 1 that on a ground 2 gets up. The tower 1 has a diameter of about 30 m, in its side walls are channel openings 3 arranged in, as with lines 4 characterized, air can occur due to wind attack. To the canal openings 3 closes an air duct 5 on, which has a second channel opening 6 in an area below one at the upper free end of the tower 1 arranged rotor 7 opens. The rotor 7 has a rotor hub 8th as well as at the rotor hub 8th arranged rotor blades 9 , The second channel openings 6 are below the rotor blades 9 arranged, are between the second channel opening 6 and rotor blade 9 still air guiding elements 10 intended. The air guiding elements 10 are adjustable flaps.

In a room 11 below the hub 8th are technical systems such as a generator 12 locatable. Inside the tower there is room for a lift 13 ,

Also in the base area is still a room 14 for technical systems.

The rotor 7 For example, twelve rotor blades 9 have angle-changeable employees in their employment. In addition, the flow of the rotor 7 with the air guide elements 10 to be influenced.

The rotor 7 is a side wall all around 15 assigned. The height of this side wall 15 is greater than the height of the rotor 7 ,

All the features mentioned in the preceding description and in the claims can be combined in any selection with the features of the independent claim. The disclosure of the invention is thus not limited to the described or claimed combinations of features, but all meaningful combinations of features within the scope of the invention are to be regarded as disclosed.

LIST OF REFERENCE NUMBERS

1

tower

2

ground

3

first channel opening

4

line

5

air duct

6

second channel opening

7

rotor

8th

hub

9

rotor blades

10

air guide

11

room

12

generator

13

elevator

14

room

15

Side wall

Claims (10)

Wind turbine with at least one rotor, which is in operative connection with at least one engine, preferably with a generator, characterized in that the rotor ( 7 ) at the free end of a tower ( 1 ) is arranged on a vertically oriented shaft and that in the side walls of the tower ( 1 ) Air channels ( 5 ) with a first channel opening ( 3 ) are each arranged in the side wall having a second channel opening ( 6 ) below the rotor ( 7 ) exhibit. Wind turbine according to claim 1, characterized in that the width of the tower ( 1 ) greater than the diameter of the rotor ( 7 ). Wind turbine according to claim 1 or 2, characterized in that a plurality of air ducts ( 5 ) a common second channel opening ( 6 ) to have. Wind turbine according to one of the preceding claims, characterized in that the first channel openings ( 3 ) in the side wall each have walls which in the direction of the rotor ( 7 ) are aligned. Wind turbine according to one of the preceding claims, characterized in that the second channel openings ( 6 ) Air guiding elements ( 10 ) assigned. Wind power plant according to claim 5, characterized in that the air guiding elements ( 10 ) Flaps are. Wind turbine according to one of the preceding claims 2 to 6, characterized that the rotor ( 7 ) an at least partially circumferential side wall ( 15 ) assigned. Wind turbine according to claim 7, characterized in that the upper edge of the side wall ( 15 ) in a plane of the highest portion of the rotor ( 7 ) including its hub ( 8th ) lies. Wind turbine according to claim 8, characterized in that on the upper edge of the side wall ( 15 ) Windbreaking elements are arranged. Wind turbine according to claim 8 or 9, characterized in that in a room ( 11 ) below the hub ( 8th ) the generator ( 12 ) is arranged.

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