DE102009012907A1 - Wind power machine for converting kinetic energy of wind into electrical power, has rods, where direction of inclination of side surfaces of rods is provided towards wind direction and holders of rods at blades include fields for blades - Google Patents

Abstract

The machine has a gondola with rotor blades (2), which are fastened at a shaft (6). A horizontal rotational axis (3) of the shaft is directed in a wind direction (7). Side surfaces of the blades include an inclination relative to the axis. Diagonal rods (9) are provided before the blades and connect the blades with a front side (10) of the shaft. The rods have a streamline shape. A direction of inclination of side surfaces of the rods is provided towards the wind direction. Holders of the rods at the blades include separate fields for the blades.

Description

The invention belongs to the technique of converting the wind energy into electrical energy by intermediate conversion of the kinetic energy of the wind into a rotational movement of the rotor, which is passed on to a generator and converted there into electrical current.

It is known wind turbine that realizes the conversion of wind energy into electrical energy.

This wind turbine incorporates the nacelle with rotor blades, the rotor blades being fixed to the shaft with the horizontal axis of rotation via the mechanisms of regulating the inclination of the side surfaces of these rotor blades (perhaps these mechanisms are called "pitch controlled equipment", but author does not have accurate information), axis of rotation the shaft is directed in the wind direction and the rotor blades have such inclination of the side surfaces relative to the rotation axis, which ensures the discontinued rotation direction of wind them, also wind turbine includes the Windrichtungnachführung, the tower on which the above-mentioned objects are placed, and the foundation. (See: Internet < http://de.wikipedia.org/wiki/Windenergieanlage > - wind turbine from Wikipedia, the free encyclopedia).

The known construction of the wind turbine has the next shortcoming.

The defective rotor blades due to the contact with the tower in extreme gusts of wind are present.

In a storm, the leaves can be rotated with the trailing edge forward. The system then does not have to be turned out of the wind.

At very high wind speeds (typical shutdown speed 25-35 m / s, wind force 10-12 Bft), the system is switched off to prevent damage due to mechanical overload. That is, then, when you can get much of the electric power, wind turbine is not working.

It is also known wind turbine that realizes the conversion of wind energy into electrical energy (the Japan Patent No. 2005291185 A F03D 11/00 F03E 1/06 F03E 7/04; also the identical one (according to the publication) Japan Patent No. 2006138303 A F03D 11/00 F03D 1/06 F03D 9/00).

This wind turbine includes the nacelle having rotor blades, the rotor blades being fixed to the shaft with the horizontal axis of rotation by the mechanisms of regulating the inclination of the side surfaces of these rotor blades, the axis of rotation of the shaft being windward, and the rotor blades having such inclination of the side surfaces relative to the axis of rotation of the rotor Wave which ensures the discontinued rotation direction from wind them
the rotor blades are also supplied by the diagonal braces,
the diagonal struts are housed in front of the rotor blades with the wind side and additionally connect the rotor blades with the above-mentioned shaft and with their extended front face, also wind turbine includes the Windrichtungnachführung, the tower on which the above-mentioned objects are placed, and the foundation.

The known construction of the wind turbine has the next shortcomings.

The above-mentioned diagonal struts are not adapted and are not used like the rotor blades for converting the kinetic energy of the wind into a rotary motion of the rotor and correspondingly increasing the effectiveness of the exploitation of the wind power machine.

The support of the diagonal struts of the known construction to rotor blades of the publication according to assures not free regulation of the inclination of the side surfaces of the rotor blades, if such regulation is really provided by the construction of the given analog. The absence of free regulation of the inclination of the side surfaces of the rotor blades according to the information from the first analog can lead to damage by mechanical overload.

The object of the invention is to increase the effectiveness of the exploitation of the wind turbine by using the diagonal braces as well as the rotor blades for the conversion of the kinetic energy of the wind in a rotary motion of the rotor, also complementary task is the guarantee of free regulation of the inclination of the side surfaces the rotor blades in the bracket to them the diagonal struts by using the joints in this bracket.

The stated object is achieved in that the offered construction of the wind turbine corresponds to the following features, which are described in a point of the patent claims.

According to this point of the claims, the wind power machine characterized by known features:
it contains the nacelle with rotor blades,
the rotor blades being fixed to the shaft with the horizontal axis of rotation by the mechanisms of regulating the inclination of the side surfaces of these rotor blades, the axis of rotation of the shaft being directed downwind and
the rotor blades have such inclination of the side surfaces relative to the axis of rotation of the shaft, which ensures the discontinued rotation direction of wind them, and the rotor blades are supplied by the diagonal struts,
the diagonal struts are housed in front of the rotor blades with the wind side and additionally connect the rotor blades with the above-mentioned shaft and that with their extended front face,
Wind turbine also includes the wind direction tracking, the tower on which the above-mentioned objects are erected, and the foundation,
also has the new features:
the diagonal struts have streamline shape and
the direction of inclination of the side surfaces of the diagonal struts to the wind direction is such as the rotor blades have,
the brackets of the diagonal braces to rotor blades comprise the separate areas of the rotor blades with the possibility of free-regulation of the inclination of the side surfaces of the rotor blades.

The use in the proposed design of the wind turbine of the novel feature according to which the diagonal struts have a streamlined shape allows the unwanted indignation of the air flow coming to rotor blades, despite the presence of rotor blades of the diagonal struts, to be prevented; the use in the proposed construction of the wind turbine of the novel feature, according to which the direction of inclination of the side surfaces of the diagonal struts to the direction of the wind are as the rotor blades have, allows the efficiency of the wind power engine by increasing the torque on the shaft of the electric generator distortion steeds; the use in the proposed construction of the wind turbine of the novel feature, according to which the supports of the diagonal struts to the rotor blades comprise the separate areas of the rotor blades with the possibility of free frictional control of the inclination of the side surfaces of the rotor blades, maintains the usual conditions of exploitation of the rotor blades.

The character of the invention is characterized by the 1 - 8th and the detailed description explains.

It will be shown:

1 - The construction of the guide part of the wind turbine, the side view.

2 - The construction of the guide part of the wind turbine, the frontal projection.

3 - the object "A" on 1 on a larger scale.

4 - the object "B" on 2 on a larger scale.

5 - The construction of the guide part of the wind turbine, the other variant, the side view.

6 - The construction of the guide part of the wind turbine, the other variant, the frontal projection.

7 - The average "CC" on 5 on a larger scale.

8th - The object "D" on 5 on a larger scale.

Lower is the description of the construction of the wind turbine 1 - 8th submitted. In order to make the nature of the invention easier to understand and simplify for the various variants of the construction, the functionally and structurally similar objects have been applied to the 1 - 8th same position number.

The wind turbine contains the gondola ( 1 ) with rotor blades ( 2 ), which is the horizontal axis of rotation ( 3 ), the wind direction tracking ( 4 ), the tower ( 5 ) on which the above-mentioned objects are placed, and the foundation (the foundation is located much lower of the head part of the wind turbine, therefore the foundation on the drawings is not shown).

The rotor blades ( 2 ) are on the wave ( 6 ) with the above-mentioned horizontal axis of rotation ( 3 ) and are on the shaft ( 6 ) by mechanisms of change of an inclination she is attached to lateral surfaces. (These mechanisms are not shown on the drawings). The axis of rotation ( 3 ) the wave ( 6 ) with the help of Windrichtungnachführung ( 4 ) is directed downwind ( 7 ). The inclination is given to the side surfaces of the rotor blades ( 2 ) by specified mechanisms with respect to their axis of rotation ( 3 ), which the discontinued rotation direction ( 8th ) the rotor blades ( 2 ) ensured by wind. The rotor blades ( 2 ) are by the diagonal struts ( 9 ), the diagonal braces ( 9 ) are in front of the rotor blades ( 2 ) and additionally connect the rotor blades ( 2 ) with the wave ( 6 ), more precisely, with the extended front face ( 10 ) the wave ( 6 ). The holder of the diagonal braces ( 9 ) to rotor blades ( 2 ) is with the possibility of changing the inclination of the side surfaces of the Rotor blades in the invariable spatial position of the diagonal braces ( 9 ) done.

A variant of the holder is on the drawings 1 . 2 . 3 . 4 demonstrated. This variant contains the holder of the diagonal braces ( 9 ) to the central part of the rotor blades ( 2 ), the brackets include the specified areas of the rotor blades. Such variant of the brackets is practically the standardized assembly of the two ball bearings - the radial ( 11 ) and the axial ( 12 ).

The assembly of the ball bearings is on the turned bush ( 13 ) and onto the corresponding cylindrical area ( 14 ) of the middle part of the rotor blade ( 2 ), the area ( 14 ) the paragraph ( 15 ) below, to which the socket ( 13 ) supports. Axis of the cylindrical region ( 14 ) is perpendicular to the axis of rotation ( 3 ) the wave ( 6 ).

The assembly of ball bearings ( 11 ) and ( 12 ) is with the front face ( 10 ) the wave ( 6 ) by the two adjacent diagonal struts ( 9 ) coupled. These diagonal braces ( 9 ) are with the front face ( 10 ) the wave ( 6 ) and with the assembly of the ball bearings ( 11 ) and ( 12 ) hinged. The connection with the shaft ( 6 ) is the common joint ( 16 ). The housing ( 17 ) of the axial ball bearing ( 12 ) contains the two pins ( 18 ), and the diagonal braces ( 9 ) have the oval load eyes ( 19 ) above, on the pins ( 18 ) are dressed. The necessary parallel arrangement of the areas with the oval load eyes ( 19 ) the adjacent diagonal struts ( 9 ) is due to the presence of the spreader ( 20 ) between these diagonal braces ( 9 ) guaranteed. The diagonal braces ( 9 ) are calculated on the use only in the traction. The presence of the oval load eyes ( 19 ) on the diagonal struts ( 9 ) is necessary for protection of the diagonal braces ( 9 ) against undesirable stresses of compression in case of possible vibration of the rotor blade ( 2 ).

(The variant of the construction with the rolling bearings in a given invention allows him to unveil the essence more convincing.

However most often rolling bearings are used for objects which constantly and quickly rotate. The rotor blades rarely and slowly change their inclination. Therefore, in this case, the use of plain bearings is possible. It's easier, cheaper and more compact. But that is a question of concrete planning.)

The diagonal braces ( 9 ) and the spreader ( 20 ) are done like streamlined. Example of this form is shown on the 7 , where the direction of inclination of the side surfaces ( 21 ) of the diagonal braces ( 9 ) to the wind direction ( 7 ) and rotation axis ( 3 ) such as the rotor blades ( 2 ) to have.

On 7 is the variant of the construction of the diagonal braces ( 9 ).

The main part of the construction is a wire rope ( 22 ) (as have the patents of Japan). The wire rope ( 22 ) is in the coat ( 21 ) from the steel sheet (the position ( 21 ) denotes at the same time and the side surfaces of the diagonal struts and their sheath). The coat ( 21 ) is done like streamlined. Fixation of the necessary direction of inclination of side surfaces ( 21 ) of the diagonal braces ( 9 ) is due to the constructive hard connection of the shell with the end joints and also with the construction of the spreader ( 20 ) thanks to corresponding chamfers of their faces guaranteed.

Second variant of the holder is on the drawings 5 . 6 and 8th demonstrated. This variant contains the holder of a diagonal brace ( 9 ) to the top of the rotor blade ( 2 ) with the aid of the double-directed joint ( 23 ), the mutually orthogonal joint axes ( 24 ) and ( 25 ) Has. (First variant is the double-jointed joint as well.)

Joint axis ( 25 ) is the peripheral part of the rotor blade ( 2 ). It is axial with longitudinal axis of rotation ( 26 ) of the rotor blade ( 2 ) and perpendicular to the axis of rotation ( 3 ) the wave ( 6 ). Rotor blade rotates about this axis ( 2 ) in the change in he the inclination of the side surfaces.

The connection with the shaft ( 6 ) a diagonal strut ( 9 ) in the second variant is identical to the first variant.

It is obvious that there is no problem of sharing both variants of the support of the diagonal struts ( 9 ) to rotor blades ( 2 ) gives. In this case, the indicators of durability and stiffness of the rotor blades ( 2 ) significantly higher.

Above described wind turbine works like and ordinary wind turbine. At the top it has already been stated that the presence of diagonal braces ( 9 ) the change in the inclination of the side surfaces of the rotor blade ( 2 ) and according to the usual exploitation of the wind turbine is not hindered. But the presence of the diagonal braces ( 9 ) allows to achieve the above stated objects and objects of the invention successfully.

The offered technical decision complicates the construction of the wind turbine a few, but in this case expensive equipment and materials are not required. Among other things, the demands on the materials of the rotor blades are reduced. It is possible a use the cheaper materials for the production of rotor blades z. As the steel.

On the other hand, the somewhat complicated construction is many times compensated for by the positive effects mentioned in the object of the invention and in the explanation of the new features of the patent claims.

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

• JP 2005291185 A [0008]
• JP 2006138303 A [0008]

Cited non-patent literature

• http://de.wikipedia.org/wiki/Windergieanlage [0003]

Claims (1)

The wind power machine with the following features: it contains the nacelle ( 1 ) with rotor blades ( 2 ), wherein the rotor blades ( 2 ) on the shaft ( 6 ) with the horizontal axis of rotation ( 3 ) by the mechanisms of regulation of the inclination of the side surfaces of these rotor blades ( 2 ), rotary axis ( 3 ) the wave ( 6 ) in the wind direction ( 7 ) is directed and the rotor blades ( 2 ) such inclination of the side surfaces relative to the axis of rotation ( 3 ) of the shaft which the discontinued rotation direction ( 8th ) from wind ensures them, even the rotor blades ( 2 ) through the diagonal struts ( 9 ), the diagonal braces ( 9 ) in front of the rotor blades ( 2 ) are housed with the wind side and the rotor blades with the above-mentioned shaft ( 6 ) with its by extended front face ( 10 ) in addition wind power machine also contains the Windrichtungnachführung ( 4 ), the tower ( 5 ), on which the above-mentioned objects are placed, and the foundation, it is characterized in that: the diagonal struts ( 9 ) have streamlined shape and the direction of inclination of the side surfaces ( 21 ) of the diagonal braces ( 9 ) to the wind direction ( 7 ) is such as the rotor blades ( 2 ), the brackets of the diagonal braces ( 9 ) to rotor blades ( 2 ) the isolated areas ( 14 ) and or ( 25 ) of the rotor blades ( 2 ) with the possibility in this framework of free regulation of the inclination of the side surfaces of the rotor blades ( 2 ).

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