DE102007062616A1 - Wind power generator for producing electricity from mechanical energy, has wind wheel with rotor having rotor blades coupled to rotor shaft, where length of rotor blades is adjustable, and tower is lengthwise adjustable - Google Patents

Abstract

The generator has a converting device (7) for conversion of flow energy of wind into usable energy, which is received from a tower, where the generator is used for transmission of the energy to a point of consumption. A wind wheel (10) of the converting device has a rotor with rotor blades (2) coupled to a rotor shaft (9). A length of the rotor blades is adjustable, and a tower (1) e.g. strut support is lengthwise adjustable. The rotor blades are telescopically adjustable to one another. The device has a horizontal axis rotor and a vertical axis rotor e.g. savonius rotor and darrieus rotor.

Description

The The invention relates to a wind power machine with a device for the conversion of flow energy the wind in usable, z. B. mechanical energy, which z. B. taken from a tower, which wind turbine for transmission the energy is suitable for the point of use, the device Wind turbine comprising a rotor, wherein the rotor on a rotor shaft having coupled rotor blades, and Z. B. the rotor shaft to a generator as a point of consumption for generating z. B. electrical energy from the mechanical energy coupled and the use of the wind turbine for coupling at z. B. heat pumps as a point of consumption.

in the The state of the art is wind power machines or wind turbines known. Under a wind turbine is also a device understood that the energy of the natural wind in usable converts mechanical energy and transfers this energy to the point of consumption. So are wind turbines known by means of suitably shaped rotating devices, like rotors, the flow energy convert the wind into usable rotational energy.

Under Wind power machines are preferably used horizontal axis rotors, who as Vielflügler, For example, as a two or three fly, apply. The Vielflügler have 12 to 24 relatively short flail or leaves that are flat or light produced bent sheet metal and rigidly mounted obliquely to the axis of rotation could be. Due to the inclination causes the wind pressure a lateral force, which is a rotation of the Rotor causes. Due to the large wind attack surface of the many wings The wind turbine can operate at very low wind speeds start.

It shows that wind turbines at low wind speeds only slightly wind power into turning energy, so that towers of the Wind turbines constantly exposed to wind pressure and wind suction are exposed.

Zedem become non-working conventional Wind power machines considered as a burden of the landscape, what to avoid.

Therefore is it desirable that wind turbines will only be tolerated if they are steadily rising Wind are applied to generate the energy.

moreover It turns out that the maintenance of the tower in scope and cost is lower, if only the wind turbine at a sufficient wind speed is driven.

task the invention is intended to provide a wind power machine, which is only at wind speeds in operation, if this for generating sufficient electrical energy or rotational energy are sufficient.

Farther a wind turbine should only be visible if they are the generation of kinetic or electrical energy is used.

In addition Coming the wind power machine should be retractable in storm and doldrums.

In addition Stepping the wind turbine should be extendable as required.

As well the wind turbine should provide sufficient stability make underground coupling possible in the underground.

Also is it desirable that a wind power machine is provided, which is resistant to icing is and is easy to maintain.

Finally, should the wind turbine will be silent during operation.

The The object of the invention is achieved by the claim 1, the under claims include preferred embodiments and further development of the invention.

The The invention relates to a wind power machine with a device for the conversion of flow energy of wind into usable mechanical energy, which wind turbine for the transmission of Energy is suitable for the consumption point, the device a wind turbine with a rotor, the rotor coupled to a rotor shaft rotor blades includes, for. B. the rotor shaft with a generator as a consumption point for generating electrical energy from the mechanical energy is connected, which is characterized in that the length of the rotor blades changeable is.

in the Meaning of the invention will also change the length of the rotor blades understood that the rotor blades z. B. a Savonius rotor along the axis of rotation of the same are telescopically slidable, the adaptability of the wind power machine according to the invention to any wind conditions to increase. In addition, for the purposes of the invention, this is understood to mean that the rotor blades z. B. a Darrieus rotor telescopically slidable are.

The wind turbine according to the invention may comprise means for converting wind energy flow into useable mechanical energy received from a tower, which wind power machine is suitable for transmitting power to the point of consumption, the device comprising a windmill with a rotor comprising rotor blades coupled to a rotor shaft , The rotor shaft is connected to a generator as a point of consumption for generating electrical energy from the mechanical energy, which is characterized in that the length of the rotor blades is variable.

Under Energy is understood in the context of the invention also any form of energy, such as mechanical, electrical and / or thermal energy.

In In a further embodiment, it is possible that the wind power machine according to the invention a device for the conversion of wind energy of the wind in usable energy, such as mechanical or electrical, be connected which can be picked up by a tower and / or rotor, which wind turbine for transmission the energy is suitable for the point of use, the device Pinwheel with a rotor, the rotor coupled to a rotor shaft Includes rotor blades, the rotor shaft with a generator as a consumption point for generating electrical energy is connected from the mechanical energy, which is characterized in that the tower is longitudinally adjustable.

The Wind turbine according to the invention comprises a device that controls the flow energy of the Wind in usable mechanical energy, for example in electrical Energy, transforms. The device has a rotor connected to a Rotor shaft coupled rotor blades having. Preferably, the rotor blades coupled to the rotor shaft are rotatable aligned around their long axis. The rotor shaft of the device is advantageously with a generator, preferably via a Gear, connected.

In a preferred embodiment of the wind turbine according to the invention the rotor shaft is designed as a horizontal axis rotor. At this execution The transmission may be located in an upper region of the tower of the wind power machine according to the invention. From the gearbox can be led out coupled to the rotor shaft main shaft. The main shaft may be telescopically slidable, do the longitudinal displacements the tower at the transition from rest to working position. At the bottom End of the main shaft or the free end of the rotor shaft is a Generator can be connected as a point of consumption, for example to generate electrical energy is suitable. The generator is in this embodiment preferably in the lower region of the tower. In a further particular embodiment of the wind power machine according to the invention are in the horizontal axis wing type the rotor blades The front of the rotor shaft is adjustably coupled to a rotation do their longitudinal axis. Angulation to the wind direction, allow for adjustment to the respective speeds.

In a further preferred embodiment of the wind power machine according to the invention is the rotor shaft as a horizontal axis rotor with a transmission connected, which with the rotor shaft from a building or a substrate is extendable or remain stationary in the building or subsoil can.

Of the Tower of the wind power machine according to the invention is height adjustable. The tower takes with its upper part the device with rotor, Rotor shaft and rotor blades on. In a preferred embodiment is located in the lower Area of the tower the generator for generating electrical energy. The tower can be designed as braced and / or hollow cylindrical components include. The components or the braced parts of the tower are designed such that they telescope into each other are.

Under For the purposes of the invention, telescopic is also understood to mean that a longitudinal displacement along the Central longitudinal axis A, here the tower, and thus height change the same can take place. By the height shift or longitudinal adjustment the tower will be the tower with the facility in sufficient wind conditions for example, from a building extended from the rest to the working position to the usable generate mechanical or electrical energy.

Around preferably requiring little space, can the rotor blades also be telescopically configured to by longitudinal displacement the parts of the rotor blades a sufficient shortening of the rotor blades to allow at rest. The rotor blades are coupled at least at one point on the rotor shaft. In the case the design of the wind turbine of the horizontal rotor type are these with her foot conventionally connected to the rotor shaft.

In a particularly preferred embodiment of the wind power engine according to the invention, instead of the telescopically displaceable rotor blades, a device which is designed as a vertical axis rotor can be used in the wind turbine of the horizontal axis rotor type according to the invention. In the case of using the vertical axis rotor, the rotor can be configured with the rotor shaft perpendicular and so-called Darrieus rotors and / or Sa vonius rotors are coupled to the rotor shaft. The advantage of the vertical axis rotor of the wind power machine according to the invention is the independence of the wind power machine according to the invention from the wind direction, so that the tracking of the rotor shaft for alignment of the rotor shaft along the wind direction is advantageously dispensed with and unnecessary wind direction tracking. In addition, the tower can remain permanently connected to its foundation in the ground.

Also, the Savonius rotor not only along the axis of rotation of the rotor shaft length-adjustable rotor blades have, but the rotor blades may have at their ends wing tips which are pivotable about an axis which is aligned parallel to the axis of rotation of the rotor shaft. In addition, the rotor blades of the Savonius rotor not only, possibly with the wing tips 2a be longitudinally adjustable but also inserted into each other, so its length in plan view shortened be, from z. B. space saving reasons or for the purpose of adaptation to predetermined wind conditions.

As well Is it possible, depending on the static of the subsoil and / or the building, the tower is fundamentless with the building to connect, from which the tower and / or the device to Implementation of flow energy the wind is usable in usable, such as mechanical, energy.

in the Case of the embodiment of the device as a vertical axis rotor with usual Savonius and / or Darieus rotors is the vertical axis rotor in the upper area of the tower. With sufficient wind speed the tower and / or the vertical axis rotor is in the working position from the rest position telescopically extended and extended. In contrast to the horizontal axis rotor, there is no wind direction tracking, so that the cost of the preparation of the wind power machine according to the invention with vertical axis rotor are low.

In a further preferred embodiment of the wind power machine according to the invention the rotor shaft is connected as a vertical axis rotor with a gear, which can be extended with the rotor shaft from a building or a subsoil is or in the building or underground stationary can remain.

The rotor blades of the Darrieus Rotur are conventional connected at both ends by means of joints on the rotor shaft, being to increase the adaptability of the wind turbine to wind conditions the opposite Joints of the rotor blade slidable along each other the axis of rotation of the Darrieus rotor can be configured.

In addition, draws the wind turbine according to the invention using the vertical axis rotor due to the small footprint out.

In addition Coming can be the rotor shaft of the vertical axis rotor as the main shaft the upper part of the tower in the lower part of the same filtered out be. The main shaft may advantageously be in the lower one Area of the tower arranged gearbox can be connected. In addition, can the main shaft guided in the lower tower area gearless be connected to the generator.

These execution is also characterized by low demands on the transmission due to low demands on the rotor shaft, because the rotor shaft the vertical axis rotor no extensive transmission needs with respect to Switching in the horizontal axis direction in the vertical axis direction rotating main shaft.

In a particular embodiment of the wind turbine according to the invention can the tower of telescoping hollow cylinders of the hollow shell type or hollow cylindrical braced components exist. These components or the shell parts be by means of conventional known in the art hydraulic and / or mechanical linkage in the Working position extended and shifted in the transition from the working position to the rest position.

It shows that the maintenance of the tower of the wind turbine of the invention in scope and cost is low, because the gearbox and the generator are located in the lower area of the tower and easy for the user accessible are.

Also is the wind turbine of the invention easy to maintain, because the mechanical and / or electronic Components as well as the transmission and / or the generator itself in the lower area of the tower of the wind turbine according to the invention are located can.

moreover can the tower with the wind turbine of the wind turbine according to the invention and / or the Device for the conversion of wind energy into the wind Usable, such as mechanical, energy depending on wind conditions arbitrarily from a building or subsurface is moved in or out. The extent of extension in working position can be adapted to the wind conditions.

The Wind turbine according to the invention is suitable for both the generation of electrical energy and of Rotational energy.

Furthermore, the wind of the invention be retracted during icing, without the risk of damage to the wind power machine according to the invention or injury of persons standing around.

Finally is the wind turbine according to the invention low noise during operation, because the gearbox and / or the generator are in the lower area the tower of the wind power machine according to the invention can be located.

embodiments

The Drawings show further advantageous expedient embodiments of the subject invention due to the simplified drawing in schematic, strong enlarged way, without Entitled to a true to scale Rendering in Embodiments without restriction on the invention to this in

1 the side view of the wind turbine of the invention of the horizontal rotor type with longitudinally adjustable and possibly folding around the rotor shaft rotor blades and telescopically movable tower, which is the same about the longitudinal axis,

2 the side view of the invention of the vertical rotor type wind turbine with Darrieus rotor with longitudinally adjustable rotor blade with longitudinally displaceable rotor shaft and variability of the arcuate blades of the rotor,

3 the side view of the invention of the vertical rotor type wind turbine with Savonius rotor with longitudinally adjustable rotor blades whose distance to the axis of rotation can be changed, with extendable tower or rotor shaft

4 the side view of the invention of the vertical rotor type Savonius rotor with longitudinally adjustable rotor blades whose outer wing tips are pivotable about an axis, with telescopically longitudinally adjustable rotor shaft, longitudinally adjustable and possibly retractable rotor blades and rotor blades insertable wing tips and telescopically movable tower
and

5 the oblique view of the invention of the vertical rotor type wind turbine with Savonius rotor with longitudinally adjustable rotor blades.

The wind power machine according to the invention has a tower 1 and a pinwheel 7 , The tower 1 is in an embodiment of a plurality of hollow cylindrical, telescoping components or shell parts 1a . 1b like cylinder jackets. The lower area of the tower 1 takes a generator 4 on. The upper area of the tower 1 takes the device 7 for converting the flow energy of the wind into usable mechanical or kinetic energy. In the case of using the wind power machine according to the invention with a device of the horizontal axis rotor, the axis of rotation of the rotor shaft can be aligned essentially in the wind direction ( 1 ). The device 7 includes a rotor shaft 9 and with the rotor shaft 9 connected rotor blades 2 which is rotatable about its longitudinal axis on the rotor shaft 9 are adjustable. The rotor blades 2 are also like the tower 1 telescopically adjustable. The lengths of the rotor blades 2 are by telescopic, telescopically formed rotor blade parts of the device of the horizontal axis rotor changeable. The longitudinal variability of the rotor blades 2 can z. B. done transversely to the rotor shaft. Also, the rotor blades can 2 around the rotor shaft 9 be folded or pivoted to save space in calm, at rest or when moving into a building or into the ground.

At rest, the wind turbine according to the invention are the cylinder jackets 1a . 1b of the tower 1 driven into each other and also the rotor blades 2 shortened longitudinally by the telescopic design. When transition from the rest position to the working position, the components 1a . 1b of the tower 1 along the center longitudinal axis A of the tower 1 extended, as well as the rotor blades 2 ( 1 . 4 ). In working position, the wind turbine is located above the building cover 5 or after the extension from the subsoil or soil above the subsurface.

In a further embodiment is located in the upper area of the tower 1 as a device such a vertical axis rotor ( 2 . 3 . 4 . 5 ). As a vertical axis rotor are particularly Darrieus rotors ( 2 ) and / or Savonius rotors ( 4 . 3 . 5 ) used. The vertical axis rotor is particularly suitable because of its independence from the wind direction, so that wind tracking, as required in the horizontal axis rotor, are not necessary. By using the vertical axis rotor, the costs for the provision of the wind power machine according to the invention as well as costs for the control and monitoring of the operation of the wind power machine according to the invention are significantly reduced.

In one embodiment, the rotor blades of the Darrieus rotor are longitudinally adjustable ( 2 ). The lengths of the rotor blades 2 are by telescopic, telescopically formed rotor blade parts of the device of the Darrieus rotor as a vertical axis rotor changeable to the arcuate configuration of the rotor blades 2 head for. moreover can the curvature of the rotor blades 2 by shifting the on the rotor shaft 9 coupled ends 3 the rotor blades are specified. Depending on the spacing on the rotor shaft 9 opposite ends 3 the rotor wing 2 For example, the opposite rotor blades 2 Form ellipses or circular arcs.

The Savonius rotor can be fitted with longitudinally adjustable rotor blades 2 be equipped whose distance from the axis of rotation of the rotor shaft 9 is changeable ( 4 . 3 ).

In addition, in a particular embodiment, the Darrieus rotor on the rotor shaft 9 along the rotor shaft 9 movable and adjustable rotor blades 2 , The extent of arcuate curvature by the displaceability of the ends of the rotor blades along the rotor shaft 9 is adjustable. In the case of setting the ends of the rotor blades using conventional connections in predetermined positions on the rotor shaft, the Darrieus rotor as a means for converting wind energy flow into usable energy in working position, the wind speeds for the flow energy exploitation can be adjusted continuously. In addition, another embodiment, the extent of the rotor blades 2 at arcuate curvature adjustable by the telescopic length adjustability of the rotor blades in order to adapt to wind pressure and suction. Also, in another embodiment, the Darrieus rotor with or without a generator at rest in a building 5 or be submersible in the ground and in working position z. B. extended telescopically.

Also, in another embodiment, the savonius rotor is not only along the axis of rotation of the rotor shaft 9 length-adjustable rotor blades 2 but the rotor blades 2 have at their ends 100 wingtips 2a which are pivotable about an axis which is to the axis of rotation of the rotor shaft 9 aligned in parallel ( 4 ). In addition, the rotor blades 2 of the Savonius rotor not only with the wing tips 2a be longitudinally adjustable along the rotor shaft, but also alternatively or additionally inserted into one another, so its length - substantially transversely to the rotor shaft - changeable, such as shortened or extendable, be from z. B. space saving reasons or for the purpose of adaptation to predetermined wind conditions. Also, in a further embodiment of the Savonius rotor with or without a generator at rest in a building 5 or be submersible in the ground and in working position z. B. extended telescopically.

Also, another embodiment, the wing tips 2a in the rotor blades 2 insertable for the purpose of shortening the same.

Also prove the longitudinal displacement the rotor wing along their longitudinal axes and / or along the rotor shaft, the longitudinal displacement the rotor shaft, the longitudinal displacement of the tower, the length variability the rotor wing advantageous to a space-saving deployment of the wind turbine according to the invention in To ensure rest position.

Just this embodiment make it possible, that the wind power machine according to the invention with tower and vertical axis rotor from rest to working position is extended, regardless from the wind direction.

Farther is the wind power machine according to the invention with vertical axis rotor particularly low maintenance due to the simple Design of the rotor shaft, because the rotor shaft perpendicular led out of the device and connected to the generator at the bottom of the tower.

The Rotor shaft or connected to the rotor shaft main shaft is telescopically adjustable to follow the longitudinal displacement of the tower.

The Wind turbine according to the invention records advantageously by a small footprint in the rest position out.

moreover are also the provision and operating costs of the wind power machine according to the invention low when using the vertical axis rotor.

In addition Coming is the wind power machine according to the invention Vertical axis rotor type of particular preference, because control devices and Windrichtungsnachführungseinrichtungen in contrast to horizontal axis rotor type omitted.

In addition Stepping is the wind power machine according to the invention advantageous, as inadequate Wind speeds completely retracted the wind turbine according to the invention can and should be today due to greater attention to the environment especially desirable, natural Invigorating the landscape.

Also the wind turbine according to the invention is characterized through a higher Acceptance in the population from, because the wind power machine according to the invention only with immediate generation electrical energy in working position is visible.

Claims (25)

Wind power machine with a device for converting wind energy of the wind into usable energy, which is preferably taken up by a tower, which wind power machine is suitable for transmitting the energy to the point of consumption, the device being a wind turbine ( 10 ) with a rotor, the rotor on a rotor shaft ( 9 ) coupled rotor blades ( 2 ), characterized in that the length of the rotor blades ( 2 ) is changeable. Wind power engine according to claim 1, characterized in that the rotor shaft ( 9 ) is connected to a generator as a point of consumption for generating electrical energy from the mechanical energy. Wind power machine according to claim 1 or 2, characterized in that the rotor blades ( 2 ) are telescopically slidable. Wind power machine according to one of claims 1 to 3, characterized in that the tower ( 1 ) is longitudinally adjustable. Wind power machine according to at least one of the preceding Claims, characterized in that the device is a horizontal axis rotor includes. Wind power machine according to at least one of the preceding Claims, characterized in that the device is a vertical axis rotor includes. Wind power engine according to claim 14, characterized in that the vertical axis rotor is a savonius rotor and / or a darrieus rotor is designed. Wind power machine according to at least one of the preceding claims, characterized in that the ends ( 3 ) of the rotor blade ( 2 ) of a Darrieus rotor along the axis of rotation of the Darrieus rotor and / or the rotor shaft ( 9 ) of the Darrieus rotor are slidable and adjustable along the axis of rotation of the Darrieus rotor. Wind power machine according to at least one of the preceding claims, characterized in that the length of the rotor blade ( 2 ) of a Darrieus rotor are changeable and adjustable. Wind power machine according to at least one of the preceding claims, characterized in that the rotor blade ( 2 ) of a Darrieus rotor is telescopically displaceable. Wind power machine according to at least one of the preceding claims, characterized in that the, preferably vertical, alignable tower ( 1 ) is height adjustable. Wind power machine according to at least one of the preceding claims, characterized in that the tower ( 1 ) is telescopically slidable. Wind power machine according to at least one of the preceding claims, characterized in that the rotor blades ( 2 ) is slidable into each other. Wind power machine according to at least one of the preceding claims, characterized in that the Savonius rotor rotor blades ( 2 ) with wing tips ( 2a ), which at the ends ( 100 ) the rotor blade ( 2 ) are coupled. Wind power machine according to at least one of the preceding claims, characterized in that the Savonius rotor rotor blades ( 2 ), at the ends ( 100 ) Wing tips ( 2a ) are pivotally coupled, the wing tips ( 2a ) are pivotable about an axis and adjustable parallel to the axis of rotation of the rotor shaft ( 9 ) is aligned. Wind power machine according to at least one of the preceding claims, characterized in that the Savonius rotor rotor blades ( 2 ) whose lengths along the axis of rotation of the rotor shaft ( 2 ) are adjustable and / or whose curvatures can be changed. Wind power machine according to at least one of the preceding claims, characterized in that the rotor shaft of the Savonius rotor with the rotor blades ( 2 ) along the axis of rotation of the rotor shaft ( 2 ) are adjustable. Wind power machine according to at least one of the preceding claims, characterized in that the Savonius rotor rotor blades ( 2 ) whose lengths are transverse to the axis of rotation of the rotor shaft ( 2 ) are adjustable. Wind power machine according to at least one of the preceding claims, characterized in that the rotor shaft ( 9 ) is connected via a gear to the generator. Wind power machine according to at least one of the preceding claims, characterized in that the tower ( 1 ) with shell parts ( 1a . 1b ) is covered laterally and the shell parts ( 1a . 1b ) are mutually displaceable. Wind power machine according to at least one of the preceding claims, characterized in that from the transmission a main shaft ( 12 ) which is telescopically adjustable and with which in a lower area of the tower ( 1 ) arranged generator ( 4 ) is connected to drive the same. Wind power machine according to at least one of the preceding claims, characterized in that the rotor blades ( 2 ) at the front on the rotor shaft ( 9 ) are adjustably coupled, which are designed to be rotatable about their longitudinal axes. Wind power machine according to at least one of the preceding claims, characterized in that the axis of rotation of the rotor shaft ( 9 ) is aligned substantially in the wind direction. Wind power machine according to at least one of the preceding claims, characterized in that the tower ( 1 ) is designed as a braced support. Wind power machine according to at least one of the preceding claims, characterized in that the shell parts ( 1a . 1b ) is hollow cylindrical, preferably half-shell-shaped, and in particular has several parts.