WO2008029967A1

WO2008029967A1 - Advanced wind power system

Info

Publication number: WO2008029967A1
Application number: PCT/KR2006/003861
Authority: WO
Inventors: Hyung Ju Yoo; Sung Kwon Yoo
Original assignee: Irwindpower Co., Ltd
Priority date: 2006-09-05
Filing date: 2006-09-28
Publication date: 2008-03-13
Also published as: KR100848375B1; KR20080021859A

Abstract

A wind power system is provided. The wind power system is capable of maximizing power supply and maximum power supply per wind power system under the same conditions, as compared with a conventional wind power system employing unidirectional vanes. This is obtained through operations of vertical blades, a turbo air compression system, and a wind direction responsive tail, which operate in coordination with one another.

Description

[DESCRIPTION] [Invention Title]

ADVANCED WIND POWER SYSTEM

[Technical Field]

The present invention relates to a wind power system.

[Background Art]

In the wind power system, rotational efficiency is reduced and frictional noise is increased due to an increase of resistance in the system with respect to wind speed. The maximum power generation efficiency is achieved through fixed type vanes, only when wind blows in a predetermined direction. Accordingly, it is difficult to obtain the maximum power generation efficiency. In addition, it is impossible to obtain sufficient power generat ion efficiency due to air resistance based on an angle between blades and the direct ion of wind and resist ive force caused by flux of wind. In addition, an amount of air introduced into blades is 1 imited.

[Disclosure]

[Technical Problem]

Since a conventional wind power system has low efficiency, a photovoltaic power system is generally employed. However, the photovoltaic power system is not efficient, since the photovoltaic power system is largely influenced by a change in the weather. The conventional wind power system does not rapidly respond to a shift of wind. Energy resources are unnecessarily wasted due to a sensor for sensing the direction of wind and a process of changing the direction of a rotator due to electrical operations.

[Technical Solution]

The present invention provides a complementary non-resistive wind power system including an intelligent tail capable of turning a rotation direction of a rotator by sensing a direction of wind and a turbo air compression system positioned at a front side of wind which is capable of accelerat ing a flux introduced into blades by compressing introduced air, so that the turbo air compression system and the intelligent tail operate in coordination so as to compensate surface frictional resistance of the turbo air compression system and so as to maintain a predetermined angle. The present invention also provides supporting structures including a body and a shaft for providing a system capable of obtaining opt imized power generat ion efficiency in a low speed of wind regardless of small space and area by environmentally considering townscapes. The present invention also provides a wind power system capable of improving power generation efficiency and including environmental functions in which a tail has a flat plate structure to maximize an advertising effect by allowing advertising materials to be attached to a tail, the wind power system having an improved durability with respect to a change in the whether conditions such as weather, temperature difference, and the like so as to have corrosion resistance and earthquake resistance and to have a structure capable of absorbing impact with respect to external environments.

[Advantageous Effects]

In the present invention, it is possible to maximize a power generat ion amount under the same condit ions. It is possible to improve the power generation efficiency and reduce installation space.

Accordingly, the wind power system according to an embodiment of the present invention is free from limitations of environmental effects.

It is possible to economically install the wind power system. It is also possible to provide optimal power generation efficiency in a low speed of wind, in consideration of townscapes. In addition, it is possible to add an advertising effect by enabl ing advertising materials to be attached to a tail, since the tail has a flat plate structure.

[Description of Drawings]

FIG. lisa perspective view i 11listrat ing a structure of a wind power system according to an embodiment of the present invention;

FIG. 2 is a partly expanded perspective view illustrating a structure of a turbo air compression system according to an embodiment of the present invention;

FIG. 3 is a partly expanded perspective view illustrating a structure of an intelligent tail according to an embodiment of the present invention; FIG. 4 is a partly expanded perspective view illustrating structures of a housing and a rotator; FIG. 5 is a partly expanded perspective view illustrating structures of a body and a shaft;

FIG.6 illustrates a state in which main parts of a wind power system operate in coordination with one another according to an embodiment of the present invention;

FIG.7 i 1 lustrates an entire structure of a front of a wind power system according to an embodiment of the present invention;

FIG.8 i 1 lustrates an entire structure of a rear of a wind power system according to an embodiment of the present invention; and FIGS.9 and 10 i 1 lustrate examples in which an advertising board is installed on an intelligent tail according to an embodiment of the present invention.

[Best Mode] According to an aspect of the present invention, there is provided an advanced wind power system comprising: a turbo air compression system 2 for effectively using wind power by variably rotat ing based on a direct ion of wind; an intel 1 igent tai 13 control 1 ing a direction in which air is introduced into the turbo air compression system 2 based on the direction of wind; a housing 5 connected to the turbo air compression system 2 and the intelligent tail 3 so as to support the turbo air compression system 2 and the intelligent tail 3 and so as to drive the turbo air compression system 2 and the intelligent tail 3 in coordination with each other; a rotator 4 generating power caused by the turbo air compression system 2 and pressure of external Iy introduced air , which is included in the housing 5;, a shaft 6 installed in the housing 5 and the rotator 4 so as to be combined with ground structures; and a body 7 for fixing a main body 1 formed at an end of the shaft 6 to the ground.

[Mode for Invention]

Hereinafter, an embodiment of the present invention will be described in detail with reference to accompanying drawings.

FIG. lisa perspective view i 1 lustrating a structure of a wind power system according to an embodiment of the present invention. FIG. 2 is a partly expanded perspective view illustrating a structure of a turbo air compression system according to the embodiment of the present invention. As shown in the drawings, a turbo air compression system 2 has a shape of a modified triangular prism including a plurality of inlets 32 for compressing air. The plurality of inlets 32 for compressing air are constructed by combining horizontal supporting plates 10 and vertical multi-step plates 11.

The turbo air compression system 2 is fixed to a side of an outer surface of a housing 5 through a bent fixing plate 13. Upper and lower plates of the horizontal supporting plates 10 are engaged with a neighboring part of circular frames 34 formed at upper and lower ends of the housing 5 through the fixing plate 13 by using bolts or rivets. The height of the turbo air compression system 2 may be the same as the height between the upper and lower circular frames 34.

In addition, a bight portion 12 is formed in a surface of the turbo air compression system 2 adjacent to the housing 5, when being combined with the housing 5 so as to be closely attached to a connection frame 35 of the cylindrical housing 5 and the upper and lower circular frames 34.

FIG. 3 is a partly expanded perspective view illustrating a structure of an intelligent tail according to an embodiment of the present invention. The intelligent tail 3 includes a main wing 20, an auxiliary wing 21, a fixing hole 40 engaged with an upper pipe of which one end is attached to the main and auxiliary wings 20 and 21 and of which the other end is fixed on the upper surface of the housing 5, an upper rod 23 for fixing the intelligent tail 3, a fixing hole 40' engaged with a lower pipe of which one end is attached to lower ends of the main and auxiliary wings 20 and 21 and of which the other end is fixed on the lower surface of the housing 5, a lower rod 24 for fixing the intelligent tail 3, a gusset plate 22 attached to the main and auxiliary wings 20 and 21 so as to prevent the main and auxiliary wings 20 and 21 from fluctuating and vibrating due to curved wind and air resistance caused by rotation of the rotator 4, and supporting panels 36 for solidly supporting members of the intelligent tail 3, which are stacked in the main and auxiliary wings 20 and 21.

In addition, the tai 13 has an advertisement effect by attaching an advertising board 9 to the outer surfaces of the main and auxiliary wings 20 and 21.

FIG. 4 is a partly expanded perspective view illustrating structures of a housing and a rotator. The rotator 4 is constructed with upper and lower disks 29 and 30, and a plurality of blades 31 for connecting the upper and lower disks 29 and 30 to each other. A penetration hole 37 is formed at the center of the rotator 4 so as to allow the shaft 6 to pass therethrough.

In addition, the housing 5 into which the rotator is inserted and fixed so as to construct external skeletons of the rotator 4 includes the circular frames 34, the supporting frames 33 fixed to the circular frames 34 and crossed to one another with respect to the centers of the circular frames 34, and the connection frames 35 for connecting the upper and lower circular frames 34. A guard frame 38 is installed at the center of the upper circular frame 34. An inner projecting member 16 is formed at an upper part of the guard frame 38 so as to prevent impurities including rain or snow from being introduced into the housing, together with an outer cover 15. A blocking plate 39 is included in the lower part of the guard frame 38 so as to block the impurities introduced from the upper disk 29 of the rotator 4. Although impurities are outwardly pushed from the center by centrifugal force caused by rotation of the rotator 4, when the rotator 4 stops rotating, the impurities may be introduced into the housing 5. Accordingly, a protrusing part 19 is formed on the upper disk 29 around the central axis so as to prevent fine impurities passing through the blocking plate 39 from being introduced into the housing 5. FIG. 5 is a partly expanded perspective view illustrating structures of a body and a shaft. The body 7 includes flanges 8 at both ends so as to connect a plurality of bodies to one another based on the height of the housing 5 from the ground. The lowermost end of the body 7 is fixed on the ground structure by using anchor bolts. The upper end of the body 7 is combined with a flange 8' formed at the lower end of the shaft 6. Various types of the body 7 and the shaft 6 may be appl icable.

In the advanced wind power system according to the embodiment of the present invention, as air resistance exerted on the turbo air compression system 2 increases, the turbo air compression system 2 tends to rotate clockwise. Since the main wing 20 of the intel ligent tail 3 is connected to the housing 5 to face the turbo air compression system 2, the rotator 4 rotates clockwise due to the force exerted on the turbo air compression system2. The intelligent tail 3 which has been screened by the housing 5 with respect to the direction of wind is exposed to the outside. Accordingly, air resistance exerted on the intelligent tail 3 increases. Thus, force for turning the main wing 20 to the counterclockwise direction is generated. An area of a part which causes friction with respect to the air introduced into the turbo air compression system 2, an area of the main wing 20, and a slope of the main wing 20 are determined in coordination with one another. The turbo air compression system 2 may be designed so as to hold the direction constantly with regard to the direction of wind regardless of the direction and strength of wind.

FIG.6 i 1 lustrates a state in which main parts of a wind power system operate in coordination with one another according to an embodiment of the present invention. The turbo air compression system 2 is used to accelerate the rotator 4 rotating according to the direction and the speed of wind so as to generate wind power. When it is assumed that wind is introduced into the cylindrical rotator 4 in a constant direction, force is exerted on front part blades 31 interacting with the air introduced into the rotator 4 in the counter direction as compared with the other blades 31. In order to prevent the counter direction force from incurring, the intelligent tail 3 controls front ends of the horizontal supporting plates 10 so that the front ends of the horizontal supporting plates 10 attached to the rotator 4 are elongated out of the outer circumference of the rotator 4 so as to radically shield parts of the blades 31 in which counter direction resistance is caused against the resistant air, turn the direction of the introduced air, and increase the area of the air introduced into the rotator 4 to be larger than that of the rotator 4.

In addition, the slope of the turbo air compression system 2 is changed based on the strength and the direction of wind. When wind blows to the front side of the wind power system, a slope angle A between an extended 1 ine of a rear incl ined part 14 of the turbo air compression system 2 having a slope with respect to the front side and an extended 1 ine perpendicular to the direct ion of wind has to range from 27 degrees to 70 degrees. Accordingly, when the slope angle decreases, the main wing 20 moves to a position on which resistive force of the front wind is exerted to increase the slope angle A. FIG. 7 and 8 illustrate an entire structure of a wind power system according to an embodiment of the present invention. The turbo air compression system 2 which faces the direction of wind and internally compresses continuously blowing wind would be externally pushed in the clockwise di rect ion. The wind blows to the front surface of the main wing of the tail due to continuous time differentials of wind blows. The turbo air compression system moves counterclockwise due to air resistance of the tail and returns the original position to be balanced. The compressed wind is blown into the blades of the rotator 4 to increase rotational force.

In addition, when air is continuously introduced into inlets for compressing air, the density of air is increased. Accordingly, a compression rate and pressure increase. The rear inclined part 14 is formed to be elongated farther than the rotator 4 so as to completely remove the resistance of wind in a specific area. Accordingly, a section between the housing 5 and the blades 31 is evacuated based on the size of the turbo air compression system or the slope angle of the turbo air compression system. Thus, the blades in the opposite side of wind also rotate. Accordingly, it is possible to generate power by using weak wind. The wind power system is rapidly adapted to wind blows in any direction. In addition, since it is possible to display an advertisement or an image by painting or coating the multi-step plate located on the front side of the turbo air compression system, the advertising effect is increased.

FIGS.9 and 10 i llustrate examples in which an advertising board is installed on an intelligent tail according to an embodiment of the present invention. The intelligent tail according to the embodiment controls the direction of wind. The intelligent tail is driven in coordination with the turbo air compression system. In addition, since it is possible to attach an advertising board to the main and auxiliary wings or paint the main and auxiliary wings as shown in the drawings, the advertisement effect is increased, in addition to the power generation efficiency.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the appended claims.

[Industrial Applicability]

In the present invention, it is possible to maximize a power generation amount under the same conditions. It is possible to improve the power generation efficiency and reduce installation space. Accordingly, the wind power system according to an embodiment of the present invention is free from limitations of environmental effects. It is possible to economically install the wind power system. It is also possible to provide optimal power generation efficiency in a low speed of wind, in consideration of townscapes. In addition, it is possible to add an advertising effect by enabl ing advertising materials to be attached to a tail, since the tail has a flat plate structure.

Claims

[CLAIMS] [Claim 1]

An advanced wind power system comprising: a turbo air compression system 2 for effectively using wind power by variably rotating based on a direction of wind; an intelligent tail 3 controlling a direction in which air is introduced into the turbo air compression system 2 based on the direction of wind; a housing 5 connected to the turbo air compression system 2 and the intel 1 igent tai 13 so as to support the turbo air compression system

2 and the intelligent tai 13 and so as to drive the turbo air compression system 2 and the intelligent tail 3 in coordination with each other; a rotator 4 generating power caused by the turbo air compression system 2 and pressure of externally introduced air, which is included in the housing 5; a shaft 6 installed in the housing 5 and the rotator 4 so as to be combined with ground structures; and a body 7 for fixing a main body 1 formed at an end of the shaft 6 to the ground.

[Claim 2]

The advanced wind power system according to claim 1, further comprising a main wing of the intelligent tail constructed in proportion to an area of a rear inclined part of the turbo air compression system, so that as air resistance exerted on the turbo air compression system increases, the turbo air compression system rotates clockwise, a main wing of the intel 1 igent tai 1 rotates counterclockwise, and the intelligent tail turns to the clockwise direction.

[Claim 3] The advanced wind power system according to claim 1, wherein an advert ising board is attached to the main wing and an auxi 1 iary wing.

[Claim 4]

The advanced wind power system according to claim 1, wherein although the slope of the turbo air compression system 2 is changed based on the strength and the direction of wind, when the wind blows to the front side of the wind power system, the main wing 20 automatical Iy moves to a position on which resistive force of the front wind is exerted so as to increase the slope angle A, when the slope angle is decreased so as to maintain a range of a slope angle A between an extended line of the rear inclined part 14 of the turbo air compression system 2 having a slope with respect to the front side and an extended line perpendicular to the direction of wind to