KR20120009311A - The aerogenerator in which the horizontal maintenance instrument of the rotating vane is equipped - Google Patents

Abstract

PURPOSE: A wind turbine having a balancing unit for blades is provided to easily support the weight of each blade with an inwardly bent rotation support of a rotating body. CONSTITUTION: A wind turbine comprises a column body(110), a rotating body part(120), a rotating blade part(132,134), a generating part(140), a torque transmission unit(150), and a balancing unit(160). The rotating body part comprises a rotating body and a rotation support which is extended outward than the rotating body and supports the bottom of the rotating body. The generating part changes torque delivered from the rotating blade part into the electrical energy. The torque transmission unit delivers the torque of the rotating blade part to the generating part. The balancing unit maintains the central rotation axis of the rotating blade part in a horizontal state. As wind blows, the rotating body part rotates so that a main rotating blade faces in the wind direction and the maximum torque of the rotating blade part is achieved.

Description

The aerogenerator in which the horizontal maintenance instrument of the rotating vane is equipped}

The present invention relates to a wind power generator, and more particularly, to maintain the rotation axis center line of the rotary blade in a horizontal state by providing a horizontal holding means to prevent each of the rotary blades provided on both ends of the rotating body to be struck downward by the weight The present invention relates to a wind power generator having a horizontal maintenance means for rotating blades capable of increasing the production of electrical energy by maintaining a constant rotational force.

In general, a wind power generator is a type of generator that uses a wind generated from nature to rotate a rotary blade to obtain a rotational force, and converts this rotational force into electrical energy to supply to each region where electricity is needed.

The wind power generator is composed of a support shaft, a rotating body and a rotor blade, the support shaft is provided in the vertical direction to the ground.

And the rotating body is provided so as to rotate freely on both sides of the upper end of the support shaft, each rotating body is provided with a rotary blade to generate a rotational force by the wind.

Such a wind power generator is used to rotate the rotating body so that the rotating blades in the direction of the wind is rotated easily by the wind.

In recent years, in order to improve the rotational force of the rotary blades are provided with a pair of rotary blades to quickly rotate the rotating body to face the wind blowing direction, increasing the rotational force of each rotary blade.

1 is a view showing a conventional wind power generator.

As shown in the figure, the wind power generator 1 is provided with a support shaft 10 which is erected on the ground and a rotating body 20 so as to be rotatable on an upper end of the supporting shaft 10, the rotation body 20 of A pair of rotary blades 30 are provided at both ends so as to be rotatable.

In addition, the generator 40 is provided inside or on the ground of the support shaft, and a rotational force transmitting means 50 is provided inside the rotating body 20 to increase and transmit the rotational force of each rotary blade 30 to the generator 40. .

The rotation force transmission means 50 is provided on the upper side of the middle portion of the rotating body 20 to connect the rotating shaft 32 and the rotating shaft 42 connected to the generator 40 of each rotary blade 30, the cover 22 The outer side is protected by.

In addition, a rotation means 60 is provided between the rotation body 20 and the support shaft 10, and the rotation means 60 includes a plurality of rotation rollers 64 along one circumferential direction of one rotation plate 62. As it is provided, the rotary body 20 is rotated at the upper end of the support shaft (10).

Accordingly, the rotary body 20 with the rotary blade 30 is easily rotated in the windy direction, it is possible to increase the rotational force of the rotary blade 30 to the maximum to increase the production of electrical energy. It is.

However, the rotary blade 30 of the wind turbine 1 has its rotary shaft 32 fixed to one end of the cover 22 and one end of the rotary body 20, so that the rotary blade 30 is struck downward by the load of the rotary blade 30. Therefore, there is a problem that can not generate a uniform rotational force.

In particular, when the rotary blade 30 is rotated in a state hitting the lower side without maintaining a horizontal state, the rotary blade 30 is broken or the rotary blade 30 is separated from the rotating body 20 to cause a large accident There is a problem that can result.

Accordingly, the present invention has been devised to solve the above problems, it is possible to maintain the horizontal state of each rotary blade by pulling each rotary blade toward the central portion of the rotating body by the horizontal holding means.

In addition, by bending the rotary base of the rotary body portion supporting the lower side of the rotary blades inwardly, it is possible to easily maintain the horizontal state of the rotary blades by easily supporting the weight of each rotary blade.

Accordingly, it is an object of the present invention to provide a wind turbine having a horizontal maintenance means for rotating blades, as well as a constant rotational force of the rotary blades to increase the rotational force to increase the production of electrical energy.

The present invention for achieving the above object is erected on the ground, the upper portion is formed in the open space in the upper side, the upper end is provided with a holding body formed with a holding jaw in the center direction, rotatably provided on the upper side of the holding body, the inside Supporting the rotating body and the rotating body formed in the space from the lower side, the rotating body portion having both ends of the rotating body extending outward than the rotating body, the rotary body portion is provided on both ends of the rotating support portion is rotated by wind, The rotary blade unit having the other main rotary blades and the auxiliary rotary blades, the power generation unit for converting the rotational force transmitted from the rotary blades into electrical energy, the rotational force transmission means for transmitting the rotational force of the rotary blades to the power generation unit and each rotation Horizontal holding means for connecting the blade and the rotating body to maintain the center line of the rotation axis of the rotary blade portion It is made, including, and when the wind blows the rotating body portion so that the main rotary blades in the wind direction to obtain the maximum rotational force of the rotary blades by the wind to generate electrical energy.

Preferably, the horizontal holding means is formed of a wire having at least one wire layer so that one end is rotatably connected to the rotating body of the rotating body portion, the other end is connected to a predetermined position of the rotary wing fixed to the rotating support The length is adjusted by the length adjusting unit to maintain the center line of the axis of rotation of the rotary blade portion.

And the horizontal holding means, the first wire is formed of a wire having at least one wire layer is fixed to the rotating body of the rotating body portion, the rotating blade is formed of a wire having at least one wire layer is fixed to the rotary base A second wire fixed to a predetermined position of a part, and a length adjusting part for connecting the first wire and the second wire to adjust the overall length of the first wire and the second wire by pulling or unwinding in the longitudinal direction by rotation; Is made, by rotating the length adjuster to maintain the center line of the axis of rotation of the rotary blade portion.

In addition, the rotation base of the rotating body portion is bent inwardly when the rotating body and the rotating blade portion, when supporting the weight of the rotating blade to maintain the center axis of the rotating shaft in a horizontal state.

And the rotational base, the amount of deflection (y) generated by being raised on one end of the rotational support of the selected one of the rotating blades,

Equation

{Here, the load (F), the Young's modulus (E), the moment of inertia (I), the length of the rotary support (l) of the selected rotary blade}

Is satisfied, and one end portion is formed upward by the deflection amount y.

In addition, the rotation base has a different curvature at both ends based on the central portion provided with the rotating body, the curvature of any one end of the main portion of the rotary blades to support the large weight of the rotary blades is the weight of the rotary blades It is smaller than the curvature of the other end supporting the small auxiliary rotor blade.

As described above, according to the wind power generator having the horizontal blade holding means according to the present invention, by using the wind to generate the maximum rotational force of the rotary blade to increase the production of electrical energy, as well as by the horizontal holding means In long-term use, the weight of each rotor blade prevents the rotation axis centerline from hitting the lower side to produce uniform electric energy.The weight of the rotor blade can be further increased by bending the rotary base supporting the rotor blade downward. It is a very useful and effective invention to be able to maintain the horizontal state of the rotor blades with easy support.

1 is a view showing a conventional wind power generator,
2 is a view showing a wind turbine with a horizontal retaining means of a rotary blade according to the present invention,
3 is a view showing the horizontal maintenance means of the wind turbine with a horizontal maintenance means of the rotary blade according to the present invention,
Figure 4 is a view showing another embodiment of the horizontal maintenance means of the wind turbine with a horizontal maintenance means of the rotary blade according to the present invention,
Figure 5 is a view showing a rotary pedestal of the wind turbine with a horizontal retaining means of the rotary blade according to the present invention,
Figure 6 is a view showing another embodiment of the rotary base of the wind turbine with a horizontal maintenance means of the rotary blade according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

In addition, the present embodiment is not intended to limit the scope of the present invention, but is presented by way of example only, and various modifications may be made without departing from the technical gist of the present invention.

2 is a view showing a wind power generator having a horizontal blade holding means according to the invention, Figure 3 is a view showing a horizontal holding means of a wind generator having a horizontal blade holding means according to the invention 4 is a view showing another embodiment of the horizontal maintenance means of the wind turbine with a horizontal maintenance means of the rotary blade according to the present invention, Figure 5 is provided with a horizontal maintenance means of the rotary blade according to the present invention FIG. 6 is a view illustrating a rotary base of the wind power generator, and FIG. 6 is a view showing another embodiment of the rotary base of the wind power generator having the horizontal maintenance means of the rotary blade according to the present invention.

As shown in the figure, the wind power generator 100 is provided with a horizontal maintenance means of the rotor blades holding body 110 and the rotating body portion 120, the rotary wing portion 130, the power generation unit 140, rotational force transmission Means 150 and horizontal holding means 160.

The holding body 110 is erected on the ground, there is formed a space that is open to the upper side, the upper end of the holding jaw 112 is formed in the center direction, the rotation body along the upper surface of the holding jaw 112 ( 120 is rotated.

Rotating body portion 120 is composed of a rotating body 122 and the rotary base 124, the rotary body 122 is provided on the upper middle of the rotary base 124 is provided with a rotational force transmission means 150 therein do.

In other words, the rotary base 124 supports the rotary body 122 from the lower side, both ends extend outward than the rotary body 122, the rotary blade portion 130 is provided at both ends extending to the outside.

The rotary body portion 120 is easily rotated in a windy direction, so that the rotary blade portion 130 is easily rotated as the rotary wing portion 130 faces the windy direction.

The rotary blade unit 130 is composed of a main rotary blade 132 and the auxiliary rotary blade 134, the main rotary blade 132 is formed larger than the auxiliary rotary blade 134.

The power generation unit 140 converts the rotational force transmitted from the rotation blade unit 130 into electrical energy, and is provided on the inside or the ground of the support body 110, and the rotational force transmission unit 150 includes the rotation wing unit 130. Will be transmitted to the power generation unit 140.

The rotation force transmitting means 150 is provided in the rotating body 122 of the rotating body part 120, the rotating shaft 133, 135 of each of the rotary blades 132, 134 and the rotating shaft 142 of the power generation unit 140 Connect the to transmit the rotational force in the perpendicular direction.

And the horizontal holding means 160 to maintain the rotation blade 130 to be rotated in a horizontal state, by maintaining the center line of the rotation axis (133, 135) of the rotation blade 130 in a horizontal state, the rotation blade portion 130 ) Can be easily rotated to generate the maximum rotational force to generate electrical energy.

As shown in Figures 2 to 3, the horizontal holding means 160 is formed of a wire 162 having at least one wire layer to connect the rotary body portion 120 and the rotary wing portion 130, respectively. .

In other words, the horizontal holding means 160 is one end of the wire 162 is rotatably connected to the rotary body 122 of the rotary body portion 120, the other end of the rotary blade 130 is connected to the rotary support 124 Is connected to a predetermined position of), the length is adjusted by the length adjusting unit 164 to maintain the center line of the rotation axis 133, 135 of the rotary blade 130 in a horizontal state.

The length adjusting unit 164 is provided at a predetermined position of the rotary blade 130 fixed to the other end of the wire 162 to adjust the length of the wire 162 to maintain the horizontal state of the rotary blade 130 do.

Meanwhile, as shown in FIG. 4, the horizontal holding means 160 ′ may be configured in another embodiment, and includes a first wire 162 ′, a second wire 164 ′, and a length adjusting unit 166 ′. It consists of.

The first wire 162 ′ and the second wire 164 ′ are wires having at least one wire layer, and the first wire 162 ′ is fixed to the rotating body 122 of the rotating body part 120. The two wires 164 'are fixed to a predetermined position of the rotary blade unit 130 fixed to the rotary base 124.

The length adjusting unit 166 'connects the unfixed ends of the first wire 162' and the second wire 164 ', and rotates the first wire 162' and the second wire 164 '. Pull or loosen in the longitudinal direction to adjust the overall length.

The length adjusting unit 166 ′ is rotated based on an extension line passing through the fixing points of the first wire 162 ′ and the second wire 164 ′, and the first wire 162 ′ and the second wire 164 ′. By adjusting the length of the) to maintain the horizontal state of the rotary blade 130.

At this time, as the rotary blade 130 is composed of the main rotary blade 132 and the auxiliary rotary blade 134 having a different size and weight, it is natural that the supporting force for maintaining each horizontal state is different.

And as shown in Figure 5 to 6, the rotary base 124 of the rotary body portion 120 is bent inwardly when the rotary body 122 and the rotary wing 130, the combination of the rotary blade 130 Supporting the weight keeps the center line of the rotation axis (133, 135) in a horizontal state.

The bending amount A at both ends of the rotary support 124 is formed to be bent upward in response to the deflection amount y generated in the horizontal support but the deflection amount y is

Equation

{Here, the load (F), the Young's modulus (E), the moment of inertia (I), the length of the rotary support (l) of the selected rotary blade}

Satisfies.

In other words, one end of the rotary base 124 is formed upward by the amount of deflection y generated by being lifted on one end of the rotary base in a horizontal state.

Accordingly, as shown in FIG. 6, the rotation base 124 has different bending amounts A1 and A2 at both ends based on the center of the rotary body 122.

In other words, the bending amount A1 of one end supporting the main rotor blade 132 having a large weight among the rotor blades 130 supports the auxiliary rotor blade 134 having a small weight among the rotor blades 130. It is formed smaller than the bending amount A2 of the other end.

This, by supporting the main rotary blade 132 and the auxiliary rotary blade 134 having different weights with different support forces, it is possible to more easily maintain a horizontal state, which means to maintain the rotational force of the rotary blade unit 130 This can increase the production of electrical energy.

The rotating support 124 is composed of a support plate 125 and a plurality of support frames 126, the support frame 126 is provided along the bottom surface of the support plate 125 to support the lower side of the support plate 125. .

The support frame 126 supports the lower side to prevent the bending in the surface direction of the support plate 125 by the weight of the rotary blade 130, a plurality of through-holes are formed along the longitudinal direction is transmitted to the vertical direction It is preferable to prevent the buckling from occurring by dispersing the support frame 126.

Description of the Related Art
100: wind power generator 110: holding body
120: rotating body portion 122: rotating body
124: rotating support 125: support plate
126: support frame 130: rotary wing
132: main rotary wing 134: auxiliary rotary wing
140: power generation unit 150: rotational force transmission means
160, 160 ': horizontal holding means 162: wire
164: length adjusting unit
162 ': first wire 164': second wire
164 ': Length adjusting part

Claims (6)

Standing on the ground, the upper portion is formed inside the open space, the upper end of the holding body formed holding jaw in the center direction;
Rotating body portion provided to be rotatable on the upper side of the holding body, the rotating body having a space formed therein and supporting the rotating body from the lower side, the rotating body portion having both ends extending outwardly than the rotating body;
Rotating blade portion provided on both ends of the rotary support of the rotating body portion is rotated by the wind, the main rotor blade and the auxiliary rotor blade having a different weight;
A power generation unit converting the rotational force transmitted from the rotary blade unit into electrical energy;
Rotational force transmission means for transmitting the rotational force of the rotary blade unit to the power generation unit; And
It comprises a horizontal holding means for connecting each of the rotary blades and the rotating body to maintain the rotation axis center line of the rotary blade in a horizontal state,
When the wind blows the wind turbine with the horizontal maintenance means of the rotating blades, characterized in that the rotating body is rotated so that the main rotary blades face the wind direction to obtain the maximum rotational force of the rotary blades by the wind to generate electrical energy generator.
The method of claim 1, wherein the horizontal holding means,
Is formed of a wire having at least one wire layer and one end is rotatably connected to the rotary body of the rotary body portion, the other end is connected to a predetermined position of the rotary blade fixed to the rotary base, the length is adjusted by the length adjustment Wind turbine generator having a horizontal maintenance means of the rotating blades, characterized in that the control to maintain the horizontal axis of the rotation axis of the rotary blades in a horizontal state.
The method of claim 1, wherein the horizontal holding means,
A first wire formed of a wire having at least one wire layer and fixed to the rotating body of the rotating body part;
A second wire formed of a wire having at least one element wire layer and fixed to a predetermined position of the rotary blade part fixed to the rotation base; And
It comprises a length adjusting unit for connecting the first wire and the second wire, but adjust the overall length by pulling or loosening the first wire and the second wire in the longitudinal direction by rotation,
Wind generator with a horizontal maintenance means of the rotating blades, characterized in that for maintaining the center line of the rotation axis of the rotating shaft by rotating the length adjustment unit.
4. The method according to any one of claims 1 to 3,
The rotating base of the rotating body portion is bent inwardly when the rotating body and the rotor blades coupled, the wind power provided with the horizontal maintenance means of the horizontal blades to support the weight of the rotary blades to maintain the center axis of the rotating shaft in a horizontal state generator.
The method of claim 4, wherein the rotating pedestal,
The amount of deflection (y) generated by being raised on one end of the rotary base in the horizontal state of the selected one,
Equation

{Here, the load (F), the Young's modulus (E), the moment of inertia (I), the length of the rotary support (l) of the selected rotary blade}
Satisfies the, wind turbine generator having a horizontal holding means of the rotary blade, characterized in that one end is formed upward by the amount of deflection (y).
The method of claim 4, wherein
The rotating support is formed with a different curvature of both ends based on the central portion provided with a rotating body, the curvature of any one end of the main portion of the rotary blades to support the large weight of the rotary blades of the auxiliary auxiliary wing A wind turbine with a horizontal holding means for a rotary blade, characterized in that less than the curvature of the other end for supporting the rotary blade.

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