KR20140092085A - A wind power apparatus - Google Patents

Abstract

The present invention relates to a wind-collecting wind power generator capable of producing electricity by collecting atmospheric wind in a narrow space, wherein the wind-collecting wind power generator comprises: a base part (102); a pyramidal main body (104) formed on the base (102); fixing walls (106) installed on the outer surface of the main body (104) at regular intervals, and fixing the main body (104) to the base part (102); a first shutter-type wind inflow door (108) formed to be extended from the top of the main body (104), and receiving the wind; a second shutter-type wind inflow door (110) separated from the first shutter-type wind inlet door (108) at a certain interval, formed to be extended from the top of the main body (104), and receiving the wind; a third shutter-type wind inflow door (112) separated from the second shutter-type wind inflow door (110) at a certain interval, formed to be extended from the top of the main body (104), and receiving the wind; and a wind inflow guide tube (114) fixed to be installed at the inner upper side of the main body (104), and receiving the wind flowing through the first, the second, and the third shutter-type inflow door (108, 110, and 112).

Description

{A WIND POWER APPARATUS}

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a wind-driven wind power generator, and more particularly, to a wind-driven wind power generator capable of collecting wind in a wide atmospheric space into a narrow space to produce electricity.

Generally, a wind power generator is called a windmill, which is a device used to produce electric power using a mechanical force through a rotary shaft.

These wind power generators are divided into a horizontal axis wind turbine and a vertical axis wind turbine. The horizontal axis is a propeller type, and the aerodynamic lift force Using a rotor composed of blades, the power generation efficiency is relatively high, but the direction of the rotor must be changed according to the wind direction, and a device for changing the angle of the blades according to the wind intensity is needed.

In addition, when the horizontal axis is used, the axis of the rotor is positioned at least higher than the radius of the rotor. Therefore, in order to connect the generator shaft with the rotor shaft located at a high position, the generator is installed at the same height as the rotor shaft, It is installed at almost the same position, or a device for converting the horizontal turning force to the vertical turning force is provided and connected to the generator. In this case, there is a risk that mechanical damage may occur due to strong wind in the case of electrons, and maintenance and repair are not easy. In the latter case, energy loss occurs in the process of converting the horizontal rotation force into the vertical rotation force.

On the other hand, in the case of the vertical type, there are Darrius Rotor which uses wind lift and Savonius Rotor which uses drag force of wind, but in the case of Darius type, the output of the generator is weak, And a supplementary one-rotation power unit is required. In the case of the Sovonius equation, since the rotation speed can not be higher than the wind speed due to the use of the drag force of the wind, the rotation speed of the rotation shaft is limited, It is mainly used as a wind power generator.

Therefore, much research has been done recently to overcome low efficiency, which is a weak point of vertical type. For example, improving the design, structure or assembly of the blades, improving the manner in which the blades are attached to the support structure, improving the pitch angle control system of the blades so that the angular velocity of the blades is constant do.

However, in the case of generating a typhoon or a sudden gust of wind by rotating the blade by using the wind pressure as described above, the pressure caused by the wind applied to the blade becomes large, so that the blade is deformed or broken , There is a problem that a great pressure is applied to the rotary shaft and the entire wind turbine is broken or destroyed.

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a wind-driven wind turbine generator capable of collecting wind in a wide atmospheric space in a narrow space to produce electricity. There is.

However, the object of the present invention is not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood by those skilled in the art from the following description.

According to an aspect of the present invention, there is provided a wind-driven wind turbine generator,

A base portion 102;

A pyramid-shaped body 104 formed on an upper surface of the base 102;

A fixed wall 106 installed at an outer surface of the pyramid-shaped body 104 to fix the pyramid-shaped body 104 to the base 102;

A first shutter-type wind inflow opening 108 extending from the upper end of the pyramid-shaped main body 104 to introduce wind;

A second shutter type air inlet 110 formed at an upper end of the pyramid-shaped main body 104 at a predetermined interval from the first shutter type air inlet 108 to introduce wind;

A third shutter type air flow inlet 112 formed at an upper end of the pyramid shaped main body 104 at a predetermined interval from the second shutter type air flow inlet 110 to introduce wind;

A wind inflow guide pipe 114 installed at an inner upper portion of the pyramid-shaped main body 104 and introducing the wind introduced through the first, second and third shutter type wind inflow doors 108, 110 and 112;

A windmill 116 installed on the inside of the wind introduction guide pipe 114 and rotated by a wind flowing into the wind introduction guide pipe 114;

A speed controller 118 electrically connected to the windmill 116 to decelerate the rotation of the windmill 116;

A generator 120 electrically connected to the windmill 116 and electrically connected to the speed regulator 118 to generate electricity from the rotational force of the windmill 116;

A first shutter type air blower installed at one side of the outer surface of the pyramid-shaped body 104 at a predetermined vertical interval from the first shutter type air blow-in door 108 to move the wind coming from the wind blow- Wind is alumni;

A second shutter type air blower installed at one side of the outer surface of the pyramid-shaped body 104 at a predetermined vertical interval from the second shutter type air blow-in door 110 to move the wind coming from the wind- Wind door 124;

A third shutter type air blower installed at one side of the outer surface of the pyramid-shaped body 104 at a predetermined vertical interval from the third shutter type air blow-in door 112 to move the wind coming from the wind- The wind is the gate (126);

A second shutter type air flow inlet 110 and an upper surface of the third shutter type air flow inlet 112 and a fixing wall 106 is installed on the upper surface of the first shutter type air flow inlet 108, A roof 128 fixed to the pyramid-shaped body 104;

And a shutter type wind tunnel door 130 installed between the base part 102 and the roof 122 to transmit the wind moving from the first shutter wind door to the outside.

As described above, the windmill wind power generator according to the present invention has the effect of generating electricity in a small wind by allowing the wind in a large space to flow into a narrow space to produce electricity.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view of a wind turbine wind power generator according to the present invention,
FIG. 2 is an exploded perspective view of a windmill wind power generator according to the present invention,
3 is an enlarged view of a main part of a wind-mill wind power generator according to the present invention,
FIG. 4 is a side view of the wind-driven wind turbine according to the present invention, in which when the first shutter-type wind door is opened, And FIG.

Hereinafter, a preferred embodiment of a wind-driven wind power generator according to the present invention will be described. In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

FIG. 1 is a view showing a windmill wind power generating apparatus according to the present invention, FIG. 2 is a view of explaining a main part of a windmill wind power generating apparatus according to the present invention, FIG. 3 is a view showing a windmill wind power generating apparatus according to the present invention, This is an enlarged view of the lumbar region.

1 to 3, the wind-mill wind power generator 100 according to the present invention includes:

A base portion 102;

A pyramid-shaped body 104 formed on an upper surface of the base 102;

A fixed wall 106 installed at an outer surface of the pyramid-shaped body 104 to fix the pyramid-shaped body 104 to the base 102;

A first shutter-type wind inflow opening 108 extending from the upper end of the pyramid-shaped main body 104 to introduce wind;

A second shutter type air inlet 110 formed at an upper end of the pyramid-shaped main body 104 at a predetermined interval from the first shutter type air inlet 108 to introduce wind;

A third shutter type air flow inlet 112 formed at an upper end of the pyramid shaped main body 104 at a predetermined interval from the second shutter type air flow inlet 110 to introduce wind;

A wind inflow guide pipe 114 installed at an inner upper portion of the pyramid-shaped main body 104 and introducing the wind introduced through the first, second and third shutter type wind inflow doors 108, 110 and 112;

A windmill 116 installed on the inside of the wind introduction guide pipe 114 and rotated by a wind flowing into the wind introduction guide pipe 114;

A speed controller 118 electrically connected to the windmill 116 to decelerate the rotation of the windmill 116;

A generator 120 electrically connected to the windmill 116 and electrically connected to the speed regulator 118 to generate electricity from the rotational force of the windmill 116;

A first shutter type air blower installed at one side of the outer surface of the pyramid-shaped body 104 at a predetermined vertical interval from the first shutter type air blow-in door 108 to move the wind coming from the wind blow- The wind has an alum (the city is omitted);

A second shutter type air blower installed at one side of the outer surface of the pyramid-shaped body 104 at a predetermined vertical interval from the second shutter type air blow-in door 110 to move the wind coming from the wind- Wind door 124;

A third shutter type air blower installed at one side of the outer surface of the pyramid-shaped body 104 at a predetermined vertical interval from the third shutter type air blow-in door 112 to move the wind coming from the wind- The wind is the gate (126);

The windshield is installed on the upper surface of the first shutter type air flow inlet 108, the upper surface of the second shutter wind flow inlet 110 and the upper surface of the third shutter wind flow inlet 112, A roof 128 installed to fix the pyramid-shaped body 104;

And a shutter-type wind tunnel 130 installed between the base part 102 and the roof 128 to send winds from the first shutter wind door (not shown) to the outside. do.

Here, the speed regulator 118 serves as a speed reducer and a speed reducer. In other words, when the speed regulator 118 rotates in the forward direction, it acts as a speed reducer. When the speed regulator 118 rotates in reverse, it serves as a speed increasing device.

The operation of the wind turbine wind power generator according to the present invention will now be described.

First, the user confirms the direction of the wind after opening all of the shutter-type wind door 130 installed and fixed between the base part 102 and the roof 128. At this time, it is preferable that the shutter wind wind tunnel 130 has 24 wind wind doors.

3, when the northerly wind is blown, the user opens the first shutter-type wind-in door 108 extending from the top of the pyramid-shaped main body 104, and opens the pyramid- The second shutter type wind door 124 and the third shutter type wind door 126 provided on one side of the outer surface of the main body 104 are opened.

As the first shutter wind flow door 108, the second shutter wind door 124 and the third shutter wind door 126 open,

The wind is introduced into the wind guide guide pipe 114 through the first shutter type wind guide door 108 and the windmill 116 installed and fixed inside the wind guide guide pipe 114 by the introduced wind Rotate.

Here, the windmill 116 is decelerated by the speed controller 118.

The generator 120 generates electricity by the rotation of the windmill 116.

The air flowed into the inside of the air inlet guide tube 114 is guided by the second shutter wind door 124 and the third shutter wind door 126 provided on one side of the pyramid- .

Then, the wind moves outward through the second shutter type wind door 124, the third shutter type wind door 126, and the shutter type wind door 130.

On the other hand, if a wind blows in the east wind, the first shutter wind wind tunnel 108 closes and the user opens the second shutter wind wind tunnel 110 formed on the top of the pyramid- And the first shutter type wind door and the third shutter type wind door 126 provided on one side of the outer surface of the pyramid shaped body 104 are opened.

With the opening of the second shutter wind tunnel 110, the first shutter wind tunnel and the third shutter wind tunnel 126,

The wind is introduced into the wind guide guide pipe 114 through the second shutter type wind guide 110 and the windmill 116 installed and fixed to the inside of the wind guide guide pipe 114 by the introduced wind Rotate.

Here, the windmill 116 is decelerated by the speed controller 118.

The generator 120 generates electricity by the rotation of the windmill 116.

On the other hand, the wind introduced into the wind guide pipe 114 moves to the first shutter type wind door and the third shutter wind door 126 provided at one side of the outer surface of the pyramid shaped body 104 .

Then, the wind moves outward through the first shutter type wind door, the third shutter type wind door 126 and the shutter type wind door 130.

On the other hand, when the wind is blowing, the second shutter type wind direction door 110 is closed and the user opens the third shutter type wind direction door 112 formed on the upper end of the pyramid shape main body 104 And the first shutter type wind door and the second shutter type wind door 124 provided on one side of the outer surface of the pyramid shaped body 104 are opened.

With the opening of the third shutter type wind flow inlet 112, the first shutter wind door and the second shutter wind door 124,

The wind is introduced into the wind guide guide pipe 114 through the third shutter type wind guide 112 and the windmill 116 installed and fixed inside the wind guide guide pipe 114 by the introduced wind Rotate.

Here, the windmill 116 is decelerated by the speed controller 118.

The generator 120 generates electricity by the rotation of the windmill 116.

On the other hand, the wind introduced into the wind guide pipe 114 moves to the first shutter-type wind door and the second shutter wind door installed on one side of the pyramid-shaped body 104, .

Then, the wind moves outward through the first shutter type wind door, the second shutter type wind door 124 and the shutter type wind door 130.

100: Wind turbines Wind turbines
102: Base portion
104: pyramid-shaped body
106: Fixed wall
108: First shutter type wind blower
110: Second shutter type wind blower
112: Third shutter type wind flow
114: wind guide tube
116: Windmill
118: Speed regulator
120: generator

Claims (1)

A base portion 102;
A pyramid-shaped body 104 formed on an upper surface of the base 102;
A fixed wall 106 installed at an outer surface of the pyramid-shaped body 104 to fix the pyramid-shaped body 104 to the base 102;
A first shutter-type wind inflow opening 108 extending from the upper end of the pyramid-shaped main body 104 to introduce wind;
A second shutter type air inlet 110 formed at an upper end of the pyramid-shaped main body 104 at a predetermined interval from the first shutter type air inlet 108 to introduce wind;
A third shutter type air flow inlet 112 formed at an upper end of the pyramid shaped main body 104 at a predetermined interval from the second shutter type air flow inlet 110 to introduce wind;
A wind inflow guide pipe 114 installed at an inner upper portion of the pyramid-shaped main body 104 and introducing the wind introduced through the first, second and third shutter type wind inflow doors 108, 110 and 112;
A windmill 116 installed on the inside of the wind introduction guide pipe 114 and rotated by a wind flowing into the wind introduction guide pipe 114;
A speed controller 118 electrically connected to the windmill 116 to decelerate the rotation of the windmill 116;
A generator 120 electrically connected to the windmill 116 and electrically connected to the speed regulator 118 to generate electricity from the rotational force of the windmill 116;
A first shutter type air blower installed at one side of the outer surface of the pyramid-shaped body 104 at a vertically spaced distance from the first shutter-type air blow-in door 108 to move the wind coming from the wind- Wind is alumni;
A second shutter type air blower installed at one side of the outer surface of the pyramid-shaped body 104 at a predetermined vertical interval from the second shutter type air blow-in door 110 to move the wind coming from the wind- Wind door 124;
A third shutter type air blower installed at one side of the outer surface of the pyramid-shaped body 104 at regular vertical intervals from the third shutter type air blow-in door 112 to move the wind coming from the wind- The wind is the gate (126);
The windshield is installed on the upper surface of the first shutter type air flow inlet 108, the upper surface of the second shutter wind flow inlet 110 and the upper surface of the third shutter wind flow inlet 112, A roof 128 installed to fix the pyramid-shaped body 104;
And a shutter type wind tunnel door (130) installed between the base part (102) and the roof (122) to send the wind moving from the first shutter type wind door to the outside. Wind power equipment.

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