KR101636323B1 - Pollution-free power plant - Google Patents

Abstract

The present invention relates to a wave power generator. The wave power generator, according to the present invention, comprises: a center shaft which is fixed to be vertically positioned; a fixed blade support part which is installed in the edge of the center shaft; a rotary blade support part which is coupled to the center shaft to be rotated; inner fixed blades which are coupled to the fixed blade support part and are radially arranged at intervals to surround the center shaft; outer fixed blades which are coupled to the fixed blade support part and are radially arranged at intervals to surround the inner fixed blades on the outer side; rotary blades which are coupled to the rotary blade support part and are arranged on the same plane as the inner and outer fixed blades; and a generator which is connected to the rotary blade support part to convert the rotation force of the rotary blade support part into electricity. Thus, the present invention reduces manufacturing and installation costs and improves electricity production.

Description

[0001] POLLUTION-FREE POWER PLANT [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a wind turbine generator, and more particularly, to a turbine generator capable of generating power with high efficiency by wind power according to an installation site.

Generally, a wind power generator is a device for converting rotational motion into electrical energy. The wind power generator generates rotational force by a lift and a drag generated by a wind colliding against a rotor, and generates electric power by driving a generator Device.

Such a wind turbine generator is divided into a vertical axis wind turbine generator in which the central axis is vertically positioned according to the state of the center axis of the rotor and a horizontal axis wind turbine generator in which the center axis is positioned in a horizontal state.

A conventional wind power generation apparatus is composed of a rotor having a plurality of blades, a generator rotating by the rotational force of the rotor, and a pedestal separating the rotor from the ground.

However, the conventional wind power generation apparatus requires a large installation cost, and when the wind direction is suddenly changed, the wind power generation apparatus can not properly cope with the problem, the power efficiency is lowered, and the installation place is difficult.

In order to solve such a problem, the applicant of the present invention has developed a wind turbine that generates a primary power that rotates the rotary vane as the wind passing between the fixed vanes passes, and a secondary power that rotates the rotary vane one more time We filed for pollution free power generation device and registered as registered patent No. 10-1382206.

However, in the patented invention, since the inlet opening is formed between the rotating blades, when the wind is heavy, the amount of air flowing through the inlet opening is increased, so that the wind blown by the wind, There is a disadvantage that a phenomenon occurs that the rotation is hindered by the rotation due to the wind which is hit by the rotating blades.

In addition, in the conventional patented invention, since the wind can enter or exit only in the lateral direction of the space between the wings, when strong winds blow and a large amount of air suddenly enters into the device, There is a problem that a problem caused by the problem is likely to occur.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems of the prior art, and it is an object of the present invention to provide an air conditioner which is clean, environmentally friendly, cheap due to low production cost and installation cost, Provides power generation equipment with high power production compared to the production and installation cost. It can minimize the occurrence of backward wind, and can be easily repaired and replaced. The present invention is directed to a wind power generation apparatus capable of performing wind power generation.

In order to achieve the above object, a wind turbine generator according to the present invention includes a center shaft fixed vertically, a fixed wing support portion provided around the center shaft, A rotary wing support for rotatably engaging with the fixed wing support; a plurality of radially disposed spaced apart circular wings for engaging with the fixed wing support and surrounding the central axis, An inner fixed wing having a plate shape and a plurality of outer fixed wings coupled to the fixed wing support and spaced apart from the inner fixed wing, Look at the middle plate in the clockwise direction to see the shape of the plate And the outer fixed wing and the inner fixed wing and the outer fixed wing, wherein the inner fixed wing and the outer fixed wing are arranged in the same plane, Wherein each of the outer surfaces of the rotary vane has a size and shape that simultaneously blocks a plurality of inlet tuyeres, which are spaces between a pair of the outer fixed vanes, which are adjacent to each other, at the same time A rotation having a shape in which one end portion protrudes in a clockwise direction while being inwardly received so as to receive a force that causes the rotation blade to rotate in a counterclockwise direction due to a reaction force generated when the air flows in through the inlet portion and the air moves inward; The wing and the rotating wing support portion, It is configured to include a generator for the ring.

According to another aspect of the present invention, there is provided a wind turbine generator comprising: a central shaft fixed vertically; a fixed blade support disposed around the central shaft; A rotary wing support which rotatably engages with the fixed wing support; and a plurality of rotary wings supporting the fixed wing support and arranged in a radial pattern with a plurality of circles spaced from each other to surround the central wing, An inner fixed blade having a bent plate shape and a plurality of inner fixed wings which are coupled to the fixed wing support and spaced apart from the inner fixed wings, When viewed from above, the middle part is bent counterclockwise And the outer fixed wing and the inner fixed wing and the outer fixed wing, wherein the inner fixed wing and the outer fixed wing are arranged in the same plane, Wherein each of the outer surfaces of the rotary vane has a size and shape that simultaneously blocks a plurality of inlet tuyeres, which are spaces between a pair of the outer fixed vanes, which are adjacent to each other, at the same time A rotation which has a shape in which one end portion protrudes in a counterclockwise direction while being inwardly received so as to be subjected to a force in which the rotary blade is rotated in a clockwise direction by a reaction force generated when the air flows in through the inlet portion and the air moves inward; The wing and the rotating wing support portion, It can comprise a generator for the ring.

In addition, it is preferable that the rotary vane is formed such that one end thereof protruding in a clockwise direction as viewed from above is thick and the opposite side end thereof is thin, so that the space between the adjacent rotary vanes widens inwardly from the outside.

In addition, it is preferable that one end of the rotary vane protruding in a counterclockwise direction when viewed from above is thick and the opposite side end is thin, so that the space between the adjacent rotary vanes is widened from the outside toward the inside .

Further, some of the outer fixed wings spaced apart from each other such that a predetermined number of the outer fixed wings are interposed therebetween are configured to extend further outward when viewed from above the remaining outer fixed wings .

In addition, it is preferable that a plurality of units each consisting of the central axis, the fixed wing support, the rotary wing support, the inner fixed wing, the outer fixed wing, and the rotary wing are stacked in the vertical direction, Preferably, the rotary wing support of the unit is connected so that power is transmitted by a removable gear device.

In addition, the fixed wing support portion includes an inner fixed wing support portion and an outer fixed wing support portion. The inner fixed wing support portion is coupled to the central shaft, and the outer fixed wing support portion is vertically erected at an outer edge thereof. .

The inner fixed wing support portion, the outer fixed wing support portion, and the rotary wing support portion each include an upper plate and a lower plate that are spaced apart from each other in the vertical direction. .

As described above, according to the wind power generator of the present invention, the wings are bent in a curved shape to minimize the resistance when the wind is blown, and the distance between the rotary blades is increased while going inward, It is possible to minimize the phenomenon of hindering the rotation due to the backward wind which may be generated by the next rotating blade, and to prevent part of the wind blowing part to block the excessive wind coming in part, It is possible to cope with a whirlwind by providing an air vent hole in the inside of the rotary blade, and it is possible to cope with a whirlwind. By connecting several layers of wind power generator gears, power is cut off when only one gear is removed in case of failure or parts replacement It is easy to disassemble the power generation apparatus of the present invention.

1 is a whole perspective view of a wind turbine generator according to an embodiment of the present invention;
2 is a partial perspective view of a wind turbine generator according to an embodiment of the present invention;
3 is a plan sectional view showing a wind turbine generator according to an embodiment of the present invention.
4 is a side sectional view showing a wind turbine generator according to an embodiment of the present invention.

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

FIG. 1 is a perspective view of a wind turbine generator according to the present invention, FIG. 2 is a perspective view showing a wind turbine generator according to the present invention, FIG. 3 is a horizontal sectional view showing a wind turbine generator according to the present invention, Sectional side view showing a wind turbine generator according to the present invention.

The wind turbine generator according to the present invention includes a central shaft 10, an inner fixed wing support 20, an air exhaust hole 21, an outer fixed wing support 30, a rotary wing support 40, an inner fixed wing 50 An outer fixed blade 60, a rotating blade 70, a support rod 80, a connecting rod 90, a center plate 91, a generator 100, and a gear device 110.

As shown in FIG. 1, the wind turbine generator according to the present invention is constructed in a cylindrical shape, and four support rods 70 are vertically erected at a position adjacent to the edge of the cylindrical structure, and the edge of the cylindrical structure And the outer fixed wing support portion 30 in the outer fixed wing support portion 30 is supported by being coupled with the support rod 70.

The wind power generator according to the present invention comprises a central shaft 10, inner and outer stationary wing supports 20 and 30, a rotary wing support 40, an inner stationary wing 50, an outer stationary wing 60, One unit such as the one shown in Fig. 2 is formed by stacking a plurality of wings 70 in the vertical direction with a slight gap therebetween.

By constructing the unit as described above, it is possible to increase the generating capacity by increasing the rotational force, and a separate center shaft 10 is installed in each unit, and as shown in FIG. 4, The support portions 40 are connected by the removable gear device 110. This is because when one of the units fails or when only the gear device 110 is disconnected when power is interrupted, power transmission between the units is cut off, Or to dismantle the entire power plant conveniently.

In addition, when one of the units is separated for failure or replacement, if the remaining units are to be used, the gear unit 110, which is longer in the vertical direction, is mounted so that the upper and lower adjacent rotary wing support units 40, Thereby making it possible to transmit the power between the two wheels.

The central shaft 10 is a hollow circular pipe-shaped member which is the axis of rotation of the rotary wing support 40.

The upper and lower ends of the central shaft 10 are connected to the outer fixed wing support 30 fixedly coupled to the support rod 80 and extend in the horizontal direction and have a cross- And is fixed by a fixing pin provided on a center plate 91 in the form of a circular plate fixed to a crossing portion of the first connecting rod 90. The center plate 91 covers the gears coupled to the periphery of the upper end portion and the lower end portion of the center shaft 10 to prevent the risk that the rotating portion is exposed to the outside.

The second connecting rod 92 connects the rotary wing bearing 41 and the rotary wing supporting portion 30 to each other so that the first connecting rod 90 connects the center plate 91 and the outer fixed wing supporting portion 30. [ And the first and second connecting rods are rod-shaped members that cross each other in a cross shape and extend horizontally.

The inner fixed blade support portion 20 is fixedly coupled to the central shaft 10 with a circular upper plate and a lower plate vertically spaced therebetween. The central shaft 10 passes through the center of the fixed fixed blade support portion 20 vertically. A plurality of inner fixing vanes 50 are provided at intervals between the upper plate and the lower plate at the edge of the inner fixed wing support 20 at intervals along the circumferential direction.

The rotary wing support 40 is rotatably mounted on the upper and lower plates in the form of a ring, and surrounds the inner fixed wing support 20. The rotary blade support 40 is engaged with a rotary blade bearing 41 having one end rotatably provided around the central axis 10 and engaging with the other end of the second connection blade 92 extending in the horizontal direction. A plurality of rotary blades 70 are installed at intervals between the upper plate and the lower plate of the rotary vane support 40 at intervals along the circumferential direction.

A plurality of air discharge holes 21 are formed in the upper plate and the lower plate of the inner fixed blade support portion 20. The air discharge holes 21 are formed so that the air inside the device escapes when a whirlwind blows or a reverse wind blows, So that it can be smoothly operated.

The generator 100 is connected by a transmission mechanism including a rotary blade bearing 41 of the unit at the bottom of the units and the gear unit 110. When the rotary wing support unit 40 rotates, 100 so that the generator 100 converts the rotational force into electricity to produce electricity. In FIG. 1, the generator 100 is shown as being installed at the top, but this is for the sake of understanding. It is preferable that the generator 100 is installed at the bottom as shown in FIG.

As shown in FIG. 3, a plurality of guide plates 200, which are elongated along a radial direction and are vertically erected, are fixed to the outside of the outer fixed blade 60. The guide plate 200 is a plate- It helps to gather well into the device.

In the present embodiment, both the inner fixed blade 50 and the outer fixed blade 60 are gently curved so as to form a curved surface at an obtuse angle with their left and right sides wide, The inner fixed blade 50 and the outer fixed blade 60 have a shape in which the middle portion is recessed in the clockwise direction.

The inner fixed blade 50, the outer fixed blade 60, and the rotary blade 70 are each arranged in a circular shape with a predetermined spacing in the circumferential direction. The inner fixed blade 50 and the outer fixed blade 60 are both elongated in the radial direction from the central axis 10 so that the inner fixed blade 50 and the inner fixed blade 50, Can be introduced and discharged through a space between the outer stationary vane 60 and the outer stationary vane 60 which are adjacent to each other and between the rotary vane 70 and the rotary vane 70 which are adjacent to each other.

The outer stationary vane 60 is of two types, short and long, which are configured to accommodate three short outer stationary vanes 50 between the two long outer stationary vanes 50. The long outer fixed wing 50 extends longer from the central axis 10 than the short outer wing 50.

The rotary vane 70 is disposed in the same plane as the inner fixed vane 50 and the outer fixed vane 60 in engagement with the rotary vane support portion 40 and has an inner fixed vane 50 and an outer fixed vane 60, The outer surface of one rotary vane 70 is divided into a plurality of outer vanes 60, which are spaces between a pair of outer vanes 60 adjacent to each other, It has the size and shape to block the degree of the inside at the same time.

Referring to FIG. 3, the rotary vane 70 is rotated by a reaction force generated when the air flowing in through the inlet port and moving inwardly collides with the protruding portion on the right side. So that the rotary vane 70 is subjected to the force of rotating counterclockwise.

In other words, the right end of the rotary vane 70 has a portion similar to a shape protruding clockwise as it extends inward from the outside of the wind power generator while extending further to the right. Further, the right side surface of the rotary vane 70 has a concave curved surface shape with the center portion inwardly, so that when the wind hits the right protruding portion of the rotary vane 70, the curved surface smoothly curves rightward while minimizing air resistance At this time, the wind pushes the rotary vane 70 to move the rotary vane 70 to the left.

On the other hand, the rotary vane 70 has the same shape as a wedge that is thickened from left to right, and is gradually thickened at the beginning from the left end to the right and then rapidly thickened from the middle portion so that the inner surface of the rotary vane 70 It has a concave shape. With such a structure, the space between the adjacent rotary blades 70 is configured to be wider inward from the outside of the wind power generator, and the rotation of the rotary vane 70 and rotation Since the space between the blades 70 is widened, the backward wind that may occur between the blades 70 is minimized.

In the above embodiment, the rotary vane 70 is configured to be rotated counterclockwise, but it is also possible to configure the rotary vane 70 to rotate clockwise by configuring all the components to be symmetrical.

The operation of the wind power generator constructed as described above will be described as follows.

The wind is blown and the wind blown through the outer fixed blade 60 on the mouth side returns the mouth-side rotary blade 70, passes through the inner fixed blade 50, passes through the space around the central shaft 10, Passes through the fixed blade (50) on the inner side of the airfoil, rotates the rotary blade (70) toward the airflow, and then is discharged to generate power in a double direction. The wind blown by the fixed blade collides against the protruding portion of the rotary vane 70 to generate power. The inner-side fixed vane 50 serves to rotate the rotary vane 70 through the outer fixed vane 60 on the mouth side and to send the disturbed wind to the air side, while the inner-side fixed vane 50 The wind which is sent from the wind side is collected and a force is applied to rotate the rotary blade 70 on the wind side.

A part of the air escapes through the air vent hole 21 formed in the inner fixed wing support portion 20 in case the back air or the whirlwind is generated in the inside fixed wing 50. [

When a failure occurs in a wind power generator having a plurality of layers or when replacement of parts is necessary, power is cut off when the gear unit 110 is removed, so that disassembly of the wind power generator can be facilitated.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention as set forth in the accompanying drawings. And modifications are within the scope of the appended claims.

10: center shaft 20: inner fixed wing support
21: air vent hole 30: outer fixed wing support
40: a rotary blade support part 41: a rotary blade bearing
50: inner fixed blade 60: outer fixed blade
70: rotary blade 80: support rod
90: first connecting rod 91: center plate
92: second link 100: generator
110: gear device 200: guide plate

Claims (8)

A center axis fixed to be vertically erected;
A fixed wing support portion provided around the central axis;
A rotary wing support rotatably coupled to the central shaft to be rotated about the central axis;
An inner fixed blade having a plate shape that is bent in such a manner that an intermediate portion thereof is clockwise viewed from above when the upper fixed blade is engaged with the fixed blade support portion and is arranged radially with a plurality of circles spaced from each other to surround the central axis;
The inner fixed wing is surrounded by the fixed wing supporting part and spaced apart from the inner fixed wing, and a plurality of the outer fixed wing are radially arranged with a gap therebetween, and the middle part is clockwise An outer stationary blade having a plate-like shape;
And a plurality of teeth arranged in a circle between the inner fixed wing and the outer fixed wing in a radial direction spaced apart from each other in a space between the inner fixed wing and the outer fixed wing, Wherein each of the outer surfaces of the rotary vanes has a size and shape that simultaneously blocks a plurality of inlet tuyeres, which are spaces between a pair of adjacent outer fixed vanes, from the inside, A rotary blade having a shape in which one end of the rotary blade protrudes in a clockwise direction while being inwardly received so as to receive a force that causes the rotary blade to rotate in a counterclockwise direction due to a reaction force generated when the air moving inward is hit; And
And a generator connected to the rotary vane supporter to convert the rotational force of the rotary vane support into electric power. A center axis fixed to be vertically erected;
A fixed wing support portion provided around the central axis;
A rotary wing support rotatably coupled to the central shaft to be rotated about the central axis;
An inner fixed blade having a plate shape that is bent in such a manner that the middle portion of the fixed blade is in a counterclockwise direction when seen from above;
The inner fixed wing is surrounded by the fixed wing supporting part and spaced apart from the inner fixed wing, and a plurality of the outer fixed wing are arranged radially with a gap therebetween and each has a middle part in a counterclockwise direction An outer stationary blade having a plate shape that is tucked in;
And a plurality of teeth arranged in a circle between the inner fixed wing and the outer fixed wing in a radial direction spaced apart from each other in a space between the inner fixed wing and the outer fixed wing, Wherein each of the outer surfaces of the rotary vanes has a size and shape that simultaneously blocks a plurality of inlet tuyeres, which are spaces between a pair of adjacent outer fixed vanes, from the inside, A rotary blade having a shape in which one end of the rotary blade protrudes in a counterclockwise direction while being inwardly received so as to be subjected to a force in which the rotary blade is rotated in a clockwise direction by a reaction force when the air moving inward is hit; And
And a generator connected to the rotary vane supporter to convert the rotational force of the rotary vane support into electric power. The method according to claim 1,
Wherein the rotary vane is configured such that the one end of the rotary vane protruding in the clockwise direction when viewed from above is thick and the opposite side end is thin so that the space between the adjacent rotary vanes extends inward from the outside, Device. 3. The method of claim 2,
Wherein the rotary vane is configured such that one end thereof protruding in a counterclockwise direction when viewed from above is thick and the opposite end thereof is thin so that a space between adjacent rotary vanes extends in width from the outside to the inside, Generator. 5. The method according to any one of claims 1 to 4,
Some of the outer fixed wings spaced apart from each other such that a predetermined number of the outer fixed wings are interposed therebetween are configured to extend further outward when viewed from above the remaining outer fixed wings As shown in Fig. 5. The method according to any one of claims 1 to 4,
Wherein a plurality of units each consisting of the central axis, the fixed wing support, the rotary wing support, the inner fixed wing, the outer fixed wing, and the rotary wing are stacked in the vertical direction,
Wherein the rotary wing support portion of the unit adjacent to the upper and lower portions is connected so that power is transmitted by a removable gear device. 5. The method according to any one of claims 1 to 4,
Wherein the fixed wing support portion comprises an inner fixed wing support portion and an outer fixed wing support portion and the inner fixed wing support portion is engaged with the central shaft and the outer fixed wing support portion is coupled with a support rod whose outer edge is vertically erected at the ground Wherein the wind turbine generator is a wind turbine generator. 8. The method of claim 7,
Wherein the inner fixed wing support, the outer fixed wing support, and the rotary wing support each include an upper plate and a lower plate that are installed at upper and lower intervals,
And the air outlet is provided on the top and bottom surfaces of the inner fixed blade support portion.

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