KR101891469B1 - Apparatus for generating by wind power - Google Patents

Abstract

The present invention relates to a wind power generator, minimizing drag while increasing wind pressure and generating rotational power by using a strong rotation moment even when a wind speed is weak so as to generate stable power. That is, the wind power generator has a rotary body in which a plurality of weight eccentric actuators and blades are installed, wherein weight water is introduced into a hollow pipe formed in the weight eccentric actuators and the weight water flows into the inner end or the outside of the weight eccentric actuators so that a weight eccentric action of the rotary body can be performed by the weight eccentric actuators. Moreover, the hollow pipe has a double passage portion divided into two portions, and a rotation space portion is formed in the hollow pipe, located on an inner end and an outer end of the weight eccentric actuators.

Description

[0001] APPARATUS FOR GENERATING BY WIND POWER [0002]

The present invention relates to a wind power generator, and more particularly, to a wind power generator capable of increasing wind pressure and minimizing a drag force, and also capable of generating stable power by generating a rotary power by a strong rotation moment action, Generating device.

Generally, a wind power generator is a device that generates electric power by generating mechanical energy by wind force and then converting it into electric energy. Wind energy due to wind is infinite and clean, so it is recognized as an alternative energy.

As a new alternative energy generation device, the wind power generation device has a sufficient possibility. However, it is difficult to move the blade when the wind speed is low (for example, about 2 to 6 m / sec) There is a problem in that the efficiency of power generation is remarkably low.

To solve such a problem, Korean Patent Registration No. 10-1206701 discloses a wind turbine generator capable of generating wind at low wind speed. Such a wind turbine generator includes an air foil type wind capturer which generates an overlapping force in the same direction by constituting an overlapped region with respect to the center shaft, thereby enabling the use of drag and lift of wind simultaneously, And accelerated the output coefficient so that wind power can be generated even in a small wind.

However, since the conventional wind power generation apparatus including the above-described prior art for generating power even at low wind speed is capable of increasing the rotational power of the blades by focusing the wind mainly by the shape and arrangement of the blades, When the wind speed is changed to 2 / sec or less, the rotation of the blades is rapidly lowered and the power generation efficiency is lowered. In addition, in the case of a strong wind such as a typhoon, the blades are excessively rotated to cause damage or breakdown of the blades, .

On the other hand, in the 'wind turbine generator' of Japanese Patent No. 1815067 and No. 1817229 disclosed by the inventor of the present invention, it is possible to generate stable power by generating rotational power by a strong rotation moment action even when the wind speed is low. The present invention has another type of wind turbine generator which is simple in structure and greatly improved power generation efficiency based on the technical content.

KR 10-1815067 KR 10-1817229 KR 10-0828234 KR 10-1206701 KR 10-1239077

The present invention is characterized in that a plurality of weight eccentric actuators are mounted on a rotating body of a wind power generator in an inclined manner in a rotating direction of the wind turbine, and blades are installed inside the ends of both eccentric weight operators, A hollow pipe line is provided to allow a weight to flow due to weight flow in the inner or outer end of the weight eccentric operator so that the weight of the hollow pipe is doubly divided into a moving passage portion and a revolving space portion, The power is turned by the rotational force of the gravity eccentric actuator and the force of the gravity eccentricity that flows and then the direction is changed and then smoothly flows in the opposite direction through another moving passage portion. Power generating device.

The present invention relates to a wind power generator having a structure in which a plurality of weight eccentric actuators and blades are installed on a rotating body of a wind power generator, wherein weight water is introduced into a hollow channel formed inside the weight eccentric operator, And a hollow channel is formed in the hollow channel and a hollow passage is formed in the hollow channel so as to be divided into a plurality of hollow passages formed in the inner and outer ends of the weight eccentric operator, And a turning space is formed in the wind turbine.

One longitudinal side of the weight eccentric operator is attached to the circumferential surface of the rotary disk and the other side is projected outward to form an inner end and an outer end of the weight eccentric operator.

The weight eccentric actuators are inclined at equal intervals and the weight side eccentric actuators are attached to the inner ends of the weight eccentric actuators by the longitudinal side portions of the weight eccentric actuators.

The hollow channel of the gravity eccentric operator is provided with a double moving passage portion formed by partition walls along the longitudinal direction and divided into upper and lower portions, and the hollow channel located at the inner end and the outer end of the gravity eccentric operator has a curved turn space And the direction is changed by turning the weight water through the swivel space part by the driving force of the moving direction in which the weight is downwardly flowed, and then flows into another moving passage part and flows.

A backflow preventing protrusion is formed at both ends of the partition wall adjacent to the turning space portion in the direction of the moving passage portion and a protrusion of the backflow preventing protrusion protrudes in a hemispherical shape in the upper and lower moving passage portions.

In the wind turbine generator of the present invention, a plurality of weight eccentric actuators and blades are provided on the rotating body, and when the rotating body rotates, weight water flows to the outer end of the weight eccentric operator in the downward rotational direction, In the rotating direction, the center of gravity of the rotating body is shifted to cause weight deviation due to the movement of the center of gravity of the rotating body by the means that the weight flows to the inner end of the weight eccentric operator, The moving passage portion and the revolving space portion are formed so that when the weight flows to the inner end or the outer end of the weight eccentric operator, the weight does not collide with the weight, and the weight water is pivoted through the swivel space portion to flow into another moving passage portion, And a means for preventing excessive rotation when strong winds are blown There is an effect that can greatly improve the efficiency of stable development and progress.

1 is a perspective view showing a configuration of a wind power generator according to the present invention;
2 is a side view showing a configuration of a wind power generator according to the present invention;
BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a wind turbine.
Fig. 4 is a cross-sectional view illustrating the configuration and arrangement of a weight eccentric operator in a wind turbine generator according to the present invention; Fig.
5 is a partially enlarged sectional view of a weight eccentric operator in a wind turbine generator according to the present invention.
6 is a cross-sectional exemplary view showing that the weight water is turned in the turning space portion located at the inner end of the weight eccentric operator in the wind turbine generator according to the present invention to change the direction to the outer end.
Fig. 7 is a cross-sectional exemplary view showing that the weight water is turned in the turning space portion located at the outer end of the weight eccentric operator in the wind power generator according to the present invention, and is then turned to the inner end.
8 is a front view showing a state in which the wind power generator according to the present invention is installed.
Fig. 9 is a side view showing a state in which auxiliary blades are installed in the wind power generator according to the present invention; Fig.
10 is an enlarged partial cross-sectional view of an auxiliary blade installed in a wind power generator according to the present invention.

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

The wind turbine generator of the present invention includes a rotary shaft 110 installed horizontally in a support frame 112, a rotary disk 120 installed at both ends of the rotary shaft 110, A plurality of weight eccentric actuators 300 integrally connected to the weight eccentric actuators 300 and inclined in the advancing direction and a rotating body 100 having the blades 200 installed at the inner ends of the weight eccentric actuators 300 have.

The rotary shaft portion 110 is installed at the upper center of the support frame 112 supporting the wind power generator and the horizontal shaft portion 110 is installed at one side of the horizontal rotary shaft portion 110 with a generator The power is generated by the rotational power of the motor.

The rotating disk 120 is disposed opposite to both ends of the rotating shaft 110 and the weight eccentric operator 300 is connected to the circumferential surface of the rotating disk 120 to rotate the rotating shaft 110. [ The rotary disk 120 and the weight eccentric operator 300 rotate.

The weight eccentric operator 300 is provided in a rectangular shape and a plurality of the weight eccentric actuators 300 are equally spaced such that they are inclined in the rotation advancing direction. One longitudinal side of the weight eccentric operator 300 is attached to the circumferential surface portion of the rotary disk 120, So that the inner end 300a and the outer end 300b of the weight eccentric operator 300 are formed.

The weight eccentric operator 300 is inclined at regular intervals and is attached to the inner end 300a of the weight eccentric operator 300 by being attached to the longitudinal side of another weight eccentric operator 300 So that the weight eccentric actuators 300 can be firmly supported by each other.

A hollow pipe 310 is formed in the inside of the weight eccentric operator 300 and a part of the weight is inserted into the hollow pipe 310 so that the weight of the weight eccentric operator 300 is changed by the rotation of the weight eccentric operator 300, The center of gravity of the weight eccentric operator 300 is moved in the direction of the center of gravity by the means that the weight is moved to the inner end 300a or the outer end 300b of the weight eccentric operator 300, So that strong rotational power is applied to the motor 100.

That is, in the downward rotation direction of the weight eccentric operator 300, when the rotating body 100 constituting the wind power generator is rotated, the weight A is increased to the outer end 300b of the eccentric weight operator 300 The weight eccentric operator 300 is disposed so that the weight A can flow into the inner end 300a of the weight eccentric operator 300 in the upward rotational direction of the rotating body 100, 100, the weight of the rotating body 100, which causes the weight deviation to be caused by the center-of-gravity movement of the rotating body 100, causes the rotating body 100 to generate rotational power by a strong rotation moment action.

This is because in the weight eccentric actuator 300 at a position rotated in the upward rotational direction of the rotating body 100, the weight A flows into the inner end 300a, In the weight eccentricity operator 300, the center of gravity of the rotating body 100 for allowing the weight water A to flow to the outer end 300b to achieve weight eccentricity is smoothly performed.

(Not shown) is provided at one side of the hollow pipe 310 and heavy water A is injected through the injection port so that the weight water A flows in the hollow pipe 310 and eccentricity (A) of about 1/3 of the volume of the hollow pipe (310), and the weight water is filled with water or oil so as not to be frozen even at a low temperature .

The present invention is characterized in that the weight A moves in the direction of the inner end 300a or the outer end 300b of the weight eccentric operator 300 through the inner hollow pipe 310 of the weight eccentric operator 300 5, a double-divided moving path 312 is formed in the hollow pipe 310 of the weight eccentric operator 300 and the inner end of the weight eccentric operator 300 The swirling space portion 314 is formed in the hollow pipe 310 located at the outer end 300a and the outer end 300b so that the direction of rotation is changed by turning the weight A, It is possible to generate a strong rotational power by a means by which the weight water A smoothly flows.

The hollow pipe 310 of the weight eccentric operator 300 is provided with a double moving passage 312 in which a partition wall 316 is formed along the longitudinal direction and is divided into upper and lower parts, The hollow pipe 310 located at the inner end 300a and the outer end 300b of the inner pipe 300 does not have a partition wall 316 and a curved turn space portion 314 is formed, The weight A is turned through the swinging space portion 314 by the driving force of the weight A and the rotational force of the weight eccentric operator 300, So that the weight number A in the different traveling directions can smoothly flow without colliding with each other.

That is to say, as the weight eccentric operator 300 is placed at an inclined angle, the driving force of the weight water A flows downward in the moving path portion 312 of the hollow pipe 310 and the rotational force of the weight eccentric operator 300, Is turned to an action of being pivoted in the swirl space portion 314 formed at the stage 300a or the outer stage 300b and then flows into another moving passage portion 312 and flows smoothly to the opposite side of the weight water traveling direction .

This is because in the case of the weight eccentric actuator 300 formed of the hollow pipe 310 having both ends closed in a straight line, the weight water A flows downward through the hollow pipe 310, The flow resistance of the weight A temporarily occurs due to a collision action in which the number of weights in the different traveling directions collide with each other when the direction is switched to the inner side 300a or the outer side 300b of the weight eccentric actuator 300, The movement of the center of gravity of the moving body 300 is not smooth. Such a problem can be solved through the double moving passage portion 312 and the turning space portion 314 of the present invention.

The backflow preventing protrusion 318 protruding in the direction of the moving path portion 312 is formed at both ends of the partition wall 316 adjacent to the turning space portion 314 so that the weight A The protruding portion of the backflow prevention protrusion 318 can be minimized in the direction of the moving path portion 312 in which the swirling is progressing and minimized in the reverse direction by the backflow prevention protrusion 318, It is preferable to project in a hemispherical shape to the lower movement path portion 312 so as to have a reverse flow preventing function while reducing the weight number and the contact resistance.

The blade 200 is formed with inclined guide surfaces 210 that are bent inward from the both ends to the center so as to rotate in one direction by generating rotational force against the incoming wind, It is preferable that the collecting plate 212 is formed so that the wind that flows into the blade 200 and collides with the blade 200 can be focused on the inclined guide surface 210 of the blade 200 without escaping to the outside.

The propulsive force generating unit 220 is provided inside the end of the blade 200 to generate a strong propulsive force by the wind that hits the blade 200 to increase the rotational force. A wind pressure increasing passage 221 for gradually increasing the wind pressure of the wind which is gradually narrowed in the direction of the air discharge opening 223 from the air discharge opening 222 of the wind pressure increasing passage 221, And the inner side adjacent to the rotating body 100 is formed with a folded discharge inducing portion 224 so as to have a strong thrust force by the wind pressure discharged in the direction opposite to the rotation of the rotating body 100.

The auxiliary blade 230 may be disposed at an inner side of the blade 200 at a predetermined interval so that the auxiliary blade 230 may gradually move along the rotational direction of the rotating body 100. [ A plurality of auxiliary blades 230 are arranged in a radially spaced-apart manner at equal intervals while the contact area of the wind contacting the one auxiliary blade 230 is reduced while being provided in an inclined inwardly curved plate- Increase wind pressure and minimize drag.

In other words, the auxiliary blade 230 is formed as a curved surface that is inwardly directed toward the rear end portion 232 from which the wind is discharged from the front end portion 231 of the wind-inflowed portion, and between the respective auxiliary blades 230 arranged in the multi- The wind which flows into the space between the leading ends 231 of the auxiliary blades 230 arranged in a multi-stage structure is gradually compressed and discharged to the rear end 232 in such a manner that the arrangement interval becomes narrower from the rear end 231 to the rear end 232 The drag force is minimized because the contact area of the wind-resistant portion from the rear end portion 232 to the tip end portion 231 of the opposite auxiliary blade 230 is small.

An embodiment of the wind turbine generator according to the present invention will now be described in detail.

A plurality of blades are arranged at equal intervals around the rotating shaft portion 110 of the rotating body 100 constituting the wind power generator of the present invention, and power generation is performed by a means for generating a rotating force by the wind that hits the blades.

In this case, the wind power generator according to the present invention includes a weight eccentric operator 300, which is provided not only with the rotational force of the blade 200 but also with the weight eccentric operator 300, So that a strong rotational power can be generated by the electric motor 300 to stably generate electric power.

That is, as shown in FIGS. 1 and 2, a plurality of weight eccentric actuators 300 integrally connected to the rotary disk 120 installed at both ends of the rotary shaft 110 and inclined in the advancing direction, Wind power is generated by the rotating body 100 in which the blades 200 are installed inside the end of the actuator 300.

4, when the power is generated in a state where the blades are installed so that the rotating body 100 rotates in the counterclockwise direction, the present invention is applied to the rotating body 100 in the downward rotational direction The weight A is caused to flow to the outer end 300b of the weight eccentric operator 300 and the inner side of the weight eccentric operator 300 is rotated in the upward rotational direction The weight eccentric operator 300 is disposed so that the weight water A can flow into the rotary body 300a so that the weight of the rotary body 100 is shifted by the movement of the center of gravity, Can be greatly increased.

Particularly, in the present invention, the hollow passage 310 of the weight eccentric actuator 300 is formed with a double passage portion 312, and the inner end 300a and the outer end 300b of the eccentric weight 300 When the weighted water A flows into the inner end 300a or the outer end 300b of the weight eccentric operator 300 without causing the collision space portion 314 to collide with the inner end 300a or the outer end 300b of the weight eccentric operator 300, And then the weight water A flows to another moving path portion 312, so that a strong rotational power is generated.

6, when the rotating body 100 is rotated in the direction of the arrow mark, the weight 300 is moved to the inner end 300a of the weight eccentric operator 300 through the moving path 312 provided in the hollow pipe 310 A is pivoted through the swivel space portion 314 of the inner end 300a by the driving force of the downward weight of the weight A to be changed in direction and then the other moving passage portion 312 To the outer end 300b of the weight eccentric operator 300 through another moving path 312 along with the continuous rotation of the eccentric weight 300 by means of the flow of the weight A into the weight eccentric actuator 300, The converted weight number A flows smoothly.

7, when the downward flow of the weight A is made to the outer end 300b of the weight eccentric operator 300 while the rotating body 100 rotates in the direction of the arrow marking, Is turned by the driving force of the downward movement through the swinging space portion 314 of the outer end 300b and then the weighted water A is introduced into the other moving path portion 312, The weight water A smoothly flows to the inner end 300a of the weight eccentric operator 300 through another moving passage portion 312 along with the continuous rotation of the actuator 300. [

As described above, according to the present invention, the weight eccentric operator 300 is provided to generate a weight deviation according to the movement of the center of gravity of the rotating body to obtain a strong rotational power, and to prevent excessive rotation when strong winds are blown It is possible to greatly improve stable power generation and power generation efficiency and to improve the power efficiency of the weight eccentric actuator 300 by the moving passage portion 312 and the turning space portion 314, The weight water A can be smoothly flowed through the other moving passage portion 312 by means of turning the weight A at the inner end 300a or the outer end 300b of the first and second moving bodies 300 and 300, .

While the present invention has been described with reference to the exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments.

100: rotating body 110:
112: support frame 120: rotating disk
200: blade 210: inclined guide surface
212: collecting plate 220: propulsion generating unit
221: wind pressure increase passage 222: air inlet
223: air outlet 224:
230: auxiliary blade 231:
232: rear end portion 233: concave surface
234: convex surface 300: weight eccentric operator
300a: Inner end 300b: Outer end
310: hollow pipe 312: moving passage part
314: turning space part 316: partition wall
318: Anti-backflow protrusion A: Weight number

Claims (5)

A plurality of weight eccentric actuators (300) and blades (200) are installed on a rotating body (100) of a wind power generator
Weight water flows into the hollow pipe 310 formed inside the weight eccentric operator 300 and weight water flows into the inner end 300a or the outer end 300b of the weight eccentric operator 300, A configuration in which the weight 300 acts on the rotating body 100 to perform the weight eccentric action,
The hollow pipe 310 has a hollow passage 310 formed in the inner end 300a and the outer end 300b of the weight eccentric operator 300, (314) is formed on the upper surface of the wind turbine.
The method according to claim 1,
One side of the weight eccentric operator 300 in the longitudinal direction is attached to the circumferential surface of the rotary disk 120 and the other side is protruded outward so that the inner end 300a and the outer end 300b of the weight eccentric operator 300, And the wind turbine generator comprises a wind turbine generator.
The method according to claim 1,
The weight eccentric operator 300 is inclined at equal intervals and the other end of the weight eccentric operator 300 is attached to the inner end 300a of the eccentric weight 300, And the wind turbine generator is configured as a wind turbine generator.
The method according to claim 1,
The hollow pipe 310 of the weight eccentric operator 300 is provided with a double moving passage 312 in which a partition wall 316 is formed along the longitudinal direction and is divided into upper and lower parts, The hollow pipe 310 located at the inner end 300a and the outer end 300b of the swivel space 300 is formed with a curved swirl space part 314 so that the swirl space part 314 So as to be able to flow into another moving passage portion (312) and flow.
5. The method of claim 4,
The backflow preventing protrusion 318 is formed at both ends of the partition wall 316 adjacent to the turning space 314 in the direction of the moving path 312 and the protrusion of the backflow preventing protrusion 318 is formed in the upper, (312). ≪ / RTI >

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