KR101409297B1 - Apparatus for opening and closing folding type inlet of wind power generator - Google Patents

Abstract

The present invention provides a folding type inlet opening / closing apparatus for a wind power generator which is provided with a funnel-shaped inlet that can be pivoted at an inlet through which wind is introduced, thereby enabling stable wind power generation by bypassing wind flowing in accordance with wind strength . A float portion for accommodating a gas lighter than air in an enclosed space to provide a floating force; a passage portion for passing a wind through the center of the floating body; The bypass passage portion being provided between the floater and the passage portion and guiding the wind guided to the passage portion to be bypassed along an arbitrary path; A plurality of frames arranged in the form of a funnel at the entrance of the bypass passage portion to guide wind to flow into the passage portion or to bypass the wind guided to the passage portion by the wind to the bypass passage portion; And an elastic part for supporting the frames of the inflow part so as to maintain the funnel shape at a predetermined position and an elastic part for providing a restoring force so that the frame of the inflow part can be retracted when the frame of the inflow part is rotated. Therefore, the funnel-shaped inlet portion rotatably installed at the entrance of the wind can bypass the incoming wind according to the strength of the wind to provide stable wind power generation.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a folding type inlet opening /

The present invention relates to a folding type inlet opening and closing apparatus for a wind power generator, and more particularly, to a folding type inlet opening and closing apparatus for a wind power generator, which comprises a funnel-shaped inlet portion rotatably installed at an inlet through which wind is introduced, To a folding type inlet opening / closing device of a wind power generator.

Wind power refers to a system that converts wind energy into mechanical energy using various types of windmills and derives power from the generator using the mechanical energy.

Generally, a wind turbine generates wind by generating electricity through wind power by installing a structure on the ground by selecting a windy area and installing a generator connected to the propeller at the top of the structure.

In recent years, in order to utilize more sufficient wind power, a method in which power generation by wind power is carried out while filling a gas having a low specific gravity in the inside of the device and staying a generator including a propeller at high altitude is attempted.

FIG. 1 is a perspective view of a balloon type wind power generator according to the related art, and FIG. 2 is a sectional view of a balloon type wind power generator according to FIG. 1. As shown in FIGS. 1 and 2, A float portion 12 for passing a wind through a center of the floating body 11 and providing a path for the passage of the wind; (15) formed on the front side of the passage portion (12) and guiding the wind to move to the passage portion (12), and a guide portion And a vertical / horizontal blade (16) installed along the outer circumference of the body (11) so that the floating body (11) can maintain a vertical / horizontal balance.

The inlet portion 15 provided on the front side of the passage portion 12 allows the wind to concentrate on the passage portion 12 having a small diameter so that high quality wind power can be generated and the power generation efficiency can be improved.

It also ensures that high-quality wind power can be produced even when winds of small wind speeds are blown.

However, in the balloon type wind power generator 10 according to the related art, the inflow portion 15 provided on the front side of the passage portion 12 has a problem that an excessive amount of wind is concentrated in the passage portion 12 when a wind having a large wind velocity is blown have.

In addition, there is a problem that an overload occurs due to an excessive flow of wind and the power generation unit is damaged.

In order to solve such a problem, the present invention provides a foldable type inflow port of a wind turbine generator which is provided with a funnel-shaped inflow section that is rotatable at an inlet through which wind is introduced, thereby enabling stable wind power generation by bypassing the wind, And an opening / closing device.

According to an aspect of the present invention, there is provided an air conditioner comprising a float body for accommodating a gas lighter than air in an enclosed space to provide a floating force, a passageway for passing a wind path through the center of the float body, And a power generating unit installed in the power generating unit and generating electric power by using a wind that flows into the passage unit,

A bypass passage portion provided between the float body and the passage portion and guiding the wind guided to the passage portion to be bypassed along an arbitrary path; A plurality of frames arranged in the form of a funnel at the entrance of the bypass passage portion to guide wind to flow into the passage portion or to bypass the wind guided to the passage portion by the wind to the bypass passage portion; And an elastic part for supporting the frames of the inflow part so as to maintain the funnel shape at a predetermined position and an elastic part for providing a restoring force so that the frame of the inflow part can be retracted when the frame of the inflow part is rotated.

Further, the frame according to the present invention may include a frame body formed in a fan shape; A lid part formed to extend from the one side of the frame body by a predetermined length; And a swivel portion provided at a front end of the lid portion so that the frame is coupled to the bypass passage portion with the rotation shaft, and the frame is rotated about the rotation axis.

Further, the elastic part according to the present invention is characterized in that an elastic force of the same magnitude is provided to individual frames of the inflow part.

Further, the elastic part according to the present invention provides an elastic force of a different magnitude to the individual frames of the inflow part, so that an arbitrary frame selectively rotates according to the wind pressure.

In addition, the bypass passage portion according to the present invention is characterized in that a bypass inflow hole selectively opened or closed depending on whether the inlet port is rotated is formed on one side.

The present invention is advantageous in that a funnel-shaped inlet portion rotatably installed at an inlet through which wind is introduced bypasses the incoming wind according to the strength of the wind to provide stable wind power generation.

1 is a perspective view showing a conventional balloon type wind power generator.
2 is a sectional view of the balloon type wind power generator according to Fig. 1;
3 is a perspective view of a wind turbine equipped with a folding type inlet opening / closing device according to the present invention.
4 is a perspective view showing a folding type inlet opening / closing device of a wind turbine according to the present invention.
5 is a cross-sectional view illustrating the configuration of a folding type inlet opening / closing apparatus of a wind turbine according to the present invention.
6 is a cross-sectional view illustrating the operation of the folding type inlet opening / closing device of the wind turbine according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT Hereinafter, a preferred embodiment of a folding type inlet opening / closing apparatus for a wind turbine according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 3 is a perspective view of a wind turbine equipped with a folding type inlet opening / closing apparatus according to the present invention, FIG. 4 is a perspective view showing a folding type inlet opening and closing apparatus of a wind turbine according to the present invention, 6 is a cross-sectional view illustrating an operation of the folding type inlet opening / closing device of the wind power generator according to the present invention.

3 to 6, a folding type inlet opening / closing apparatus 200 of a wind power generator according to the present invention includes a passage portion 210 installed in a floating body 100 and passing through the floating body 100, A bypass passage portion 220, an inlet portion 230 formed of a plurality of frames, and an elastic portion 240.

The float body 100 is a cylindrical balloon-like member. The float body 100 accommodates a lighter gas than air in an enclosed space to provide a floating force. A plurality of floats 100 are provided along the outer circumference of the passage portion 210 And a plurality of blades 110 are installed on the outer circumference of the lifting body 100 so that the floating body 100 can be vertically or horizontally balanced.

The passage portion 210 is a pipe-shaped member that is provided to pass through the center of the floating body 100 and provides a path for the wind flowing from the front side to pass through the power generation portion 300 and then move backward.

The bypass passage portion 220 is provided between the floating body 100 and the passage portion 210 so that a part of the wind flowing from the front of the floating body 100 does not flow into the passage portion 210, The bypass passageway 220 includes a main body of a pipe-shaped bypass passage 220 and a bypass inflow hole (not shown) which is selectively opened or closed depending on whether the inlet 230 is operated or not 221).

That is, the bypass passage portion 220 is disposed in the form of a double pipe, for example, with the passage portion 210 so that the wind passage portion 210 is moved or a part of the wind flows along the bypass passage portion 220 .

The inflow portion 230 is disposed at the inlet side of the bypass passage portion 220 in a funnel shape with the first frame 230a, the second frame 230b, the third frame 230c and the fourth frame 230d. Or when the wind pressure (or wind strength) of the wind exceeds a predetermined magnitude (elastic force), the wind is turned by the wind blowing, So that the wind guided to the unit (210) is bypassed to the bypass passage portion (220).

The inflow unit 230 includes first to fourth frames 230a, 230b, 230c, and 230d of a fan shape formed by equally dividing the funnel shape, and first to fourth frames 230a, 230b, and 230c 230b, 230c, 230d provided at the front end of the lid part 231, and the first to fourth frames 230a, 230b, 230c, 230d are provided at the front end of the lid part 231, And a swivel portion 232 for swiveling the first through fourth frames 230a, 230b, 230c, and 230d about the respective rotation shafts so as to be coupled to the path passage portions 220 through rotation shafts, respectively.

The first to fourth frames 230a, 230b, 230c and 230d guide the path so that the wind flows in. The lid part 231 is connected to the bypass inflow hole 221 of the bypass passage part 220, So that the bypass inflow hole 221 is selectively opened or closed.

The elastic portion 240 may be formed of elastic force for supporting the first to fourth frames 230a, 230b, 230c and 230d of the inflow portion 230 so as to maintain the funnel shape at a predetermined position, The elastic part 240 is preferably provided at one side of the pivot part 232 to provide a restoring force when the first to fourth frames 230a, 230b, 230c, 230d are rotated by wind, (Or torsion spring) that provides a resilient energy of a certain magnitude.

The torsion spring obtains a bending elastic energy by a spring which receives a torsional stress in a rotating direction with respect to the rotation axis, and has a twin shape in which both sides are symmetrical about the rotation axis.

That is, one side is supported by the bypass passage portion 220 and the other side is supported by the first to fourth frames 230a, 230b, 230c, and 230d to form the first to fourth frames 230a, 230b, 230c, 230d ) To keep the shape of the funnel.

In addition, the elastic portion 240 may be formed in the first to fourth frames 230a, 230b, 230c and 230d by setting the bending elastic energy levels of the torsion springs supporting the first to fourth frames 230a, 230b, 230c, , 230c, and 230d can be rotated together when the wind pressure exceeds the set bending elastic energy.

In addition, the elastic portion 240 may be formed in the first to fourth frames 230a, 230b, 230c, 230d by setting the bending elastic energy magnitudes of the torsion springs supporting the first to fourth frames 230a, 230b, 230a, 230b, 230c, and 230d in accordance with the wind pressure applied thereto.

The power generating unit 300 is installed inside the passageway 210 so as to generate wind power using the wind that flows into the passageway 210.

The operation of the folding type inlet opening / closing apparatus of the wind power generator according to the present invention will be described below.

(Bypass passage portion is closed)

The folding type inlet opening and closing apparatus 200 is positioned in the air by the floating body 100 and the first to fourth frames 230a, 230b, 230c, and 230d of the inflow portion 230 are twisted And the wind flowing from the front is moved along the inclined portion of the first to fourth frames 230a, 230b, 230c and 230d to be introduced into the passage portion 210. [

The wind concentrated to the passage portion 210 by the first to fourth frames 230a, 230b, 230c and 230d is supplied to the power generating portion 300 so that it can perform high-quality power generation even with small winds.

(Bypass passage portion opening)

When the intensity of the wind is increased in the state of being positioned in the air by the floating body 100, the intensity and pressure of the wind applied to the first to fourth frames 230a, 230b, 230c, and 230d of the inflow portion 230 also increase .

When the wind pressure applied to the first to fourth frames 230a, 230b, 230c and 230d of the inflow portion 230 exceeds the elastic energy set to the elastic portion 240, the first to fourth frames 230a , 230b, 230c, and 230d rotate in the clockwise direction around the pivot portion 232 in the drawing.

When the first to fourth frames 230a, 230b, 230c and 230d are rotated, the bypass inflow hole 221 which is closed by the cover part 231 is opened and the bypass inflow hole 221 The wind guided along the first to fourth frames 230a, 230b, 230c, and 230d flows and is discharged to the rear of the floating body 100 through the bypass passage portion 220. [

When the elastic energy of the elastic part 240 supporting the first to fourth frames 230a, 230b, 230c and 230d is set differently, the first to fourth frames 230a, 230b, 230c and 230d For example, the first frame 230a, the second frame 230b, the third frame 230c and the fourth frame 230d sequentially rotate and the bypass inflow hole 221 is rotated It is possible to bypass some or all of the wind flowing through the inflow portion 230 to the bypass passage 220. [

When the wind pressure becomes less than or equal to the elastic energy of the torsion spring set to the elastic portion 240 in the state where all of the first to fourth frames 230a, 230b, 230c, and 230d of the inflow portion 230 or any frames are rotated The first to fourth frames 230a, 230b, 230c, and 230d are restored to their original positions by the restoring force of the torsion spring to hold the funnel-shaped inlet portion 230 and concentrate the wind in the passage portion 210 .

Therefore, it is possible to provide stable wind power by adjusting the wind amount to the passage portion 210 in which the power generation portion 300 is installed according to the strength of the wind.

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

In the course of the description of the embodiments of the present invention, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation, , Which may vary depending on the intentions or customs of the user, the operator, and the definitions of these terms should be based on the contents throughout this specification.

100: floating body 110: wing portion
200: opening / closing device 210:
220: Bypass passage part 221: Bypass inflow hole
230: inlet portion 230a: first frame
230b: second frame 230c: third frame
230d: fourth frame 231:
232: turning part 240: elastic part
300:

Claims (5)

A float portion for accommodating a gas lighter than air in an enclosed space to provide a floating force; a passage portion for passing a wind through the center of the floating body; And a power generation unit that performs power generation using the power generation unit,
A bypass passage portion provided between the float body and the passage portion and guiding the wind guided to the passage portion to be bypassed along an arbitrary path;
A plurality of frames arranged in the form of a funnel at the entrance of the bypass passage portion to guide wind to flow into the passage portion or to bypass the wind guided to the passage portion by the wind to the bypass passage portion; And
An elastic part for supporting the frames of the inflow part so as to maintain the funnel shape at a predetermined position and an elastic part for providing a restoring force to be retracted when the frame of the inflow part is pivoted. The method according to claim 1,
Wherein the frame comprises a frame body formed in a fan shape;
A lid part formed to extend from the one side of the frame body by a predetermined length; And
And a pivoting unit installed at a front end of the lid unit to pivot the frame about the pivot axis so that the frame is pivotally connected to the bypass pivot unit and the pivot shaft. The method according to claim 1,
Wherein the resilient portion provides an elastic force of the same magnitude to an individual frame of the inflow portion. The method according to claim 1,
Wherein the resilient portion provides an elastic force of a different magnitude to the individual frames of the inflow portion so that an arbitrary frame selectively rotates according to the wind pressure. 5. The method according to any one of claims 1 to 4,
Wherein the bypass passage portion has a bypass inflow hole selectively opened or closed depending on whether the inlet port is rotated or not.

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