KR102198991B1 - Power generator using wind power - Google Patents

Abstract

The present invention relates to a power generator using wind power. More specifically, the present invention relates to a power generator using wind power, which forms a tunnel wind tank, into which wind is introduced, in a funnel shape with a broad entrance and a narrow exit, introduces surrounding wind toward the entrance with a large cross-section, intensifies the wind, forms a plurality of sail blades having an inflow unit inside, and enables the generation of power with high efficiency. According to a desirable embodiment of the present invention, the power generator using wind power comprises: a tunnel wind tank in a tank shape with a broad cross-section of entrance, a narrow cross-section of exit, an empty inside, and a certain length; a supporter which supports a lower side of the tunnel wind tank configured on a lower side of the exit side of the tunnel wind tank; a power generation member which includes a plurality of rotary rollers, a chain member configured on an outer side of the rotary rollers to rotate at the same time as the rotary rollers, and sail blades configured on the outer surface of the chain member at regular distances in a hook shape to have an inflow unit on the inner side surface, wherein the inflow unit is formed in the tunnel wind tank to face the entrance side of the tunnel wind tank, and which generates power by rotating the rotary rollers by the power of the wind introduced into the entrance of the tunnel wind tank; and a control unit electrically connected to the power generation member, and accumulating the electricity generated by the power generation member and controlling the electricity by being formed on one side of the tunnel wind tank.

Description

Power generator using wind power{POWER GENERATOR USING WIND POWER}

The present invention relates to a power generation device using wind power, and more specifically, a tunnel windpipe through which wind is introduced is formed in a funnel shape with a wide entrance and a narrow exit, so that the surrounding wind is guided to the entrance with a large cross section and concentrated, It relates to a power generation device using wind power that enables efficient power generation by forming a plurality of mats having a concave inlet.

Some wind turbines currently in use must be at least 5-6m/sec in order to generate power due to the structure of the propeller, and the wind turbine direction must be manually adjusted according to the direction of the wind. A satisfactory power generation effect could not be expected in this relatively weak and frequently changing wind direction.

As a background technology of the present invention, there is Patent Registration No. 1085471 "Wind Power Generator" (Patent Document 1). In the background technology,'two or more wind inlet passages 10, a guide passage 20 for guiding the wind introduced through the wind inlet passages, and a plurality of rotating bodies 30 installed in the wind inlet passages and the guide passages. ), and a rotating shaft 31 supporting a plurality of rotating bodies, a plurality of alternators 40 integral with the rotating shaft, and radially installed on the outer surface of the alternator. It is fixed to the inner wall of the wind turbine, characterized in that consisting of a support rod 41 for fixing the alternator proposes'.

However, the background technology has a problem in that it is difficult to induce and concentrate the wind in a terrain where the wind is relatively weak and the wind direction changes frequently as in Korea, so that the power generation efficiency is deteriorated.

Patent Registration No. 1085471 "Wind Power Generator"

The present invention is to solve the above problems, by forming a tunnel windpipe into which the wind flows in a funnel shape with a wide entrance and a narrow exit, thereby inducing and condensing the surrounding wind to the entrance with a large cross section, and having a concave inlet therein. An object thereof is to provide a power generation device using wind power that enables efficient power generation by forming a plurality of mats.

The present invention
A tunnel windpipe 10 made of a cylindrical shape of a predetermined length in which the inlet 11 has a wide cross section and the outlet 12 has a narrow cross section;
A support 30 for supporting a lower portion of the tunnel windpipe 10 configured at a lower portion of the tunnel windpipe 10 on the outlet 12 side;
A plurality of rotary rollers 41 and a chain member 42 configured on the outer surface of the rotary roller 41 and rotating at the same time as the rotary roller 41, and the outer surface of the chain member 42 at regular intervals Consisting of a shape consisting of a mat 43 with a concave inlet portion 431 formed on the inner surface, the concave inlet portion 431 in the interior of the tunnel windpipe 10 is located at the inlet 11 side of the tunnel windpipe 10 A power generation member 40 configured to face and rotate the rotary roller 41 to generate electricity by using the wind force of the wind introduced through the inlet 11 of the tunnel windpipe 10;
Containing a control unit 20 formed on one side of the tunnel windpipe 10 to be electrically connected to the power generation member 40 to store and control the electricity generated by the power generation member 40,
A separate wind control member 50 is configured at the outlet 12 of the tunnel windpipe 10 to allow opening and closing of the outlet 12,
A moving roller 31 is configured at the lower portion of the support 30
The tunnel windpipe 10, the inlet 11, the outlet 12, the support 30, the rotary roller 41, the chain member 42, the concave inlet 431, the donning blade 43, In the power generation device using wind power formed of the power generation member 40, the control unit 20, the wind control member 50, and the moving roller 31,
The power generation member 40 is intended to provide a power generation device using wind power, characterized in that a separate protective barrel 60 is configured to surround the side and the lower portion of the power generation member 40.

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The power generation device using wind power of the present invention has a tunnel windpipe through which wind is introduced into a funnel shape with a wide inlet and a narrow outlet, so that the surrounding wind is guided to the inlet with a large cross section and concentrated, and a plurality of ball blades having a concave inlet inside There is a very useful effect that enables efficient power generation by forming.

The following drawings attached to the present specification illustrate preferred embodiments of the present invention, and serve to further understand the technical idea of the present invention together with the detailed description of the present invention, so the present invention is limited to the matters described in the accompanying drawings. It is limited and should not be interpreted.
1 is a perspective view of a power generation device using wind power of the present invention.
2 is a cross-sectional view of FIG. 1.
3 is a side view of the power generating member of the present invention.
4 is an enlarged view of the donning blade of the present invention.

In the following, the present invention will be described in detail with reference to the embodiments shown in the accompanying drawings, but the disclosed embodiments are illustrative for a clear understanding of the present invention, and the present invention is not limited thereto.

Hereinafter, the technical configuration of the present invention will be described in detail according to a preferred embodiment.

1 is a perspective view of a power generation apparatus using wind power of the present invention, FIG. 2 is a cross-sectional view of FIG. 1, FIG. 3 is a side view of the power generation member of the present invention, and FIG. 4 is an enlarged view of the donning blade of the present invention.

The present invention comprises a tunnel windpipe 10 made of a cylindrical shape of a predetermined length in which the inlet 11 has a wide cross section and the outlet 12 has a narrow cross section; A support 30 for supporting a lower portion of the tunnel windpipe 10 configured at a lower portion of the tunnel windpipe 10 on the outlet 12 side; A plurality of rotary rollers 41, a chain member 42 that is configured on the outside of the rotary roller 41 and rotates simultaneously with the rotary roller 41, and the outer surface of the chain member 42 at regular intervals Consisting of a shape consisting of a mat 43 with a concave inlet portion 431 formed on the inner surface, the concave inlet portion 431 in the interior of the tunnel windpipe 10 is located at the inlet 11 side of the tunnel windpipe 10 A power generation member 40 configured to face and rotate the rotary roller 41 to generate electricity by using the wind force of the wind introduced through the inlet 11 of the tunnel windpipe 10; It comprises a; a control unit 20 formed on one side of the tunnel windpipe 10 to be electrically connected to the power generation member 40 to store and control the electricity generated by the power generation member 40.

The tunnel windpipe 10 is formed in a cylindrical shape of a certain length so as to consist of an inlet 11 through which wind flows in and an outlet 12 through which wind is discharged, and may have various shapes such as a square, an oval, and a circle. .

In particular, the tunnel windpipe 10 is formed in a narrow funnel shape in which the cross-section of the inlet 11 is wide and the cross-section of the outlet 12 is narrow, so that the surrounding wind is guided to the inlet 11 with a large cross-section, concentrated, and developed. By allowing the member 40 to easily generate electricity and then discharge it back to the outlet 12, weak winds are formed into strong winds, and the generated strong winds lead to power generation. In particular, when a little heat is applied at the inlet 11 of the tunnel windpipe 10, the wind may become stronger due to temperature change and may be introduced.

At this time, a separate wind control member 50 is configured to allow opening and closing of the outlet 12 at the outlet 12 of the tunnel windpipe 10, so that the inflowing wind can be controlled, and the wind control member 50 ) Consists of a variety of known shapes such as a cover shape that can be opened and closed so that part or all of the outlet 12 can be opened and closed to control the wind.

The support 30 is formed to support the lower portion of the tunnel windpipe 10 configured at the lower side of the exit 12 side of the tunnel windpipe 10 as described above.

The supporter 30 supports the lower portion of the exit 12 side and supports the lower portion of the exit 12 side because the cross section on the inlet 11 side of the tunnel windpipe 10 is large, and a variety of frame shapes, bridge shapes, etc. It can be made in shape.

In particular, the moving roller 31 is configured under the support 30, so that the tunnel windpipe 10 can be moved and rotated left and right.

In addition, there is a control unit 20 is formed in the lower portion of one side of the tunnel windpipe 10 to be electrically connected to the power generation member 40 to store and control the electricity generated by the power generation member 40, the control unit 20 Is formed in the lower portion of the inlet 11 side and may serve as a supporter together with the supporter 30.

In the present invention, by configuring a separate power generating member 40 inside the tunnel windpipe 10, it is possible to generate power to the power generating member 40 by using the wind flowing into the tunnel windpipe 10. have.

The power generation member 40 in the present invention includes a plurality of rotary rollers 41 and a chain member 42 configured on the outside of the rotary roller 41 and rotating at the same time as the rotary roller 41, as shown. The chain member 42 is rotated by the wind flowing into the tunnel windpipe 10, and again engaged with the chain member 42 so that the rotating roller 41 rotates to generate electricity. The outer surface of (42) is configured at regular intervals, and a mat 43 is formed in a hook shape.

That is, as shown, the mat is made of a hook shape in which a concave inlet 431 is formed on one side in the same manner as the principle that a general sailing ship in the sea receives wind power, and the material is metal, synthetic resin, It may be made of various known materials such as rubber.

Such a mat 43 is configured such that the concave inlet portion 431 in the interior of the tunnel windpipe 10 faces the inlet 11 side of the tunnel windpipe 10, and the entrance 11 of the tunnel windpipe 10 ), the wind introduced into the concave inlet 431 hits the concave inlet 431 and rotates the chain member 42 to which the mat blade 43 is fixed, and then rotates the rotary roller 41 engaged with the chain member 42 again to generate electricity. It is to be able to generate.

As shown, four rotation rollers 41 may be formed on the front and rear sides of two, respectively, and may be formed more or less.

One such power generation member 40 may be configured in the interior of the tunnel winder 10, and a plurality of power generation members 40 may be configured to generate power at the same time.

In particular, the power generation member 40 has a separate protective barrel 60 configured to surround the side and the lower portion of the power generation member 40, so that the upper portion of the chain member 42 is continuously exposed to the outside so that power generation by wind While it is manufactured in a box shape or the like surrounding the side and bottom of the power generating member 40, it can be made to protect the power generating member 40.

The power generation device using the wind power of the present invention as described above, the tunnel windpipe into which the wind flows in is formed in a funnel shape with a wide inlet and a narrow outlet, so that the surrounding wind is guided to the inlet with a large cross section and concentrated, It has a very useful effect to enable efficient power generation by forming a mat blade.

Until now, the present invention has been described in detail with reference to the presented embodiments, but those of ordinary skill in the art can make various modifications and modifications without departing from the technical spirit of the present invention with reference to the presented embodiments. will be. The present invention is not limited by such modifications and variations of the invention, but is limited by the claims appended below.

10: tunnel windpipe
11: entrance
12: exit
20: control unit
30: support
31: moving roller
40: power generation member
41: rotary roller
42: chain member
43: mat
431: concave part
50: wind control member

Claims (4)

A tunnel windpipe 10 made of a cylindrical shape of a predetermined length in which the inlet 11 has a wide cross section and the outlet 12 has a narrow cross section;
A support 30 for supporting a lower portion of the tunnel windpipe 10 configured at a lower portion of the tunnel windpipe 10 on the outlet 12 side;
A plurality of rotary rollers 41 and a chain member 42 configured on the outer surface of the rotary roller 41 and rotating at the same time as the rotary roller 41, and the outer surface of the chain member 42 at regular intervals Consisting of a shape consisting of a mat 43 with a concave inlet portion 431 formed on the inner surface, the concave inlet portion 431 in the interior of the tunnel windpipe 10 is located at the inlet 11 side of the tunnel windpipe 10 A power generation member 40 configured to face and rotate the rotary roller 41 to generate electricity by using the wind force of the wind introduced through the inlet 11 of the tunnel windpipe 10;
Containing a control unit 20 formed on one side of the tunnel windpipe 10 to be electrically connected to the power generation member 40 to store and control the electricity generated by the power generation member 40,
A separate wind control member 50 is configured at the outlet 12 of the tunnel windpipe 10 to allow opening and closing of the outlet 12,
A moving roller 31 is configured at the lower part of the support 30
The tunnel windpipe 10, the inlet 11, the outlet 12, the support 30, the rotary roller 41, the chain member 42, the concave inlet 431, the donning blade 43, In the power generation device using wind power formed of the power generation member 40, the control unit 20, the wind control member 50, and the moving roller 31,
The power generation member 40 is a power generation device using wind power, characterized in that a separate protective tube 60 is configured to surround the side and the lower portion of the power generation member 40. delete delete delete

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