KR101169267B1 - Wind Power Device - Google Patents

Abstract

The present invention relates to a wind power generator capable of producing electric energy using natural wind, and more particularly, a wind power generator that maximizes space utilization to maximize space utilization to produce maximum energy in a limited space. As for

In a typical wind power generator, in which a generator 2 is mounted on an upper side of a post 1, the generator 2 includes a rotary shaft 3 and a rotor 10 for driving the generator 2.

The rotating body 10 is rotatably mounted by coupling the outer rotating wheel 12 to a circular fixed wheel 5 having an end shape of a “┏┓” shape, and the rotating body 10 is disposed outside. It consists of a rotary wheel 12 and the inner rotary wheel 13 and a plurality of blades 14 fixed therebetween, the inside of the outer rotary wheel 12, the diameter smaller than the diameter of the fixed wheel (5) It is provided with an inner rotary wheel 13 having a plurality of blades 14 between the outer rotary wheel 12 and the inner rotary wheel 13, the inner rotary wheel 13 and the generator (2) Fixed to the rotating shaft (3) extending from the connecting frame (15), and between the fixed wheel (5) and the outer rotary wheel 12, the core 17 and the permanent magnet 18 for generating electricity selectively It is fixed, and configured to ensure a smooth rotation through the bearing 16 between the fixing wheel 5 and the outer rotary wheel 13,

The fixed wheel 5 is to provide a wind power generator configured to be fixed to the post (1) by a fixed frame (4), so that it is possible to produce electrical energy at low wind speed.

Fixed wheel, outer wheel, inner wheel, core, blade

Description

Wind Power Device

The present invention relates to a wind power generator capable of producing electric energy using natural wind, and more particularly, a wind power generator that maximizes space utilization to maximize space utilization to produce maximum energy in a limited space. It is about.

In general, various human civilizations have been developed based on the fossil fuel provided by nature.

Starting with the first steam engine, not only machines using natural raw materials such as gasoline engines and gas engines are used, but fossil fuels such as coal and oil are also used as basic fuels. Nuclear energy facilities are used, but such nuclear energy is not easily applied due to safety issues.

In addition, the production means of the electrical energy using the fossil fuel is characterized in that it can be easily collected and used in the natural environment, but due to the pollutants generated when these fossil fuels burn, the earth's atmospheric environment is seriously polluted, Such air pollution is actually causing serious situations such as global warming.

The fossil fuels described above are limited in their reserves. In recent years, various researches are being conducted to replace fossil fuels and produce energy, and some technologies are currently used in reality.

As a means of obtaining energy from nature, various solar power generation means using solar heat, wind power generation means using wind, and tidal power generation means using sea water have been proposed and studied.

Among the means of producing electrical energy using the natural environment described above, various means of producing wind are being studied. In general, a large blade is mounted on a large post, and a generator is mounted on a rotating shaft of the blade. The constructed wind turbine is implemented.

In the case of the wind turbine generator using the blade, the length of one blade is manufactured to a length of 15m, the length of the post is constructed to a height of at least 30m, there is a considerable difficulty in the production, these are mostly sufficient air volume It is installed at the top of a mountain or on the shore, and there are many difficulties to install in a general city center.

There is not enough air volume to produce electric energy in the city, but there are many high-rise buildings, so there is an advantage in that wind energy generators can be installed to partially cover electric energy in each building.

Therefore, there is an urgent need for a method of partially utilizing electric energy by installing a wind power generator within a limit that does not affect a building.

An object of the present invention is to provide a wind power generator that can be easily installed in high-rise apartments, high-rise buildings and the like to produce electrical energy.

Another object of the present invention is to provide a blade that can produce a greater amount of electrical energy by making the most of the blowing wind.

The present invention for solving the above object, a plurality of blades arranged in a columnar circumferentially fixed to the frame so as to increase the rotational force to receive as much of the wind, the wind turbine generator comprising a rotating shaft and a generator mounted on the frame It is to provide a solution.

The wind turbine generator of the present invention having the above-described configuration can be manufactured in a relatively small size, provides the characteristics of maximizing efficiency by utilizing the blowing wind to the maximum, and is produced at a relatively low cost in high-rise cities There is a feature that can be installed in the building.

The wind turbine generator of the present invention having such features will be described in more detail as an embodiment through the accompanying drawings.

Example 1

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a partially cutaway perspective view showing a main part configuration of the present invention, and Fig. 2 is a sectional view of an installation state of the present invention.

In a typical wind power generator, in which a generator 2 is mounted on an upper side of a post 1, the generator 2 includes a rotary shaft 3 and a rotor 10 for driving the generator 2.

The rotating body 10 is rotatably mounted by coupling the outer rotating wheel 12 to the circular fixed wheel 5 of the end shape is "┏┓" type,

The rotating body 10 is composed of an outer rotary wheel 12 and the inner rotary wheel 13 and a plurality of blades 14 fixed therebetween,

Inside the outer rotary wheel 12, the inner rotary wheel 13 having a diameter smaller than the diameter of the fixed wheel 5,

Between the outer rotary wheel 12 and the inner rotary wheel 13 is mounted a plurality of blades 14,

Fixing the rotating shaft (3) extending from the inner rotary wheel (13) and the generator (2) with a connecting frame (15),

Selectively fixing the core 17 and the permanent magnet 18 to generate electricity between the fixed wheel 5 and the outer rotary wheel 12, respectively, between the fixed wheel 5 and the outer rotary wheel 13 It is configured to ensure a smooth rotation through the bearing 16 in the,

The fixed wheel 5 is to provide a wind power generator configured to be fixed to the post (1) by a fixed frame (4).

The wind turbine generator of the present invention configured as described above produces electric energy by the rotation of the rotating body 10 rotatably mounted between the fixed wheels 5 having an end shape of “┏┓” type.

Wind collides with the blade 14 provided between the outer rotary wheel 12 and the inner rotary wheel 13 to rotate the rotor 10 inside the fixed wheel 5.

When the rotor 10 rotates, electric energy is generated by the core 17 and the permanent magnet 18 mounted between the fixed wheel 5 and the outer rotary wheel 12.

The electrical energy produced by the rotation of the fixed wheel 5 and the rotor 10 is supplied to and stored in a battery not shown.

In addition, the rotor 10 is fixed to the rotary shaft 3 of the generator 2 by the connecting frame 15, the electrical energy is produced by the rotor 10 rotated by the wind secondary will be.

In this way, the electric core 17, the permanent magnet 18, the drive of the generator 2 by the rotary shaft 3 is to produce electrical energy over a secondary.

[Example 2]

As another embodiment using the present invention, the wind power generator shown in FIG. 3 may be proposed.

As shown in FIG. 3, the power generating device consisting of the fixed wheel 5 and the rotating body 10 is superimposed in two stages and fixed by a fixing frame 4a.

And a second power generator including a second fixed wheel 5a fixed to the fixed wheel 5, and a second rotating body 10a rotatably mounted inside the second fixed wheel 5a. ,

The diameter of the second fixed wheel (5a) is configured to have a diameter equal to or smaller than the inner rotation wheel 13 of the rotating body 10, the second by using wind power passing through the inner rotation wheel (13) Rotating the rotating body 10a.

In addition, the second rotating body 10a is fixed to the rotating shaft 3 extending from the generator 2 to simultaneously rotate the rotating body 10 and the rotating force of the second rotating body 10a to the generator 2. To produce more powerful electrical energy.

Of course, the core 17a and the permanent magnet 18a are mounted at a small interval between the second fixed wheel 5a and the second rotating body 10a.

[Example 3]

As another embodiment of the present invention, a wind turbine shown in FIG. 4 is proposed.

The first fixing wheel 21 having a cross-sectional shape fixed by the fixing frame 4 on the upper side of the post 1 in the shape of "┏┓", and having a diameter smaller than the diameter of the first fixing wheel 21. The first inner fixing wheel 22 is fixed to the fixing piece 25, and the outer rotating wheel 31 and the inner rotating wheel 32 are disposed between the first fixing wheel 21 and the first inner fixing wheel 22. And freely rotatable mounting of the first rotating body 30 including the blades 33 fixed therebetween, and the first rotating body 30 and the first fixing wheel 21 and the first inner fixing wheel ( A first power generation device 20 configured by mounting a core 23 and a permanent magnet 24 between the two; Wow,

A second power generator having the same configuration as that of the first power generator 20 in the rear portion of the first fixed wheel 21, the diameter is smaller than or equal to the first inner fixed wheel 22 ( 40); Fixed by connecting to the connecting frame (35),

The generator 2 is fixed to the rear of the second power generator 40 by the installation frame 41,

It is to provide a wind power generator configured by mounting the impeller 44 for power generation on the rotating shaft (3) for driving the generator (2).

Reference numeral 26 is a bearing for smooth rotation and support of the first rotating body (30).

The wind power generator according to the embodiment of the present invention having the above-described structure includes a first rotating body 30, a permanent magnet 24, and a core 23 that are rotated by wind power through the first power generator 20. To produce electrical energy, and secondly to produce electrical energy by the second power generator 40 fixed to the rear of the first power generator 20,

By the generator 2 fixed to the installation frame 41 of the second wind power generator 40 and the rotary shaft 3 and the impeller 44 for power generation it is possible to produce electrical energy in the third.

The wind turbine generator of the present invention having such a complex structure can be used as a generator for generating auxiliary power by installing on the roof of a high-rise building.

In the present embodiment, the impeller 44 for power generation located at the center portion of the first inner fixing wheel 22 of the first power generator 20 has a cylindrical rotor 51 shown in FIG. 5. 3 generator 50 may be applied alternatively.

The third power generation device 50 is a permanent magnet for power generation is attached to the bottom surface of the cylindrical rotating body 51, it is configured to arrange the core in the circumference spaced apart a predetermined interval at the lower end thereof, The cylindrical rotating body 51 is attached to the first inner fixed wheel 22 by the fixed shaft 52 so as to be freely rotatable.

In the present invention, Figure 6 is a connecting frame for fixing the rotary shaft (3) of the generator (2) to the inner rotary wheel (13) of the rotating body (10) constituting the first embodiment is a rotor blade (15a) It is a figure which shows the state used by replacing.

When the connection frame is used to replace the rotor blade (15a), to increase the rotational force of the rotary body 10 and at the same time to provide an additional effect of increasing the rotational efficiency of the rotary shaft (3).

1 is a partial cutaway perspective view showing the configuration of the main part of the present invention

Figure 2 is a cross-sectional view showing the overall configuration of the present invention

3 is an overall cross-sectional view showing a second embodiment of the present invention.

4 is a cross-sectional view according to another embodiment 3 of the present invention;

5 is a sectional view showing a modification of Example 3;

6 is a perspective view showing an embodiment of a state in which the rotating shaft is fixed to the rotating body;

[Description of Drawings]

One; Post 2; generator

3; Axis of rotation 4; Fixed frame

5; Fixed wheels 10, 10a; Rotating body

12, 31; Outer rotary wheels 13 and 32; Inner wheel

14, 33; Blade 15; Connecting frame

17, 23; Core 18, 24; Permanent magnet

20; First generator 21; 1st fixed wheel

22; First inner ring 26; bearing

30; First rotating body 40; Second generator

Claims (3)

In a typical wind power generator, in which a generator 2 is mounted on an upper side of a post 1, the generator 2 includes a rotary shaft 3 and a rotor 10 for driving the generator 2. The rotating body 10 is rotatably mounted by coupling the outer rotating wheel 12 to the circular fixed wheel 5 of the end shape is "┏┓" type, The rotating body 10 is composed of an outer rotary wheel 12 and the inner rotary wheel 13 and a plurality of blades 14 fixed therebetween, Inside the outer rotary wheel 12, the inner rotary wheel 13 having a diameter smaller than the diameter of the fixed wheel 5, Between the outer rotary wheel 12 and the inner rotary wheel 13 is mounted a plurality of blades 14, Fixing the rotating shaft (3) extending from the inner rotary wheel (13) and the generator (2) with a connecting frame (15), Selectively fixing the core 17 and the permanent magnet 18 to generate electricity between the fixed wheel 5 and the outer rotary wheel 12, respectively, between the fixed wheel 5 and the outer rotary wheel 13 Is configured to ensure a smooth rotation through the bearing (16) in, The fixing wheel 5 is configured to be fixed to the post (1) by a fixed frame 4, The power generating device consisting of the fixed wheel 5 and the rotating body 10 is superimposed in two stages and fixed by a fixed frame 4a, A second fixed wheel 5a fixed to the fixed wheel 5 and a second rotating body 10a rotatably mounted inside the second fixed wheel 5a, The diameter of the second fixed wheel (5a) is configured to have a diameter equal to or smaller than the inner rotary wheel 13 of the rotating body 10, the second by using wind power passing through the inner rotary wheel (13) To rotate the rotor (10a), The second rotating body (10a) is a wind power generator, characterized in that configured to be fixed to the rotating shaft (3) extending from the generator (2). delete The first fixing wheel 21 having a cross-sectional shape fixed by the fixing frame 4 on the upper side of the post 1 in the shape of "┏┓", and having a diameter smaller than the diameter of the first fixing wheel 21. The first inner fixing wheel 22 is fixed to the fixing piece 25, and the outer rotating wheel 31 and the inner rotating wheel 32 are disposed between the first fixing wheel 21 and the first inner fixing wheel 22. And freely rotatable mounting the first rotating body 30 composed of a blade 33 fixed between them, A first power generator 20 configured to mount a core 23 and a permanent magnet 24 between the first rotatable body 30, the first fixed wheel 21, and the first inner fixed wheel 22; Wow, A second power generator having the same configuration as that of the first power generator 20 in the rear portion of the first fixed wheel 21, but the diameter is smaller than or equal to the first inner fixed wheel 22 ( 40); Fixed by connecting to the connecting frame (35), Wind power generator, characterized in that the generator 2 is fixed to the rear frame of the second generator 40 by the installation frame 41

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