KR101037863B1 - wind electric power generator having solar cell panel - Google Patents

Abstract

The present invention relates to a wind power generator having a solar panel having a new structure capable of generating power even when the wind is not blowing.

The wind turbine with a solar panel according to the present invention is provided with a solar panel 40 on the circumferential surface of the wide wind tower (A), it is possible to generate power at the same time using the generator (C) and the solar panel 40 Not only can it improve the power generation efficiency, there is an advantage that can continue to generate power using the solar panel 40 when the wind does not blow.

Wind, power, solar,

Description

Wind generator with solar panel {wind electric power generator having solar cell panel}

The present invention relates to a wind power generator having a solar panel having a new structure capable of generating power even when the wind is not blowing.

In general, a wind turbine generating power using wind is installed on the rotating shaft of the generator, it is configured to generate power by using the rotational force generated as the windmill is rotated by the wind.

However, since the windmill is rotated to generate power only when wind of relatively high wind speed blows, it is inappropriate to install a wind power generator except in a windy area, and the efficiency of converting wind energy into electricity There was a very low issue.

On the other hand, in order to solve this problem, the present applicant has filed a patent for a wind turbine generator of a new structure that can generate power even when the wind speed is low by concentrating the wind using the house wind tower. (Patent Publication No. 10 -2009-0021305)

1 and 2, the wind blowing tower (A) is disposed in the vertical direction long in the base 12, the wind tunnel 10 is formed with a plurality of through-holes 11 through which the wind flows; Guide portion 20 provided on the outer circumferential surface of the wind tunnel (10). In this case, the wind tunnel 10 is connected to the turbine (B) rotated by the wind, the guide portion 20 is a plurality of vertical guide panel 21 disposed in the radial direction on the circumference of the wind tunnel 10 And a plurality of horizontal guide panels 22 disposed to be spaced apart from each other in the vertical direction at the periphery of the wind tunnel 10 to form an induction passage 23 for guiding wind to the through hole 11.

Therefore, the wind blowing in the circumference of the wind tunnel 10 is guided to the guide passage 23 of the guide portion 20 is introduced into the wind tunnel 10 through the through hole 11 to the turbine (B). It is supplied and configured to rotate the turbine B and the generator C connected to the turbine B to generate electricity.

Since the wind power is increased because the wind is concentrated in the wind tunnel 10, the wind power generator can be continuously generated even when the wind speed is relatively low, so there are few restrictions on the installation position of the wind power generator. There is an advantage to increase.

However, since the wind turbine also uses the wind, there is no difference from the conventional wind turbine, and thus there is a limit in that power generation cannot be achieved when the wind is not blown. In addition, such a wind turbine is equipped with various control devices, sensing devices, and lighting devices for efficient management, maintenance, and repair, and a battery for supplying power to such equipment. When the power generation is stopped for a long time, the battery is discharged. In addition, there is a problem in that the operation of the above-described equipment is stopped and management, maintenance, and repair of the wind turbine are difficult.

The present invention is to solve the above problems, an object of the present invention is to provide a wind power generator with a solar panel of a new structure that can continue to generate power even if the wind does not blow.

The present invention for achieving the above object, the wind blowing tower (A) to collect and discharge the wind; A turbine (B) connected to the wind collecting tower (A) and rotated by wind discharged from the wind collecting tower (A); It is composed of a generator (C) connected to the turbine (B),

The wind-up tower (A) and the wind tunnel 10 is formed with a plurality of through-holes 11 through which wind is introduced into the circumferential surface; In the wind power generator including a guide portion 20 provided on the periphery of the wind tunnel 10 to form a plurality of induction passages 23 for inducing wind to the through hole 11,

On the outer circumferential surface of the wind tower (A) is provided an air damper (30) for opening and closing the induction passage (23), the outer surface of the air damper (30) is characterized in that the solar panel 40 is provided There is provided a wind power generator having a solar panel.

According to another feature of the invention, the air damper 30 is provided with a wind power generator having a solar panel, characterized in that the cylinder mechanism 50 for limiting the rotation angle and rotation speed of the air damper 30 is connected. .

The wind turbine with a solar panel according to the present invention is provided with a solar panel 40 on the circumferential surface of the wide wind tower (A), it is possible to generate power at the same time using the generator (C) and the solar panel 40 Not only can it improve the power generation efficiency, there is an advantage that can continue to generate power using the solar panel 40 when the wind does not blow.

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

3 to 5, the wind power generator according to the present invention, a wind collecting tower (A) for collecting and discharging the wind; A turbine (B) connected to the wind collecting tower (A) and rotated by wind discharged from the wind collecting tower (A); The generator C connected to the turbine B is the same as in the related art.

At this time, the wind-up tower (A) is installed on the base 12 long vertically and the wind tunnel 10 is formed with a plurality of through-holes 11 through the circumferential surface; A plurality of vertical guide panel 21 disposed in the radial direction on the periphery of the wind tunnel 10 and a plurality of horizontal guide panel 22 disposed to be spaced apart from each other in the vertical direction on the periphery of the wind tunnel 10 Consisting of the guide portion 20 to form a guide passage 23 for guiding the wind to the through hole 11, the wind through the guide passage 23 and the through hole 11 of the wind tunnel 10 After flowing into the wind tunnel 10 moves along the turbine (B) to generate power.

In addition, according to the present invention, an air damper 30 for opening and closing the induction passage 23 is provided on the outer circumferential surface of the wind collecting tower A, and the solar panel 40 is provided on the outer surface of the air damper 30. It is provided.

To this end, the outer periphery of the wind-up tower (A) is provided with a support frame 60 is formed in a lattice shape formed of a plurality of openings 61 smaller than the size of the guide passage 23, the wind is Passing through the opening 61 is configured to flow into the guide passage (23).

The air damper 30 has a rectangular plate shape corresponding to the size of the opening 61 of the support frame 60, and the upper end of the air damper 30 blocks the openings 61 of the support frame 60. Hinge coupled to the rear side of the frame 60, when the wind blows, the lower end pivots to the rear side around the top to open the opening 61 so that the wind passes through the opening 61 along the guide passage 23 through the wind tunnel 10. When the wind flows into the through-hole 11 of), and the wind flowing into the guide passage 23 flows backward, the wind flows forward to block the opening 61 so that the wind flows into the guide passage 23. It prevents backflow to the outside. At this time, the rear of the air damper 30 is provided with a bracket 31, the bracket 31 is connected to the cylinder mechanism 50 for limiting the rotation angle and the rotation speed of the air damper (30).

The solar panel 40 is configured in a thin plate or sheet shape and generates a current when solar light is irradiated, and is fixed to an outer surface of each air damper 30 to be rotated together with the air damper 30. Since the solar panel 40 is generally called a solar cell and is configured in various forms such as a panel shape or a sheet shape, the solar panel 40 is generally used for photovoltaic power generation, and thus a detailed description thereof will be omitted.

The wind turbine with a solar panel configured as described above is provided with a plurality of air dampers 30 on the outer circumferential surface of the wind collecting tower (A), the solar panel 40 is provided on the outer surface of the air damper 30, Since it is possible to generate power at the same time using the generator (C) and the solar panel 40, there is an advantage to improve the power generation efficiency by utilizing the circumferential surface of the wide wind tower (A).

In addition, even if the wind is not blown by the generator (C), even if the power generation is not made by the solar panel 40 during the day time, in particular, the wind to operate the generator (C) is slightly cloudy or rather than a clear day Since there is a tendency to blow strongly at night, the generator (C) and the solar panel 40 is complementary to act, there is an advantage that can ensure the continuity of power generation.

In addition, by supplying power to the control device, the sensing device and the lighting device of the wind power generator using the power output from the solar panel 40, the various devices of the wind power generator are prevented from being stopped due to the long-term wind power generation. As a result, there is an advantage in that the management, maintenance, and repair of the wind power generator can be performed smoothly.

And, the rear of the air damper 30 is connected to the cylinder mechanism 50 for limiting the rotation angle and the rotation speed of the air damper 30, the air damper 30 is rotated back and forth by the wind while the induction passage ( 23 by adjusting the speed at which the air damper 30 is rotated when opening and closing the air damper 30, the air damper 30 is rotated at a high speed so that an impact is generated and the solar panel 40 provided in the air damper 30 is damaged. There is an advantage that can be prevented.

1 is a side configuration diagram showing a conventional wind power generator,

Figure 2 is a planar cross-sectional view showing a conventional wind power generator,

Figure 3 is a side view showing a wind power generator according to the invention,

Figure 4 is a side sectional view showing a wind power generator according to the invention,

Figure 5 is an enlarged side cross-sectional view showing the main portion of the damper of the wind power generator according to the present invention.

Claims (2)

A house wind tower (A) for collecting and discharging wind; A turbine (B) connected to the wind collecting tower (A) and rotated by wind discharged from the wind collecting tower (A); It is composed of a generator (C) connected to the turbine (B), The wind-up tower (A) and the wind tunnel 10 is formed with a plurality of through-holes 11 through which wind is introduced into the circumferential surface; In the wind power generator including a guide portion 20 provided on the periphery of the wind tunnel 10 to form a plurality of induction passages 23 for inducing wind to the through hole 11, The outer periphery of the wind tower (A) is provided with an air damper (30) for opening and closing the induction passage (23), the outer surface of the air damper (30) is characterized in that the solar panel 40 is provided Wind generator with solar panel. The wind generator according to claim 1, wherein the air damper (30) is connected to a cylinder mechanism (50) for limiting a rotation angle and a rotation speed of the air damper (30).

Images