KR101007230B1 - Photovoltaic system using kite - Google Patents

Abstract

PURPOSE: A photovoltaic system using a kite is provided to enable high efficiency power generation since a solar cell module rises at 2km from the ground. CONSTITUTION: A photovoltaic system using a kite comprises a control device, a solar cell module(300), and a winding unit(400). The control device uses flaps(210,220) controlling the direction and posture of the kite according to the change of the wind of a kite(200). The solar cell module is installed on the rear surface of the kite. The winding unit raises the kite with solar cell module at 1.5-2.5km from the ground. Electricity generated in the solar cell module is transmitted to the ground through wire installed in parallel to the kite wire.

Description

Photovoltaic power generation system using kite {PHOTOVOLTAIC SYSTEM USING KITE}

The present invention is to install the solar cell module on at least one side of the kite and float the kite in the high air by using the wind and adjust the attitude of the kite using the horizontal flap and vertical flap installed in the kite so that the solar cell module receives the maximum sunlight. The present invention relates to a power generation system that maximizes photovoltaic power generation efficiency at high temperatures and low temperatures.

Many countries around the world are working hard to reduce carbon dioxide emissions, the main cause of global warming, which is directly linked to the survival of humankind. To this end, it is necessary to minimize the use of fossil fuels and make the most of natural energy such as wind, solar power and tidal power.

Among these, photovoltaic power generation is a cutting-edge technology that uses electricity without pollution to produce electricity indefinitely. Therefore, it can be installed anywhere where the sun shines, and there is no pollution such as air pollution, noise, or vibration at all. Therefore, solar power generation is rapidly spreading along with wind power generation.

In general, solar light has a low energy density, so a large amount of solar cell modules must be used. Therefore, a large area of installation is required, which may cause a problem of damaging a large forest or a natural environment. In addition, due to the effects of the weather such as clouds and fog on the ground, the solar energy density is low, and the power generation efficiency is low due to the high temperature on the ground.

Therefore, it is necessary to search for a new type of photovoltaic power generation system that can be installed in a limited place, has little weather effect, maintains low temperature, ensures high operation rate and efficiency, and is low in production cost and easy to control.

As one method for solving the above-mentioned conventional problems, an object of the present invention is to raise the solar cell module about 2km above the ground using the lift of the kite, and there is little effect of clouds and fog, and maximizes the use of sunlight during the year at low temperatures. It is to provide an eco-friendly photovoltaic device capable of generating high efficiency at low cost by enabling power generation.

The solar cell apparatus configuration according to the present invention for achieving the above object, the control device using a flap for controlling the direction and attitude of the kite according to the change in the wind direction of the kite, and installed on the rear of the kite thin film film solar A solar cell module using a battery, and a winding device for raising and lowering the kite on which the solar cell module is mounted to a height of 1.5km to 2.5km from the ground, and parallel to the string of electricity produced by the solar cell module It is characterized by the transmission to the ground through the wire installed.

In addition, the control device is composed of a horizontal flap, a vertical flap and a drive motor, characterized in that the flap is rotatable about an axis.

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In addition, the winding device is installed on the rotating seat is characterized in that the rotation is possible to change the direction of the kite according to the change in the wind direction.

As described above, when constructing a photovoltaic power generation system using a kite according to the present invention can increase the power generation efficiency by using a solar energy and a low temperature environment with high energy density in the air of about 2km, except during typhoons or maintenance It is very efficient because it can supply power.

In addition, it is an eco-friendly generator that can be easily installed anywhere due to the very low production and installation costs and required area, which can greatly contribute to fuel reduction and carbon dioxide emission reduction.

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

1 is a view showing a kite-photovoltaic power generation system using a kite according to the present invention, FIG. 2 is a view showing a horizontal flap for adjusting a horizontal posture of a kite according to the present invention, and FIG. 3 is a vertical posture of a kite according to the present invention. It is a figure which shows the vertical flap to adjust.

As shown in Figure 1, looking at the configuration of the soft-solar power generation system 100 of the present invention, it is largely composed of the lead 200, the solar cell module 300 and the winding device 400.

Hereinafter, each configuration of the soft-solar power generation system will be described in detail.

First, the kite 200 will be described in detail as follows. The kite 200 according to the present invention is composed of a panel shape having a substantially rectangular shape, but is made of a flexible material that is light and yet adaptable to wind or the external environment, and is attached to at least one surface of the solar cell module 300 so as to float in the air. Play a role.

In this case, it is preferable that the solar cell module 300 uses a film of a flexible material as an active layer for producing electricity. This makes it possible to easily change the shape without breaking, so that it is possible to configure a photovoltaic power generation system of various shapes such as a dome shape or a wave pattern, and to directly adhere to the structure, thereby making a separate structure unnecessary.

Thus, in the case of using the solar cell module 300 has a merit that the construction is easy because the separate wiring work can be omitted. On the other hand, since the photovoltaic energy generating device using the solar cell module 300 is generally known, a detailed description of the photovoltaic power generation system configuration will be omitted.

In this case, the horizontal flap 210 and the vertical flap 220 is installed to adjust the direction of the kite to receive a lot of sunlight, the flaps (210, 220) are rotated about the axis and the shaft is a flap drive motor Driven by 230.

That is, a control device using flaps 210 and 220 for controlling the direction and posture of the kite 200 according to the wind direction change of the kite 200 having various shapes is configured. The horizontal flap 210 is installed and the vertical flap 220 is installed at the side opposite to the narrow width center of the lead 200.

The kite 200 is adjusted in height so as to be able to move in the range of 1.5km to 2.5km from the ground, in this case it is preferable to float the kite to 2.0 km.

 Next, the winding device 400 according to the present invention will be described. The winding device 400 wraps the kite 410 for raising and lowering the kite 200 and the solar cell module 300 to a predetermined height from the ground, the electric wire 420 for transmission, and the wire for controlling the flap driving motor 430. Used to loosen, in this case it is desirable to have a tensile force that can sufficiently withstand the force acting on the lead (200).

And it is to be installed on the rotation seat so that the winding device 400 can rotate in accordance with the direction of the wind. That is, it is installed on the rotary seat 405 to easily adjust the winding direction of the winding device 400 in order to control the height and position of the kite according to the fluctuation of the wind direction.

On the other hand, the connection line 410 is configured to be parallel to the wire for electric wire 420 connected to the electric power control device 450 on the ground, flap drive motor control wire 430 connected to the flap drive motor control device 440. Doing.

Accordingly, the electricity produced using the solar energy focused on the solar cell module 300 is transmitted to the power control device 450 along the wire 410 and the transmission line 420, the power control device By using 450, as much power as desired is used.

In addition, the flap driving motor controller 440 may adjust the flaps 210 and 220 at an angle with respect to the horizontal and vertical axes of the flaps 210 and 220 at an angle according to weather changes and wind direction fluctuations. It is preferable to connect side by side with the string (410).
In the present invention, the size (area) of the kite 200 is 100m ² , the kite 410 is a climbing rope (xyl) of 3.5 tons of tensile strength, 11mm in diameter, the transmission wire 420 is for 380V It is preferable to use an electric wire (0.0225 kg / 1 m). In this case, the string 410 may be a super fiber of aramid fiber system.

As described above, in the photovoltaic power generation system 100 using the kite 200 according to the present invention, a solar cell module 300 using a thin film solar cell or the like is installed on one side of the kite, and the horizontal flap 210 is provided. By allowing the position of the kite to be controlled by the vertical flap 220 and the driving motor 230, it can be confirmed that power generation using solar light is efficiently performed and power can be transmitted to the ground.
As described above, in the detailed description of the present invention has been described with respect to preferred embodiments of the present invention, those skilled in the art to which the present invention pertains various modifications without departing from the scope of the present invention Of course this is possible. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined by the equivalents as well as the claims to be described later.

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1 is a view showing a soft-solar power generation system according to the present invention
Figure 2 is a view showing a horizontal flap for adjusting the horizontal posture of the kite in accordance with the present invention

3 is a view showing a vertical flap for adjusting the vertical posture of the kite according to the present invention;

*** Description of the main parts of the drawing ***

100: lead-photovoltaic power generation system 200: lead

210: horizontal flap 220: vertical flap

230: flap drive motor 300: solar cell module

400: winding device 410: string

420: transmission wire 430: flap drive motor control wire

   440: flap drive motor control device 450: power regulator

Claims (4)

In the solar power generation system, A control device using a flap for controlling the direction and posture of the kite according to the wind direction change of the kite; A solar cell module installed at the rear of the kite; Includes a winding device for raising and lowering the kite mounted on the solar cell module to a height of 1.5km to 2.5km from the ground; Photovoltaic power generation system using a kite, characterized in that to transmit the electricity produced by the solar cell module to the ground through a wire installed parallel to the lead The method of claim 1, The control device comprises a horizontal flap, a vertical flap and a drive motor, the flap is a photovoltaic power generation system using a kite, characterized in that rotatable around the axis delete The method of claim 1, The winding device is installed on the rotating seat, the solar power generation system using a kite, characterized in that the rotation is possible to change the direction of the kite according to the change in the wind direction.

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