KR20140097946A - Device to chace the sun light - Google Patents

Abstract

The present invention relates to a device for tracking sunlight, and more particularly, to a device for tracking sunlight, capable of more efficiently tracking the sunlight according to the height of the sun, thereby maximizing the efficiency of solar light power generation. The device for tracking sunlight comprises: a sunlight panel for absorbing sunlight and converting the absorbed sunlight to electricity; an inclined platform disposed on a lower end of the sunlight panel to support the sunlight panel; a large pole for supporting the inclined platform, wherein the large pole is disposed at a position long from a ground of the inclined platform such that the sunlight panel is inclined; a small pole disposed at a position short from the ground of the sunlight panel; a connection pole for connecting the large pole and the small pole; a rotating pin fixed to the inclined platform and inserted into holes formed in the large pole and the small pole; a first fixing plate and a second fixing plate fixed to a rear surface of the sunlight panel and disposed on both sides of the large pole and the small pole; an adjustment rail fixed to the first fixing plate, wherein the adjustment rail passes through a first rail disposed at a connection pole, passes through a second rail, a third rail, and a fourth rail, and is fixed to the second fixing plate; and a motor for rotating the first rail or the second rail.

Description

{DEVICE TO CHACE THE SUN LIGHT}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a solar tracking device, and more particularly, to a solar tracking device for maximizing the solar power generation efficiency of a solar panel by tracking the sun more effectively in accordance with a change in sun altitude.

Human beings are using the natural resources through the continuous evolution and using the natural resources from the nature in various forms, such as food, shelter, and various kinds of energy, which are essential for mankind to survive due to the prosperity of numerous people.

At present, the energy used by human beings is produced by separating into fossil fuels that are obtained from fossil fuels and environment-friendly energy that can be obtained stably without destroying the environment.

Here, the most basic condition that energy must be equipped with is firstly to be found in the mobility of energy, and it must be able to transfer energy easily and efficiently from the energy producing place to the user's use place.

In addition, energy should be able to be converted and used in various forms if it is examined in utilization. In the case of fossil fuels, mobility is good and it can be converted into various forms in utilization.

In addition, electricity can not be found in the mobility of fossil fuels, but its use is not inferior to that of fossil fuels.

In other words, electricity is one of the most used forms of energy in the world because it has the advantage of converting the form of energy into all forms.

Hydroelectric power, nuclear power, thermal power, geothermal power, tidal power, wind power, solar power generation, etc. are widely used for producing such electricity.

In addition, considering the environmental friendliness, fossil fuels used in automobiles, heating, and factories emit environmental pollutants, which is also applied to the production of electricity using fossil fuels. Electricity is also a cause of carbon emissions.

In order to solve this problem, the currently tried method is development of environment friendly energy.

For example, hydroelectric power, geothermal power, tidal power, wind power, and photovoltaic power generation have the advantage of producing electricity without discharging carbon, but it is a research field that requires continuous research and development.

According to the present invention, in this situation, the solar power panel rotates the panel according to the position of the sun so that the contact angle of the sun and the panel can be maintained to be vertically maintained, thereby maximizing the power generation efficiency of the solar panel, And to maximize the power production effect while minimizing the additional cost in the power generation.

It is an object of the present invention to maximize the power generation efficiency of a solar panel by allowing the solar panel to track the sun.

A solar panel for absorbing solar light and converting it into electricity so as to achieve tracking of light according to the movement of the sun; An inclined stage installed at a lower end of the solar panel to support the solar panel; A large pole installed at a long distance from the ground of the inclined solar panel so as to support the inclined plane, so that the solar panel can be inclined; A sole installed at a position which is small in distance from the ground of the solar panel; A connecting pole connecting the large pole and the small pole; A rotation pin fixedly installed on the inclined stage and provided with a hole in the bipole and the sole, the hole being fitted in the rotation pin; A first fixing plate and a second fixing plate fixed to the rear surface of the solar panel, the first fixing plate and the second fixing plate being installed on both sides of the large pole and the small pole; An adjustment rail fixed to the first fixing plate and passing through a first rail provided on the connection pole, passing through the second rail, the third rail and the fourth rail, and fixed to the second fixing plate; And a motor for rotating the first rail or the second rail.

Further, a pole base is further added to the bottom of the large pole and the bottom of the small pole.

The present invention configured to achieve the object of the present invention has the effect of maximizing power generation efficiency of the solar panel by allowing the solar panel to track the sun.

1 is a side view of a solar photovoltaic device according to the present invention;
Fig. 2 is a rear view of a solar tracking apparatus according to the present invention

The detailed structure and operation of the invention will now be described in detail with reference to the drawings.

FIG. 1 is a side view of a solar tracking device according to the present invention. As shown in FIG. 1, the average condensing time of a solar panel is 3.3-3.5 hours per day on average per day.

In addition, when the solar panel is installed, it is necessary to install the solar panel in the direction of the south, because the solar trend continuously changes. Even if it is, the solar panel is rotated according to the position of the sun to maximize the angle with the sun.

For this purpose, a solar panel 10 is installed at the uppermost stage and two large poles 20 and a small pole 21 are installed at the lower end of the solar panel. Since the lengths of the large poles and the small poles are different from each other, The solar panel that is mounted becomes inclined in the direction of the sun.

In addition, the large pole and the small pole are connected to the connection pole 22, and the connection pole serves as a central axis when rotating the solar panel 10 while connecting the large pole and the small pole.

In addition, at a portion where the large pole is contacted with the solar cell panel, the solar cell panel is combined with the inclined solar panel by providing a slope 30 cut at a selected angle to effectively contact the sloped solar panel.

In addition, a rotation pin (23) is provided at a contact portion between the ramp and the large pole and the small pole to be rotatable about the rotation pin.

That is, the rotation pin is fixed to the inclined base, and the bosses and the small poles are pierced with holes for allowing the pins to be inserted into the bosses. When the power is supplied from the outside, the pins are rotated.

The first rail 41 is installed on the connection pole 22 and the second rail 42 is installed on the upper end of the first rail in a state of being coupled with the solar panel 10, A third rail 43 is provided beside the rail and a fourth rail 44 is installed at the lower end of the third rail, that is, beside the first rail.

In addition, the second and third rails are provided with motors 40 to provide power to the second and third rails.

FIG. 2 is a rear view of the solar tracking apparatus according to the present invention. The rear view of the solar panel 10 is shown in FIG. 2. First, The topol and the topol are placed on the ground with the pole base 70 to fix the topol and the topolol while preventing the topololol from falling down easily.

In addition, the first fixing plate 50 and the second fixing plate 51 are installed on both the top and bottom poles, and the fixing plates are adjusted through the adjusting rail 60.

The adjustment rail is first fixed to the first fixing plate with reference to one fixing plate, that is, the first fixing plate. The adjusting rail passes through the first rail 41, and the lane passing through the first rail Passes again through the second rail 42, passes through the third rail 43, passes through the fourth rail 44, and is fixed to the second fixing plate, which is another fixing plate.

When the motor is rotated in this manner, for example, when a force acts on the first fixing plate in a direction to pull the adjusting rail, the adjusting rail passes through the first rail or the fourth rail, As the force acts on the loosening side, it works naturally by pulling one side and releasing the other side.

In order to perform such operation, since there is information on the solar altitude of the first and second years, it is possible to automatically adjust the adjustment rail based on such information, thereby increasing the efficiency of the solar panel by tracking the sun.

10: solar panel 20: large pole 21:
22: connecting pole 23: rotating pin 30: ramp
40: motor 41: first rail 42: second rail
43: third rail 44: fourth rail 50: first fixing plate
51: second fixing plate 60: adjusting rail 70: pole base

Claims (2)

In a solar tracking system,
A solar panel that absorbs sunlight and converts it into electricity;
An inclined stage installed at a lower end of the solar panel to support the solar panel;
A large pole installed at a long distance from the ground of the inclined solar panel so as to support the inclined plane, so that the solar panel can be inclined;
A sole installed at a position which is small in distance from the ground of the solar panel;
A connecting pole connecting the large pole and the small pole;
A rotation pin fixedly installed on the inclined stage and provided with a hole in the bipole and the sole, the hole being fitted in the rotation pin;
A first fixing plate and a second fixing plate fixed to the rear surface of the solar panel, the first fixing plate and the second fixing plate being installed on both sides of the large pole and the small pole;
An adjustment rail fixed to the first fixing plate and passing through a first rail provided on the connection pole, passing through the second rail, the third rail and the fourth rail, and fixed to the second fixing plate;
And a motor for rotating the first rail or the second rail. The method of claim 1,
And a pole base is further added to the bottom of the large pole and the bottom of the small pole.

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