KR20130048366A - Tracking the sun and mirror reflection concentrative solar power system - Google Patents

Abstract

PURPOSE: A solar position tracking and mirror reflection focusing solar light power generator is provided to focus solar light energy using a focusing mirror and a solar position tracking sensor and to raise a generating efficiency corresponding to several times of the area of a solar cell panel, thereby minimizing the consumption of the solar cell panel. CONSTITUTION: A solar position tracking and mirror reflection focusing solar light power generator includes a fixing part(10), a rotary unit(30), a solar cell panel(50), a focusing mirror(60), and a main frame(40). The rotary unit is installed at the fixing part so that the main frame is rotatable with a solar tracking sensor(20). The solar cell panel is reversely installed at the upper side of the main frame so that the front side of the solar cell panel faces downwards. The focusing mirrors at both sides of the main frame focus solar light on the solar cell panel. The focusing mirrors focus the solar light on the solar cell panel, and then the main frame is rotated by the solar tracking sensor.

Description

Tracking the sun and Mirror reflection concentrative solar power system}

The present invention focuses more solar light using a solar tracking device and a solar reflector to maximize power production with minimal solar panels, and increases durability by minimizing rain and snow damage by installing solar panels in reverse positions. It relates to a photovoltaic device that is effective.

Conventional solar photovoltaic device technology is currently very active, and various methods have been tried, but the complexity of the device is a relatively small problem of the relative power generation efficiency can be obtained with the investment of the actual minimum solar panel. There is this. In addition, the focus was on moving the light collecting plate according to the movement of the sun, but did not increase the light collecting area irradiated to the light collecting plate by condensing the solar light. In addition, when the external force caused by the rain and heavy snow acts up, the solar panels are easily exposed when they are exposed.

The present invention has been made to solve the above problems, the structure is simple and easy to install, not only to increase the power generation efficiency, but also easily damaged by the tongue, easy maintenance, cost is reduced and durability is increased The purpose is to provide a photovoltaic device capable of continuously generating power.

The present invention to solve the above problems

A fixed part 10 fixed to the ground or a building;

A rotation unit 30 installed on the fixed portion 10 to rotate the main frame 40 by the sun tracking sensor 20;

A solar panel 50 installed in a reverse direction such that the front portion is lowered on the inner upper portion of the main frame 40;

Condensing mirror 60 is installed in the main frame 40 in both directions to focus the sunlight on the solar panel 50;

The condensing mirror 60 is configured to focus the solar light on the solar panel 50 installed on the main frame 40 in the reverse direction, and the main frame 40 is rotated by the solar tracking sensor 20. It is configured to include a solar position tracking and mirror reflection intensive solar positioning and mirror reflection intensive photovoltaic device (100).

The present invention can reduce the burden on the consumer by minimizing the consumption of solar panels by concentrating solar energy and increasing power generation efficiency of several times the area of solar panels by utilizing low-cost condensing mirror and solar position tracking sensor. By installing the battery panel in the reverse direction, damage caused by tongue may be prevented.

1 is a perspective view showing a solar position tracking and mirror reflection concentrated solar power generation apparatus according to an embodiment of the present invention.
FIG. 2 is a front view of the solar tracking and mirror reflection intensive solar cell apparatus of FIG. 1; FIG.
3 is a top perspective view of the solar positioning and mirror reflection intensive solar cell apparatus of FIG.

Hereinafter, with reference to the accompanying drawings will be described in more detail the solar position tracking and mirror reflection concentrated solar cell apparatus of the present invention.

Prior to this, one embodiment described in the present specification and the configuration shown in the drawings is the most preferred embodiment of the present invention, and the features and technical advantages of the present invention have been outlined somewhat broadly to better understand the claims. The scope of the invention is not limited to these examples, but will include various modifications and variations that fall within the equivalent scope of the invention.

1 is a perspective view showing a solar position tracking and mirror reflection intensive solar cell apparatus according to an embodiment of the present invention.

Referring to the drawings, the solar position tracking and mirror reflection focused photovoltaic device 100 of the present invention is largely fixed part 10, the solar tracking sensor 20, the rotation unit 30, the main frame 40 , A solar panel 50, and a light collecting mirror 60.

First, the fixing part 10 is fixedly installed in a place capable of photovoltaic power generation, its shape may be changed according to the installation place. The fixing part 10 is firmly fixed to the ground and the top of the rotating unit 30 is connected to the main frame 40 is installed is firmly coupled to enable the rotation. As the sun moves, it is preferable that the edge of the main frame 40 having the rotation unit 30 installed thereon is sufficiently extended upward from the ground so that the edge does not contact the ground.

The solar tracking sensor 20 is installed on the outer upper portion of the main frame 40 to correspond to the altitude of the sun according to the movement of the sun, and operates the rotation unit 30 to rotate the entire main frame 40.

The solar panel 50 is installed so that the front portion is downward on the inner upper portion of the main frame 40, to prevent damage caused by rain and snow to increase the durability to install more sustainable power generation.

The condensing mirror 60 is for enlarging the incident area of the solar light incident on the solar panel 50, and the solar light is reflected by the condensing mirror 60 provided on both sides of the main frame 40 so that the solar panel ( Focus at 50) to maximize power generation efficiency.

In the present embodiment, the solar tracking sensor 20 and the solar panel 50 are shown as a single, and the light collecting mirror 60 is shown to be installed only on both sides, but the number of installation of each device is not limited thereto and can be added or subtracted as necessary. Can be.

100: solar tracking and mirror reflection centralized solar power generation device
10:
20: solar tracking sensor
30: rotating unit
40: mainframe
50 solar panel
60: condensing mirror

Claims (1)

A fixed part 10 fixed to the ground or a building;
A rotation unit 30 installed on the fixed portion 10 to rotate the main frame 40 by the sun tracking sensor 20;
A solar panel 50 installed in a reverse direction such that the front part is disposed on the upper portion of the main frame 40;
Condensing mirror 60 is installed in the main frame 40 in both directions to focus the sunlight on the solar panel 50;
The condensing mirror 60 is configured to focus the solar light on the solar panel 50 installed on the main frame 40 in the reverse direction, and the main frame 40 is rotated by the solar tracking sensor 20. Position tracking and mirror reflection centralized photovoltaic device (100).

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