KR20030062712A - Solar electricity module panel apparatus - Google Patents

Abstract

PURPOSE: A solar cell module panel device is provided, in which the solar cell plate and charger/accumulator system unit are integrally formed, to thereby lengthen the useful life of battery and reduce current losses. CONSTITUTION: A solar cell plate(1) and a pole(3) are connected with each other through a hinge(5). An angle adjustment bracket(6) is arranged at the outer bottom surface of the solar cell plate in such a manner that the solar cell plate rotates centering from the hinge and is coupled to the pole through multi-stages and an angle for receiving solar light is adjustable. A direction adjustment bracket(9) is arranged at the lower end of the pole in such a manner that the direction of the pole is selectively changed and the solar light receiving direction of the solar cell plate is adjustable.

Description

Solar panel module

The present invention relates to a solar panel device, and more particularly, a solar reception angle and a position of a receiving surface of a solar panel, which are factors deciding on the efficiency at the time of receiving and charging a high efficiency current collector of a solar panel and a photovoltaic power source. The angle and direction of the solar panel can be freely adjusted to provide an optimal environment for the structure of the transmission line for charging the power supply. It relates to a solar panel device by adjusting the position so that the sunlight is irradiated as much as possible to improve the photovoltaic power generation efficiency.

In general, the independent power source from the solar panel to illuminate the interior of the building or to illuminate street lights, road safety signs and advertising display devices.

However, since the solar panels are fixedly installed in one place, the position of the solar radiation receiving angle or the solar receiving surface, which is a major factor of the current collecting efficiency, is fixed. Therefore, it is impossible to adjust the position of solar panels when the position of the sun changes due to seasonal changes, so it is not possible to obtain the maximum available current collecting capacity of solar panels and contribute to the economic efficiency of solar power generation and the expansion of demand market. In addition, there is a problem that if the transfer to another region or other uses after only a certain period of time, it is difficult to re-use and re-investment of solar panels, which are expensive energy resources.

In addition, the charging and storage unit is separated from the solar panel, and the charging and storage unit box is exposed to the sun's radiant heat and snow rain. There is a problem, and depending on the installation environment, a long distance from the terminal of the solar panel to the charging and storage part is transmitted by an exposed transmission line, so current losses continue to accumulate, which impedes the economic feasibility of photovoltaic power generation. In terms of risk of electric shock and waste of money.

SUMMARY OF THE INVENTION The present invention was developed in view of the conventional problems, and an object of the present invention is to freely adjust the installation angle and rotation direction of a solar panel used for photovoltaic power generation. By adjusting the solar light receiving angle and the position of the receiving surface of the panel is to irradiate the sunlight as much as possible to improve the photovoltaic power generation efficiency. In addition, the charging / storage system unit is mounted on the back of the solar panel to shorten the transmission line distance between the panel and the charging / storage system unit, thereby reducing the current loss on the transmission line, and integrating the solar panel and the system unit to protect the charging / storage system unit. The solar panel prevents the decrease in the efficiency of the charging / storage system part caused by exposure to abnormal weather conditions such as overheating of the battery due to strong radiant heat in summer and heavy snowfall, and shortening of the battery life and deterioration of the charging / discharging function. In providing a device.

1 is a perspective view of a solar panel device of the present invention

Figure 2 is a front view of the solar panel device of the present invention

3 is a side view of a part of the present invention solar panel device

<Code Description of Main Parts of Drawing>

1 solar panel 2 charging / power storage system

3: Shore 4: Connector

5 hinge portion 6: angle adjustment bracket

7: angle adjusting hole 8: fixing bolt

9: Direction Adjustment Bracket 10: Direction Adjustment Hole

11: holding fixture 12: fixing bolt

13: power transmission line 14: fixed piece

In order to achieve the above object, the present invention is a solar panel device for fixing the solar panel to the support so that the sunlight is irradiated, the solar panel and the support is connected to the hinge portion, the bottom of the solar panel is centered on the hinge of the solar panel It is rotated by a multi-stage fastening and fixed to the support and is provided with an angle adjustment bracket for adjusting the solar light receiving angle, the lower end of the support is the direction of the bracket to selectively adjust the direction of receiving the solar panel of the solar panel It is comprised so that it may be provided.

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

1 is a perspective view of a solar panel device of the present invention, Figure 2 is a front view of the solar panel device of the present invention. The solar cell panel device of the present invention is composed of a solar panel 1, a strut 3, an angle adjusting bracket 6 and a direction adjusting bracket 9. The solar panel 1 is connected to the hinge portion 5 and the connector 4 of the upper end of the strut 3 is configured to be freely adjusted angle. The angle adjusting bracket 6 is formed in an arc shape extending from the bottom of the solar panel 1 toward the support 3, and the angle adjusting bracket 6 has a plurality of angle adjusting holes 7 formed therein. The fixing bolt 8 is fastened to the support 3 through any one of (7), and the angle adjusting bracket 6 and the solar panel 1 are fixed.

The lower end of the support 3 is connected to the direction adjustment bracket 9 through the support fixture (11). The holding fixture (11) is formed protruding in both directions at the bottom of the support (3) and the fixing bolt 12 is fastened to each holding fixture (11). In addition, a plurality of direction adjusting holes 10 are formed in the direction adjusting bracket 9, and when the fixing bolt 12 is fastened to any of the direction adjusting holes 10, the support 3 and the direction adjusting bracket 9 are connected to each other. . The direction adjustment bracket 9 is formed in an arc shape and a fixing piece 14 for installing the direction adjustment bracket 9 is formed at the bottom of the place where the solar panel 1 is to be installed.

The strut 3 is formed in the form of a hollow pipe in a hollow shape, and the transmission line 13 is connected to the inside of the strut 3. The power transmission line 13 is connected to the charging / power storage system unit 2 installed on the bottom of the solar panel 1. The charging / storage system unit 2 has a built-in charging controller equipped with a light sensing sensor switching function, a timer function, a charging control function by a predetermined set voltage, and a reversal prevention function from the charging unit to the solar panel 1, and the converter or Built-in power storage unit with inverter function and over discharge prevention short circuit control function.

The present invention configured as described above is easy to manage because the solar panel 1 and the charging / power storage system unit 2 are integrated, and the solar light receiving of the solar panel, which is a decisive factor in the efficiency of power reception and charging of the photovoltaic power source. Convenient adjustment of the angle and position of the receiving surface improves the efficiency of solar power generation.

According to the present invention, the solar panel 1 and the support 3 are connected to each other through the connector 4 and the angle adjustment bracket 6, and the support 3 is connected to the direction adjustment bracket 9 through the support fixture 11. Connected. When the fixing piece 14 on the bottom face of the direction adjusting bracket 9 is fixed to the installation place of the solar panel 1, the solar panel 1 of the present invention is installed at a desired place.

The solar panel 1 has to receive as much sunlight as possible because the amount of power generation varies depending on the angle of reception of the sunlight and the position of the receiving surface. However, since the altitude of the sun varies depending on the season, if the solar panel 1 is fixedly installed, the power generation efficiency is lowered.

According to the present invention, the solar panel 1 can adjust the angle of reception and position of the receiving surface of the solar light through the angle adjusting bracket 6 and the direction adjusting bracket 9. When the fixing bolt (8) is loosened, the solar panel (1) is rotated around the hinge portion (5) to adjust the angle of the solar panel (1) and the fixing bolt (8) to adjust the angle of the angle adjusting bracket (6). When inserted into the hole 7 and fastened to the support 3, the angle adjustment bracket 6 is fixed to the support 3, and the angle of the solar panel 1 is adjusted as desired.

When the fixing bolt 12 of the support holder 11 is released, the support 3 is separated from the direction adjustment bracket 9 so that the solar panel 1 can be turned in the desired direction, and after the setting of the direction is completed, the fixing bolt 12 is completed. To the direction adjusting hole 10 of the direction adjusting bracket 9, the position of the solar panel 1 is adjusted as desired.

In addition, the charging / storage system unit 2 is mounted on the rear surface of the solar panel to shorten the distance of the power transmission line 13, and the solar panel 1 serves as a roof of the charging / storage system unit 2 to provide strong radiant heat in summer. It is possible to prevent the decrease in efficiency of the charging / power storage system unit 2 caused by exposure to abnormal weather conditions such as overheating, heavy rain and heavy snow due to the battery and shorten the life of the battery.

As described above, according to the present invention, since the solar panel and the charge / power storage system unit are integrated, the function of the power storage unit can be protected, the life of the battery can be stably maintained, and the current loss on the transmission line can be reduced. In addition, in order to increase the power generation efficiency of solar panels, by adopting a variable structure solar panel with a function that a user or an administrator can change the solar irradiation reception direction at any time in accordance with the solar irradiation acceptance angle and the position of the sun at the time of current collection. Therefore, it can contribute to the development of the potential market and the improvement of the reliability of commercialization by increasing economic efficiency and efficiency.

In addition, it is possible to expand solar power generation as an alternative energy source to cope with the depletion of fossil fuel, which is a serious problem at present, and the pollution problem of the global environment.

Claims (4)

In the solar panel device to fix the solar panel to the strut so that the sunlight is irradiated, Solar panel 1 and the strut 3 is connected to the hinge portion 5, On the bottom of the solar panel 1, the solar panel 1 is pivoted about the hinge portion 5, and is provided with an angle adjustment bracket 6 for fastening and fastening the multi-stage to the support 3 and adjusting the solar light receiving angle. Become, At the lower end of the support (3), the support (3) is a direction of the solar panel panel characterized in that the direction adjustment bracket (9) is provided so that the solar light receiving direction of the solar panel (1) is adjusted. The method of claim 1, The angle adjustment bracket 6 is provided with a plurality of angle adjustment holes 7 for fastening the fixing bolt (8) is selectively fitted to the support (3) and the angle adjustment bracket (6) is fixed to the support (3), The direction adjustment bracket 9 is provided with a plurality of direction adjustment holes 10 for fastening the fixing bolt 12 fastened to the bottom of the support 3 to fix the support 3 to the direction adjustment bracket 9. Solar panel device, characterized in that. The method of claim 1, The solar cell panel 1 serves as a roof of the charge / condensation system unit 2 by mounting a charge / condensation system unit 2 incorporating a charge, storage and discharge control unit on the bottom of the solar panel 1. Solar panel device to prevent the storage battery overheating and efficiency degradation. The method of claim 1, The solar cell panel device, characterized in that the support (3) is composed of a hollow pipe so that the transmission line (13) connected to the charging / power storage system unit (2) inside the support (3).