KR200340282Y1 - Structure for setting up solar battery module in restricted space - Google Patents

Abstract

The present invention relates to a solar cell module installation structure using a limited space that efficiently utilizes solar energy by installing a solar cell module on a railing of a building and an outdoor structure when there is insufficient space to install a solar cell module in a building and an outdoor structure. A plurality of solar cell modules rotatably coupled with one side hinged to an upper side of an outdoor railing installed in buildings and structures for efficient use of energy; Hinge coupled to the other side of the solar cell module is composed of a plurality of solar cell module support coupled to move up and down under the outdoor railing.

The present invention can overcome the limitation of the place installed on the roof or other places of the collective housing or multi-unit house, and can install the solar cell module on the railing of the building or outdoor structure, and also a plurality of solar cells on the railing of the building and the outdoor structure. When the module is installed, the angle of the solar cell module can be arbitrarily adjusted, thereby effectively receiving the maximum amount of solar radiation that varies in each province.

Description

STRUCTURE FOR SETTING UP SOLAR BATTERY MODULE IN RESTRICTED SPACE}

The present invention relates to an installation structure of a solar cell module, and more particularly, when the solar cell module is insufficient to install the solar cell module outdoors, the solar cell module is installed on the railings of the building and the outdoor structure to efficiently solar energy. It relates to a solar cell module installation structure using a limited space used.

In general, a solar cell is used by bonding a P-type semiconductor and an N-type semiconductor, and uses a photoelectric effect of producing electricity by receiving sunlight, and most solar cells are composed of a large-area PN junction diode. The electromotive force generated at the anode end of the PN junction diode is used to connect to an external circuit, but the unit solar cell element is configured to be used as a module so as to have a suitable electromotive force by connecting a plurality of unit solar cells.

Photovoltaic power generation is divided into independent type and grid type depending on whether the power system is connected or not, and the solar cell converts solar energy into electrical energy. Usually, silicon and composite materials are mainly used.

The photovoltaic system requires little maintenance costs after the initial installation, and there is no separate moving parts, so there is no noise and vibration, which does not cause environmental pollution.

However, according to the type of solar cell, the cost is high, and the energy density of the solar light is low, so that a large amount of solar cell modules must be used in order to obtain a constant power. In addition, due to the characteristics of the photovoltaic power generation system having a change in efficiency according to the angle of the solar light, the solar cell module of the conventional photovoltaic power generation system should be installed on the roof of a building, a roof, or a separately set prop, and absorbs solar energy There is also a restriction that the direction of the module should be southward.

Due to this problem, solar cells are installed using the rooftop of a limited building or separate facilities to generate power. The use of individual solar power generation facilities in apartments, multi-family houses, communal buildings, outdoor structures, etc. It has been limited because of lack.

In order to solve the above problems, the present invention is to install the solar cell module on the railings of all buildings and outdoor structures, including multi-family housing or multi-family housing, overcome the difficulties in installation due to lack of space, the power supplied to the building By minimizing the existing power consumption, it can save energy and actively use it for environmental protection, and it can use the limited space to maximize the solar radiation according to the latitude of each province by enabling the angle adjustment of the solar cell module. The purpose is to provide a solar cell module installation structure.

1 is a cross-sectional view showing an installation example of a solar cell module installation structure using a limited space according to the present invention;

Figure 2 is a detailed view showing the configuration of a solar cell module installation structure using a limited space according to the present invention;

Figure 3 is a perspective view of the installation state of the solar cell module installation structure using a limited space according to the present invention.

<Description of Symbols for Major Parts of Drawings>

1: solar cell module 2: solar module support

3: outdoor railing

In order to achieve the above object, the solar cell module installation structure using a limited space according to the present invention is installed in buildings and outdoor structures for the efficient use of solar energy in the photovoltaic device for producing electricity from solar energy A plurality of solar cell modules rotatably hinged at one side to an upper portion of the railing; Hinge coupled to the other side of the solar cell module is composed of a plurality of solar cell module support coupled to move up and down under the outdoor railing.

In addition, the solar cell module is formed in a plate shape so as to absorb a large amount of solar heat, the solar cell module is hinged is coupled to the portion of the outdoor railing and the solar cell module support to the latitude of each region when installing the solar cell module The angle can be adjusted to receive maximum solar radiation.

Hereinafter, with reference to the accompanying drawings there may be a plurality of embodiments as a solar cell module installation structure using a limited space according to the present invention, the following describes the most preferred embodiment.

1 is a cross-sectional view showing an installation example of a solar cell module installation structure using a limited space according to the present invention, Figure 2 is a detailed view showing the configuration of a solar cell module installation structure using a limited space according to the present invention, Figure 3 is a front view listing the installation state of the solar cell module installation structure using a limited space according to the present invention.

1 to 3, the solar cell module installation structure using a limited space is hinged to the upper side of the plurality of solar cell modules (1) rotatable on top of the outdoor railing (3) of buildings and structures have.

The solar cell module 1 is formed in a wide plate shape in order to absorb a large amount of solar heat, and the upper side of the solar cell module support 2 is hinged to the lower side of the solar cell module 1 to the solar cell It is provided to adjust the angle of the module (1).

The lower side of the solar cell module support 2 is coupled to the lower portion of the outdoor railing 3 so that the solar cell module support 2 is movable up and down in the outdoor railing 3.

In addition, since the maximum solar radiation amount varies depending on the latitude of each region, if all solar cell modules are fixed to the railing at a predetermined angle, energy efficiency becomes quite inefficient.

Therefore, a plurality of solar cell modules 1 are installed on the railings, and the angle of the solar cell module 1 can be freely adjusted by the solar cell supporter 2 so that the maximum according to the latitude of each province. Allow yourself to receive insolation.

Hereinafter, the action of the solar cell module installation structure using the limited space according to the present invention.

As illustrated in FIGS. 1 to 3, the plurality of solar cell modules 1 installed in the outdoor railing 3 absorb solar energy from the outside sun.

At this time, the solar cell module support (2) moves up and down to adjust the angle of the solar cell module (1), the angle of the solar cell module (1) is adjusted according to the movement of the solar cell module support (2) The maximum solar radiation according to the latitude of each region can significantly increase the efficiency of solar energy, and can also be installed on outdoor railings (3) or on the balcony windows, eliminating the inconvenience of having to install rooftops or buildings in other places. have.

Solar cell module installation structure using the limited space according to the present invention having the configuration and action as described above to overcome the limitation of the place installed on the roof or other places of the collective housing or multi-family housing solar cells on the railings of buildings and outdoor structures By installing the module, the solar cell module can be installed and used even in a narrow space. Also, when installing a plurality of solar modules in the railing of buildings and outdoor structures, the angle of the solar cell module can be arbitrarily adjusted so that the solar It is effective to receive the maximum amount of solar radiation efficiently.

Claims (2)

In the photovoltaic device for producing electricity from solar energy, A plurality of solar cell modules (1) rotatably coupled to one side of the outdoor railing (3) installed in buildings and structures for efficient use of solar energy; Hinged to the other side of the solar cell module (1) using a limited space, characterized in that it comprises a plurality of solar cell module support (2) coupled to move up and down on the bottom of the outdoor railing (3) Solar module installation structure. The method of claim 1, The solar cell module (1) is formed in a plate shape to absorb a large amount of solar heat, and the solar cell module (1) is hinged portion coupled to the outdoor railing (3) and the solar cell module support (2) The solar cell module installation structure using a limited space, characterized in that the angle can be adjusted to receive the maximum amount of solar radiation according to the latitude of each province when installing the solar cell module (1).