KR200479259Y1 - Solar module installed in Building - Google Patents

Abstract

This design is installed outdoors on a porch or a railing which is installed between the floor and the floor of a building (apartment, school, public institution, etc.) and the wall that divides the room, and collects the sunlight to convert it into electric energy The present invention relates to a photovoltaic module installed in a building capable of preserving an ecosystem by supplying electric energy that is environmentally friendly,
The present invention relates to a light collecting apparatus (100) for collecting solar energy; A rotating device 200 for rotating the light condensing device 100 according to the motion of the sun; An inverter 300 for converting solar energy provided from the light condensing device 100 into electric energy; And an electric energy collecting device (400) for collecting electric energy provided from the converting device (300).

Description

A solar module installed in a building {Solar module installed in Building}

The present invention relates to a photovoltaic module installed in a building, more particularly, to a veranda or a railway installed between layers of a building (apartment, school, public institution, etc.) Solar energy installed in a building that can save the ecosystem by reducing the original amount of electric power and supplying environment-friendly electric energy by replacing the lack of electric energy by converting solar energy into electric energy and converting it into electric energy, Optical module.

Generally, a city that can be described as an agglomeration of modern civilization has a form that can not live for one hour without energy.

However, there has been developed a method of obtaining a third energy source due to a shortage of resources, and a method of collecting sunlight to obtain electric energy has been proposed as one method.

That is, solar power generation is performed by collecting sunlight on a solar module, which is an aggregate of solar cells, and converting the solar light into electricity.

Photovoltaic modules are a type of solar panels called solar modules. They are general type, window type, tracking type, hybrid type (in combination with other clean energy generating means).

Solar power generation using such a photovoltaic module is performed by a photovoltaic effect. When a solar panel having n-type doping on a silicon crystal and pn junction is irradiated with sunlight, Electrically induced power is generated by holes, which is called photovoltaic effect. The solar panels are connected in series and parallel as desired to make the desired power. The system that stores the DC power in the battery and uses it when necessary is called an individual solar power generation system or a stand-alone solar power generation system, It is said to be a grid-connected photovoltaic power generation system.

In particular, the DC power stored in the battery is converted to AC power through an inverter device and then supplied to a power consumption device such as a lamp.

FIG. 1 is a perspective view schematically showing a solar module for solar power generation installed on a support frame according to a related art. In the support frame 2, a plurality of solar modules 1 are arranged horizontally or vertically, The shaft 3 is vertically erected between the support frame 2 and the ground.

The solar module 1 is a solar cell in which solar cells are integrated and a glass plate, a sheet or a plate-shaped solar cell is stacked on the inner side of a rectangular frame-shaped module frame, and a back side (Not shown) for collecting the electric power generated by the charging regulator and the battery.

The conventional solar module 1 as described above is usually installed on the roof of a building to obtain solar energy, which can be installed only in a general house, and can not be used when there is a multi- .

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The present invention has been devised to solve the above-mentioned problems. It is installed outside a building, such as a veranda or a railing which is installed between a floor and a floor of a building (apartment, school, public institution, etc.) A solar module installed in a building that can save the ecosystem by supplying electric energy that is eco-friendly by reducing the original amount of electric power by replacing the electric energy by replacing the electric energy by converting it into electric energy, It has its purpose.

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In order to achieve the above object, the present invention includes the following embodiments.

The solar module installed on the building according to the present invention,

A light collecting device (100) for collecting solar energy;

A rotating device 200 for rotating the light condensing device 100 according to the motion of the sun;

An inverter 300 for converting solar energy provided from the light condensing device 100 into electric energy;

And an electric energy collecting device (400) for collecting electric energy provided from the converting device (300).

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The rotating device 200 is provided on the rear surface of the condensing device 100 to rotate the condensing device 100 according to the movement of the sun so as to collect solar energy efficiently.

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A rotating shaft 210 installed on a veranda or a railing provided between a floor and a floor of a building and a rotating shaft 210 fixed to the lower end of the condenser 100 so that the condenser 100 is rotated about the rotating shaft 210, And a motor 250 at the other end and an actuator 230 coupled to the veranda or the railing through a fixing member 231. When the motor 250 is driven, (100) is pushed and the condensing device (100) is rotated about the rotation axis (210).

The present invention has the following effects according to the above-described configuration.

This design is installed outdoors on a porch or a railing which is installed between the floor and the floor of a building (apartment, school, public institution, etc.) and the wall that divides the room, and collects the sunlight to convert it into electric energy Thereby reducing the original amount of electric power used.

In addition, the present invention can convert solar energy into electrical energy and use it to provide eco-friendly electrical energy, thus preserving the ecosystem.

In addition, by replacing the insufficient electric energy, it is possible to reduce the heating energy cost by reducing the original amount of electric power used.

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FIG. 1 is a perspective view schematically showing a conventional solar module mounted on a support frame for solar power generation.
2 is a sectional view showing an embodiment of a solar module installed in a building according to the present invention.
3 is a view illustrating an operation of a solar module installed in the building shown in FIG.
4 is a view showing one embodiment of energy conversion and energy collection according to the present invention.

Hereinafter, the present invention will be described in detail with reference to FIGS.

Detailed descriptions of known functions and configurations that may be unnecessarily obscured by the gist of the present invention will be omitted.

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2 to 4, the light collecting device 100 of each layer of the building is connected to the rotating device 200, rotated by the rotating device 200 according to the motion of the sun, collects solar energy, ).

The rotating device 200 is provided on the rear surface of the light collecting apparatus 100 to rotate the light collecting apparatus 100 according to the motion of the sun so that the light collecting apparatus 100 can efficiently collect solar energy.

The rotating device 200 includes a rotating shaft 210 installed on a veranda or a railing provided between a layer and a layer of a building and a rotating shaft 210 disposed on the side of the focusing device 100 to rotate the focusing device 100 around the rotating shaft 210 And a motor 250 is provided at the other end of the motor and an actuator 230 coupled to a veranda or a railing through a fixing member 231. [

Accordingly, when the motor 250 is driven, the actuator 230 pushes the condensing device 100, and the condensing device 100 rotates about the rotation axis 210.

The conversion device 300 of each layer of the building is provided behind the light condensing device 100 to convert the solar energy provided from the light condensing device 100 into electric energy.

An electric energy collecting device (400) installed in each layer of the building collects electric energy provided from the converting device (300).

The central collecting apparatus 500 collectively collects the electric energy provided from the electric energy collecting apparatus 400 installed in each layer of the building. At this time, the electric energy collected in the central collecting apparatus 500 is distributed to each apparatus (a cooling and heating apparatus, a lighting apparatus, etc.) by a distributing apparatus (not shown).

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventions. Will be clear to those who have knowledge of.

100: condenser
200: Rotating device
300: conversion device
400: Electric energy collection device
500: central collecting device

Claims (2)

A light collecting device (100) for collecting solar energy;
A rotating device 200 for rotating the light condensing device 100 according to the motion of the sun;
An inverter 300 for converting solar energy provided from the light condensing device 100 into electric energy;
And an electric energy collecting device (400) for collecting electric energy provided from the converting device (300)
The rotating device 200 is provided on the rear surface of the condensing device 100 to rotate the condensing device 100 according to the movement of the sun so as to collect solar energy efficiently.
A rotating shaft 210 installed on a veranda or a railing provided between a floor and a floor of a building and a rotating shaft 210 fixed to the lower end of the condenser 100 so that the condenser 100 is rotated about the rotating shaft 210, And a motor 250 at the other end and an actuator 230 coupled to the veranda or the railing through a fixing member 231. When the motor 250 is driven, (100) is pushed and the condensing device (100) is rotated about the rotation axis (210). delete

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