KR20200128907A - Solar thermal and photovoltaic composite electric generating system - Google Patents

Abstract

The present invention relates to a solar and photovoltaic composite power generation device. A collector and a solar panel are cross-arranged, and the collector or the solar panel is moved in a situation in which the collector is overheated to locate the collector at a lower side of the solar panel so as to prevent the collector from being excessively overheated, thereby further increasing energy efficiency.

Description

Solar thermal and photovoltaic complex power generation system {SOLAR THERMAL AND PHOTOVOLTAIC COMPOSITE ELECTRIC GENERATING SYSTEM}

The present invention relates to a solar and photovoltaic hybrid power generation device, and more particularly, by cross-arranging a collector and a solar panel, and rotating and moving the collector or solar panel when necessary, thereby preventing excessive overheating of the collector. It relates to a solar thermal and photovoltaic complex power generation device that can further increase efficiency.

Recently, as eco-friendly low-carbon energy, solar energy and solar energy are in the spotlight, and the market is gradually expanding. Solar energy converts solar energy into electric energy through a collector and solar energy through solar panels.

First, the solar heat collector is largely divided into a flat plate type and a vacuum tube type.The flat type solar heat collector has a rectangular frame with an upper plate and a lower plate body, and the absorber plate of the solar heat collector is made of copper or aluminum. The surface of the thin metal plate is specially coated to absorb the sun's rays as much as possible, and a plurality of thin paper pipes made of copper material on one surface of the heat collecting plate are welded to the main pipe at regular intervals, inserted into the rectangular frame, and a transparent cover on top To form an integrated heat collector. The heat collector has an absorption plate and a transfer pipe installed inside the frame, and blocks the inside with a glass plate or the like on the upper surface of the frame to prevent damage such as damage from the outside.

Next, the solar panel is formed in a plate shape in which a plurality of cells that generate electricity using solar energy form one module. Such a solar panel is generally composed of a pillar erected at a predetermined height from the ground in order to secure a sufficient amount of solar radiation, and supports that are horizontally assembled with respect to the pillars to fix the solar panel. Furthermore, a solar tracking system may be attached to allow the solar panel to rotate according to the position of the sun. However, when the weather is cloudy, there is a problem that solar energy conversion efficiency is lowered.

Therefore, in order to solve this problem, a proposal has been proposed to arrange a solar panel and a collector together to generate electric energy in part through the collector even in cloudy weather conditions. However, in this case, when excessively strong solar heat is exposed to the collector for a long time, the inside of the collector frame is overheated, and as a result, the absorber plate, the transfer pipe, etc. installed therein are damaged due to overheating or the function is deteriorated.

Korean Patent Publication No. 2011-0112659 (published on October 13, 2011) Republic of Korea Patent Registration Publication No. 1179686 (registered on August 29, 2012)

In order to solve the above problems, the present invention cross-arranges a collector and a solar panel, and in a situation in which the collector is overheated, the collector is excessive by moving the collector or the solar panel so that the collector is located under the solar panel. It is an object of the present invention to provide a solar and photovoltaic hybrid power generation device that can further increase energy efficiency by preventing overheating.

In order to achieve the above object, the present invention is a condensing unit including a solar panel and a collector for collecting solar heat; In the solar and photovoltaic hybrid power generation apparatus including; a power conversion unit for converting the solar energy obtained through the condensing unit into electric energy, wherein the condensing unit is characterized in that the solar panel and the collector are alternately arranged with each other. To do.

The solar and photovoltaic composite power generation device includes a solar panel support for supporting the solar panel and a collector support for supporting the collector, and at least one of the solar panel support and the collector support is the solar panel Alternatively, it may include a rotation driving unit that rotates the collector at a predetermined angle.

In addition, any one or more of the solar panel support and the collector support may further include a vertical driving unit for moving the solar panel or the collector vertically.

In addition, the solar and photovoltaic composite power generation device includes a driving control unit for controlling the rotation driving unit or the vertical driving unit, and a temperature measurement unit for measuring a temperature of the light collecting unit, and the driving control unit includes a temperature received from the temperature measurement unit. Based on the information, the rotation driving unit or the vertical driving unit may be controlled.

In addition, the solar and photovoltaic hybrid power generation device includes a solar tracking unit for tracking a sun position, and the driving control unit may control the rotation driving unit or the vertical driving unit based on the sun position information received from the solar tracking unit. .

According to the present invention can have the following effects.

1. Due to the condensing unit including the solar panel and the collector, it uses solar heat as well as solar light, so even if the electric energy generation efficiency through sunlight is low in the weather, electric energy can be generated through the collector. Therefore, it is possible to increase the overall electric energy generation efficiency.

2. When the solar energy utilization efficiency decreases because the temperature near the collector becomes very high, the solar panel or collector is rotated or moved up and down to place the collector near the shadow formed by the solar panel to prevent the collector from overheating. There is an effect that can be done.

3. The effect of preventing overheating of the collector more efficiently by rotating or moving the solar panel or collector up and down based on the information received from the temperature measuring unit measuring the temperature of the condenser or the solar tracking unit tracking the location of the sun. There is.

1 is a plan view showing a condensing unit of a solar heat and photovoltaic hybrid generator according to an embodiment of the present invention.
Figure 2 is a side view of the solar and photovoltaic composite power generation device of Figure 1;
3 is an exemplary view showing a state in which the light collecting unit of FIG. 1 rotates or vertically drives.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. The technical idea of the present invention may be clearly understood through examples. In addition, it is apparent to those of ordinary skill in the art that the present invention is not limited to the embodiments described below, but can be modified in various forms within the scope of the technical idea to which the present invention belongs. something to do.

1 is a plan view showing the condensing unit 110 of the solar and photovoltaic hybrid power generation apparatus 10 according to an embodiment of the present invention, and FIG. 2 is a side view of the solar thermal and photovoltaic combined power generation apparatus 10 of FIG. .

The solar and photovoltaic complex power generation device (hereinafter,'combined power generation device') 10 is largely a condensing unit 100 and a power conversion unit that converts solar energy obtained through the condensing unit 100 into electric energy ( 200).

As shown in FIG. 1, in the condenser 100, the solar panel 110 and the collector 120 are alternately arranged. Through this, the solar panel 110 and the collector 120 are alternately arranged. Since it is possible to convert the solar energy through the electrical energy, it is possible to maintain a constant electric energy generation efficiency compared to a power generation device composed of only solar panels in the above-described weather conditions.

In the solar panel 110, a plurality of solar cells 111 that convert solar energy into electrical energy may form a single module and exist in the form of a plate, but the present invention is not limited thereto.

The collector 120 converts solar energy into electrical energy, and the form applicable to the present invention may be either a flat plate type or a vacuum tube type. In FIG. 3, the flat plate collector 120 is applied, and the solar panel 110 is alternately arranged over a predetermined length or more. At this time, the collector 120 may be alternately arranged one by one with the solar panel 110 as shown in FIG. 3, and may be included in the middle after the solar panel 110 is arranged for a certain length or more as needed. have.

The composite power generation device 10 is a solar panel supporting the solar panel 110 in order to support the condensing unit 100 in which the solar panel 110 and the collector 120 are alternately arranged at a predetermined height or higher from the ground. It may include a support (112) and a collector support (122) for supporting the collector (120).

Further, at least one of the solar panel support 112 and the collector support 122 may include a rotation drive unit 130 that rotates the solar panel 110 or the collector 120 at a predetermined angle. Preferably, when the rotational drive units 131 and 132 are formed in each of the solar panel 110 and the collector 120, the collector 120 is more naturally formed when the temperature of the condenser 100 is overheated. It can be moved downwards.

More preferably, at least one of the solar panel support 112 and the collector support 122 may further include a vertical driving unit 140 for moving the solar panel 110 or the collector 120 up and down. have. In this case, the solar panel 110 or the collector 120 can be prevented from being damaged by contacting each other when moving, and has the advantage of allowing the collector 120 to move more naturally depending on the position of the sun.

The rotation driving unit 130 and the vertical driving unit 140 may be driven by a driving motor (not shown) therein, and may rotate or move vertically due to a gear shaft connected to each other. This driving method will be omitted because it is a known technique.

The composite power generation device 10 may include a driving control unit 150 for controlling the rotation driving unit 130 or the vertical driving unit 140, and a temperature measuring unit 160 for measuring the temperature of the condensing unit 100 Can include. In this case, the driving control unit 150 controls the rotation driving unit 130 or the vertical driving unit 140 based on the temperature information received from the temperature measuring unit 160, and when the collector 120 is overheated, the solar panel 110 ) It is possible to prevent overheating of the collector 120 by allowing it to move near the shadow formed on the lower side.

Further, the composite power generation device 10 may include a sun tracking unit 170 for tracking the sun position, in this case, the driving control unit 150 is used with the temperature information received from the temperature measuring unit 160. The rotation driving unit 130 or the vertical driving unit 140 may be controlled by considering the sun position information received from the tracking unit 170 in combination. In this case, since the location of the sun is considered, the location of the shadow formed by the solar panel 110 can be predicted, and thus the collector 120 can be moved more efficiently in a situation where the collector 120 is overheated.

Although the preferred embodiments of the present invention have been described above, the scope of the present invention is not limited thereto, and it is to be understood that the scope of the present invention extends to the scope substantially equal to the embodiment of the present invention. Various modifications may be implemented by those of ordinary skill in the technical field to which the present invention pertains within the scope not departing from the spirit of the invention.

10: power generation device 100: condensing unit
110: solar panel 111: solar cell
112: solar panel support 120: collector
122: collector support 130: rotary drive
140: vertical drive unit 150: drive control unit
160: temperature measuring unit 170: sun tracking unit

Claims (5)

A condenser including a solar panel and a collector for solar heat collection; In the solar and photovoltaic complex power generation apparatus comprising; a power conversion unit for converting the solar energy obtained through the condensing unit into electric energy,
The photovoltaic and photovoltaic hybrid power generation device, characterized in that the solar panel and the solar heat collector are arranged alternately with each other. The method of claim 1,
The solar and photovoltaic composite power generation device includes a solar panel support for supporting the solar panel and a collector support for supporting the heat collector,
At least one of the solar panel support and the collector support includes a rotation drive unit for rotating the solar panel or the collector at a predetermined angle. The method of claim 2,
At least one of the solar panel support and the collector support includes a vertical driving unit for vertically moving the solar panel or the collector.
The method of claim 3,
The solar and photovoltaic composite power generation device includes a drive control unit for controlling the rotation drive unit or the vertical drive unit, and a temperature measurement unit for measuring a temperature of the light collecting unit
The driving control unit controls the rotation driving unit or the vertical driving unit based on the temperature information received from the temperature measuring unit. The method of claim 4,
The solar and photovoltaic composite power generation device includes a solar tracking unit for tracking a solar position,
The driving control unit is a solar and photovoltaic hybrid power generation apparatus, characterized in that to control the rotation driving unit or the vertical driving unit based on the solar position information received from the solar tracking unit.

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