KR20100048331A - Installation structure of solar collector - Google Patents

Abstract

PURPOSE: An installation structure of a solar energy panel is provided to supply the more amount of solar energy to a solar energy panel by mounting a plurality of reflectors on top of the solar energy panel. CONSTITUTION: An installation structure of a solar energy panel comprises a heat collecting panel(10), a trestle(20) and a reflector(30). The reflector is installed in the trestle. The reflector is arranged on the upper side of the heat collecting panel and concentrates sun light on the panel. The reflector moves according to the movement of the sunlight in order to focus the sunlight. A ball flanger is formed on the back side of the reflector and is combined in the trestle. A slope transform unit is included between the trestle and reflector.

Description

Installation structure of solar collector, a renewable energy source

The present invention relates to an installation structure of a solar heat collecting plate which is a renewable energy source that can obtain high energy even in a small area.

In general, energy use flows in buildings or complexes are mainly directed toward energy consumption or fossil energy use such as electricity or gas due to supply-oriented design and application, thereby increasing useful energy loss and fossil energy use. The emission of pollutants is a problem.

Accordingly, in order to minimize environmental load, it is required to develop a technology that can minimize the impact on the natural system by using renewable energy reasonably according to the characteristics of the site and climate.

Therefore, there have been efforts to use a clean heat source or a renewable energy source such as geothermal or solar heat.

However, in order to meet the demand for hot water supply and heating and heating demand in an environment-friendly building or complex, it is important to secure a stable clean heat source. However, most renewable energy sources vary depending on climate or environment.

In addition, the amount of energy stored is not only sensitive to climate and environment, but also determined by the installation area. That is, in the case of solar heat, in order to obtain more energy, a large amount of heat collecting plates must be installed in a larger area to obtain high energy.

But because nobody owns a large land, the use of solar heat is inevitable.

The present invention has been made in order to solve the above problems, the solar heat absorbing heat collecting plate to be installed in a small size, and installed a plurality of reflecting plates on the upper side of the heat collecting plate that can supply a larger amount of solar heat to the heat collecting plate. To provide an installation structure.

The present invention to solve the above problems,

The heat collecting plate for using the solar heat, and is disposed on the upper side of the heat collecting plate to provide an installation structure of the heat collecting plate, characterized in that it comprises at least one or more mounted on at least one mount to collect the sunlight to the heat collecting plate.

In this case, the reflector is moved in accordance with the movement of the sun to collect the sunlight to the heat collecting plate in the rear of the reflector is a ball flanger is coupled to the mount, it is preferable that the slope conversion unit is provided between the mount and the reflector.

In addition, the tilt converter may be composed of two drive motors, two motion converters, two push rods, and a controller to control the rotation of the drive motor to move the reflector in the vertical direction and the left and right directions.

As described above, the installation structure of the heat collecting plate according to the present invention can be installed in a small area, and thus, there is an advantage in that the use of solar heat, which is a clean energy source, can be expanded.

Hereinafter, a heat collecting plate installation structure according to a preferred embodiment of the present invention with reference to the accompanying drawings.

1 is a schematic view showing the installation structure of the heat collecting plate according to the present invention, Figure 2 is a view showing a structure in which the inclination of the reflecting plate shown in FIG.

First of all, solar collectors are the most widely known flat plate collectors.

Such a heat collecting plate has a form of a greenhouse effect because a transparent outer layer (glass or plastic) that transmits light surrounds a black internal component that absorbs light.

When the light enters the heat collecting plate, the light hits the black interior and becomes infrared light. The infrared light does not pass through the transparent layer, and the interior becomes hotter.

Inside the heated collector plate, a medium that absorbs and transfers heat flows, which transfers the heat to water for heating or hot water.

As such, the efficiency of solar energy is changed according to the amount of light transmitted into the heat collecting plate.

Therefore, in the present invention, as shown in FIG. 1, the flat heat collecting plate 10 is installed on the floor, and a plurality of reflecting plates 30 are provided above the heat collecting plate 10. At this time, the reflecting plate 30 is installed by tilting the heat collecting plate 10 to receive the sun directly.

The reflection plate 30 is installed by the mount 20, and raises the mount 20 high, and uses the mount 20 with a plurality of reflecting plates 30 up and down. At this time, it will be preferable that each of the reflecting plates 30 should have different inclinations.

On the other hand, the sun continues to move from morning to evening, the reflector 30 causes the problem that the slope should change according to the movement of the sun to continue to send the solar heat to the heat collecting plate (10).

Therefore, the mount 20 is further provided with a tilt converter for continuously changing the tilt of the reflector 30.

First, in order for the reflector 30 to be pivoted by the tilt converter, a ball flanger 31 is formed on the rear surface of the reflector 30 so that the ball flanger 31 can be freely rotated while being coupled to the mount 20.

The tilt converter includes two drive motors 42, two motion converters 43, two push rods 44, and one controller 41. The motion converter 43 converts this rotational motion into a linear reciprocating motion because the drive motor 42 makes a rotational motion, and can be used as a conventional reducer and a cam or a rotating disc. And the push rod 44 is fixed between the motion transducer 43 and the reflector 30 to rotate the reflector 30 in accordance with the movement of the motion transducer 43.

Here, the pusher 44 is provided with two because the sun is moving in the east, because one pusher tilted in the vertical direction and another pusher tilted in the left and right directions. Therefore, the two push rods 44 can adjust the inclination of the reflector 30 while properly pushing or pulling up and down and left and right according to the movement of the sun.

Next, the controller 41 controls the proper movement of the stick 44, and is a means for detecting the movement of the sun. At this time, the controller 41 directly detects the movement of the sun and operates the driving motor 42 according to the calculated data value, and controls the movement of the sun according to the season in advance to the constant movement over time. Can give ways to give.

Such control of the controller 41 is already being used in photovoltaic power generation, etc., and thus a detailed data processing method will be omitted.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, 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 invention as defined by the appended claims. .

1 is a schematic view for showing a heat collecting plate installation structure according to the present invention,

FIG. 2 is a view illustrating a structure in which the inclination of the reflector shown in FIG. 1 is changed.

Claims (3)

A heat collecting plate 10 for using solar heat and a reflecting plate 30 disposed above the heat collecting plate 10 and mounted on at least one or more mounts 20 to collect sun light into the heat collecting plate 10. Installation structure of a solar heat collecting plate, characterized in that it comprises a). 2. The ball flanger 31 is formed on the rear surface of the reflector 30 so that the reflector 30 moves in accordance with the movement of the sun to collect the sunlight into the heat collecting plate 10. It is coupled to the mount 20, the installation structure of the solar heat collecting plate, characterized in that the inclination converter is provided between the mount 20 and the reflecting plate (30). The method of claim 2, wherein the inclination converter has two drive motors 42, two movement transducers 43, two push rods 44 to move the reflector 30 in the vertical and horizontal directions Installation structure of a solar heat collecting plate, characterized in that consisting of a controller 41 for controlling the rotation of the drive motor (42).

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