KR102221975B1 - Movable multifunction high efficiency solar panel - Google Patents

Abstract

A movable multifunctional high-efficiency solar panel according to an aspect of the present invention includes a first solar panel that absorbs sunlight, and is provided to be vertically maintained with the first solar panel to absorb sunlight and the first solar panel. A second solar panel that absorbs sunlight reflected from the panel, and the first solar panel and the second solar panel are connected so that the first solar panel and the second solar panel are simultaneously vertically aligned. It may be provided with a rotating shaft to rotate.

Description

Movable multifunction high efficiency solar panel}

The present invention relates to a movable multifunctional high-efficiency solar panel, and more particularly, to a movable multifunctional high-efficiency solar panel capable of improving solar light efficiency.

In general, the solar light applied to the wall has an incidence angle of 14° in summer, 37.5° in spring and autumn, and 61° in winter. Induce complaints.

When the angle of incidence is low, the efficiency decreases as the reflectance increases, and when the angle of incidence is close to the winter season, the efficiency increases to 60° or more, and in the case of fixed solar light, the period for increasing annual efficiency is very small.

Tracking solar light is introduced to solve this problem, but the mechanical configuration for operation is very complicated due to the problem of having to operate in all directions in order to achieve 100% efficiency per solar panel.

In addition, it is impossible to apply a tracking type that operates in all directions to the wall of a building, so a solar system that operates only up and down is applied, but this is constituted by a structure to increase the efficiency per panel.

In particular, in the case of a building with a wide glass surface, there is a problem that an indoor greenhouse effect occurs due to incoming sunlight.

Korean Patent Registration No. 10-0961248 (2010.05.26)

The present invention has been conceived to solve the above problems, and an object of the present invention is to provide a movable multifunctional high-efficiency solar panel capable of condensing and recycling the reflected and discarded solar radiation.

And it is to provide a movable, multi-functional, high-efficiency solar panel that can improve solar efficiency by maintaining the solar altitude optimally.

A multifunctional high-efficiency solar panel according to an embodiment of the present invention for achieving the above object is provided with a first solar panel that absorbs sunlight, and is provided to be vertically maintained with the first solar panel to generate sunlight. A second solar panel that absorbs and absorbs sunlight reflected from the first solar panel, and the first solar panel and the second solar panel are connected by connecting the first solar panel and the second solar panel. The optical panel may be provided with a rotation shaft that rotates in the vertical direction at the same time.

The first solar panel and the second solar panel may be provided below the exterior windows of the building.

The building may be provided with a fixing member that is coupled to the rotation shaft to fix the first solar panel and the second solar panel to the building, and rotate the rotation shaft in the vertical direction at the same time as an axis.

The first solar panel and the second solar panel may be provided on a rooftop of a building or an outdoor parking lot.

A frame installed on the rooftop or outdoor parking lot of the building, and the first solar panel and the second solar panel are fixed to the frame by connecting the frame and the rotating shaft, and rotating the rotating shaft in the vertical direction at the same time as an axis. A connecting member may be further provided.

The first solar panel may include a first base plate and a first photovoltaic module provided on one surface of the first base plate to absorb sunlight.

The second solar panel may include a second base plate and a second solar module provided on one surface of the second base plate to absorb sunlight.

A motor that transmits power to the rotation shaft may be connected to the rotation shaft.

According to the movable multifunctional high-efficiency solar panel according to the present invention, it is possible to recycle by condensing the amount of insolation that is reflected and discarded.

And it is possible to improve the efficiency of sunlight by maintaining the solar altitude optimally.

1 is a perspective view of a movable multifunctional high-efficiency solar panel installed according to an embodiment of the present invention.
2 to 4 are cross-sectional views of the movable multifunctional high-efficiency solar panel shown in FIG. 1.
5 and 7 are views showing a modified example of the movable multifunctional high-efficiency solar panel shown in FIG. 1.

Hereinafter, a movable multifunctional high-efficiency solar panel according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view of a movable multifunctional high-efficiency solar panel installed according to an embodiment of the present invention, and FIG. 2 is a cross-sectional view of the movable multifunctional high-efficiency solar panel shown in FIG. 1.

1 and 2, the movable multifunctional high-efficiency solar panel 10 according to an embodiment of the present invention includes a first solar panel 100, a second solar panel 200, and a rotating shaft ( 300) may be provided.

The first solar panel 100 may include a first base plate 110 and a first photovoltaic module 120 provided on one surface of the first base plate 110 to absorb sunlight. The first solar module 120 may be fixed to the first base plate 110 to absorb sunlight.

The second solar panel 200 is provided to be vertically maintained with the first solar panel 100 through a rotation shaft 300 to be described later, and one surface of the second and second base plates 210 and 210 It may be provided with a second solar module 220 for absorbing sunlight. The second solar module 220 may be fixed to the second base plate 210 to absorb sunlight.

Here, the sunlight reflected but not absorbed by the first solar module 120 is absorbed by the second solar module 220 of the second solar panel 200, and conversely, the second solar module 220 Solar light reflected without being absorbed may be absorbed by the first solar module 120 of the first solar panel 100. In this way, by absorbing the reflection amount of solar radiation discarded from the surface of the first solar panel 100 or the second solar panel 200, the effect of relatively increasing power generation efficiency can be exhibited.

The rotation shaft 300 connects the first solar panel 100 and the second solar panel 200, so that the first solar panel 100 and the second solar panel 200 are held vertically at the same time. It can be rotated in the vertical direction.

Here, the first solar panel 100 and the second solar panel 200 are provided below the outer window 21 of the building 20, and the first solar panel 100 and the second solar panel ( A fixing member 23 may be provided for the 200 to easily rotate the rotation shaft 300 as an axis.

The fixing member 23 is provided in a form protruding from the outer wall surface 22 of the building 20, and the rotating shaft 300 may be connected to one end of the protruding end. The rotation shaft 300 connected to the fixing member 23 rotates the fixing member 23 as an axis, and accordingly, the first solar panel 100 and the second solar panel 200 connected to the rotation shaft 300 rotate at the same time. can do. In addition, a motor 600 that transmits power to the rotation shaft 300 is connected to the rotation shaft 300 to rotate the first solar panel 100 and the second solar panel 200 through the motor 600. .

Meanwhile, in the case of the second solar panel 200 and the fixing member 23, the second solar panel 200 and the fixing member 23 are provided in a form protruding from the outer wall surface 22 of the building 20. It may be located outside the outer window 21 located on the lower side of the. Accordingly, the second solar panel 200 and the fixing member 23 serve as a shade for the outer window 21 located under the second solar panel 200, thereby reducing the amount of solar radiation flowing into the room. have. Accordingly, an increase in the indoor temperature is lowered, and thus an effect of reducing the demand for cooling can be exhibited.

The following will describe the movable multifunctional high-efficiency solar panel 10 operated according to the altitude of the sun. In the following description, only portions different from those of the above-described embodiment will be described in detail, and detailed descriptions of the same or extremely similar portions will be omitted.

3 and 4 are cross-sectional views of the movable multifunctional high-efficiency solar panel shown in FIG. 1.

1 to 4, a movable multifunctional high-efficiency solar panel 10 according to an embodiment of the present invention includes a first solar panel 100 and a first solar panel 100 for absorbing sunlight. The second solar panel 200 and the first solar panel 100 and the second solar light are provided so as to be maintained perpendicular to and absorb sunlight and absorb sunlight reflected from the first solar panel 100 A rotation shaft 300 may be provided to connect the panel 200 so that the first solar panel 100 and the second solar panel 200 rotate in the vertical direction at the same time.

First, FIG. 2 shows a first solar panel 100 and a second solar panel 200 in summer. The average solar altitude in summer is 76 degrees, and the first solar panel 100 can be rotated to incline 31 degrees in a state perpendicular to the ground in order to exhibit an optimal light collecting effect. At this time, the second solar panel 200 may be rotated to be inclined by 31 degrees while being horizontal with the ground at the same time.

3 is a solar elevation in spring and autumn, and the first solar panel 100 is rotated to be inclined by 7.5 degrees in a state perpendicular to the ground, and at the same time, the second solar panel 200 is in a state of 7.5 degrees in a state horizontal to the ground. Also can be provided to be rotated so as to be inclined. Since the solar altitude in spring and autumn is 52.5 degrees, which is lower than 76 degrees, which is the summer solar altitude, the first solar panel 100 and the second solar panel 200 are rotated at the same time to sufficiently absorb sunlight even at a low solar altitude. can do.

4 is a solar altitude in winter. The first solar panel 100 is rotated to be inclined 16 degrees in a state perpendicular to the ground, and at the same time, the second solar panel 200 is inclined 16 degrees in a state horizontal to the ground. It may be provided to be rotated so as to be retained. Since the solar altitude in winter is 29 degrees, which is lower than the solar altitude of 52.5 degrees in spring and autumn, the first solar panel 100 and the second solar panel 200 are rotated at the same time to sufficiently absorb sunlight even at low solar altitudes. can do.

In this way, by rotating the first solar panel 100 and the second solar panel 200 simultaneously in the vertical direction according to the solar altitude, the first solar panel 100 and the second solar panel are sufficiently absorbed throughout the four seasons. It is possible to exert an effect of increasing the condensing efficiency of the solar panel 200.

Next, a modified example of the movable multifunctional high-efficiency solar panel 10 according to an embodiment of the present invention will be described. In the following description, only portions different from those of the above-described embodiment will be described in detail, and detailed descriptions of the same or extremely similar portions will be omitted.

5 and 7 are views showing a modified example of the movable multifunctional high-efficiency solar panel shown in FIG. 1.

1 to 7, a movable multifunctional high-efficiency solar panel 10 according to an embodiment of the present invention includes a first solar panel 100 and a first solar panel 100 that absorb sunlight. The second solar panel 200 and the first solar panel 100 and the second solar light are provided so as to be maintained perpendicular to and absorb sunlight and absorb sunlight reflected from the first solar panel 100 A rotation shaft 300 may be provided to connect the panel 200 so that the first solar panel 100 and the second solar panel 200 rotate in the vertical direction at the same time.

In addition, the first solar panel 100 and the second solar panel 200 may be provided on the roof 24 of the building 20 or the outdoor parking lot 30.

When the first solar panel 100 and the second solar panel 200 are installed on the rooftop 24 of the building 20 or the outdoor parking lot 30, the frame 400 and the connecting member 500 are added. It can be provided with.

The frame 400 serves to fix the first solar panel 100 and the second solar panel 200 to the roof 24 of the building 20 or the outdoor parking lot 30, and the connecting member 500 By connecting the frame 400 and the rotation shaft 300, the first solar panel 100 and the second solar panel 200 may be fixed to the frame 400 and the rotation shaft 300 may rotate. At this time, the frame 400 has an angle of 20 degrees between the rotating shaft 300 and the ground, so that when the existing PV structure is installed, it is lower than 30 degrees, which is an angle made with the ground, thereby enhancing overall structural safety.

In addition, the first solar panel 100 and the second solar panel 200 connected to the frame 400 through the connection member 500 are vertically oriented according to the solar altitude, as when provided on the outer wall of the building 20. As it rotates at the same time, it can sufficiently absorb sunlight throughout the four seasons, thereby enhancing the condensing efficiency.

In the above, a movable multifunctional high-efficiency solar panel according to an embodiment of the present invention has been described, but the spirit of the present invention is not limited to the embodiment presented herein. And those skilled in the art who understand the spirit of the present invention will be able to easily propose other embodiments by adding, changing, deleting, adding, etc., components within the scope of the same idea, but this also falls within the spirit scope of the present invention. will be.

10: Movable multi-functional high-efficiency solar panel
20: building 21: exterior windows
22: outer wall surface 23: fixing member
24: rooftop 30: parking lot
100: first solar panel 110: first base plate
120: first solar module 200: second solar panel
210: second base edition 220: second solar module
300: rotary shaft 400: frame
500: connecting member 600: motor

Claims (8)

A first solar panel that absorbs sunlight,
A second solar panel provided to be perpendicular to the first solar panel to absorb sunlight and absorb sunlight reflected from the first solar panel;
And a rotation shaft connecting the first solar panel and the second solar panel so that the first solar panel and the second solar panel rotate in a vertical direction at the same time,
The first solar panel includes a first base plate, and a first solar module provided on one surface of the first base plate to absorb sunlight,
The second solar panel includes a second base plate, and a second solar module provided on one surface of the second base plate to absorb sunlight,
A motor for transmitting power to the rotation shaft is connected to the rotation shaft,
The first solar panel and the second solar panel are provided on a rooftop of a building or an outdoor parking lot,
A frame installed on the rooftop or outdoor parking lot of the building, and the first solar panel and the second solar panel are fixed to the frame by connecting the frame and the rotational shaft, and the rotational axis as an axis at the same time in the vertical direction by itself. Movable multifunctional high-efficiency solar panel, characterized in that further provided with a connecting member to rotate. delete delete delete delete delete delete delete

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