KR102228809B1 - Package structure of photovoltaic panel - Google Patents

Abstract

The present invention, each of the support frame 10 having a predetermined length and arranged to be spaced apart from each other at a predetermined interval; A plurality of coupling pieces 22 that are spaced apart from each other and coupled to each support frame 10, one portion is rotatably coupled to one portion of each coupling piece 22, and the other portion forms a certain angle upward. The first angle adjustment rod 24 extending to one portion of the support frame 10, the other portion being rotatable to one portion of each coupling piece 22 to which one portion of the first angle adjustment rod 24 is coupled. A second angle adjustment base 26 that is coupled and one part forms a certain angle upward and extends to the other part of the support frame 10, but has a certain length, but one part is one side of each of the first angle adjustment bars 24 An angle adjustment frame 20 provided with a mount 28 rotatably coupled to the portion and the other portion rotatably coupled to the other portion of each second angle adjustment table 26; It provides a solar panel structure including a solar panel 30 in which each of the left and right corner portions face each other and is placed on and coupled to the upper surface of each of the adjacent cradles 28.

Description

Solar panel structure {Package structure of photovoltaic panel}

The present invention relates to a solar panel structure, and more specifically, by supporting the solar panel with an assembly structure of a metal tube, very easy construction is possible, and furthermore, by adjusting the installation angle of the solar panel by simple adjustment, it can be adjusted for each season. It relates to a solar panel structure capable of improving the energy yield of the solar panel.

In recent years, interest in solar power that can be used indefinitely as well as eco-friendly as a means to prevent environmental pollution due to rapid depletion of fossil fuels and excessive use of fossil fuels is increasing. The most commonly known method of obtaining energy using solar light is the use of solar panels.

In this method, a solar panel having a certain size is installed on the roof or ground of a building, and electricity is generated and used by using the photoelectric effect of sunlight incident on the solar panel. At this time, the photoelectric effect of sunlight depends entirely on the incident energy of sunlight, and this incident energy is related to the incident angle to the solar panel.

Therefore, in the case of installing a solar panel on the roof or the ground of a building, as disclosed in FIG. 5, in consideration of the solar elevation angle (especially based on the maximum solar elevation angle in summer) during the day when the solar elevation is the highest. After constructing the supporting structure in an inclined state at a certain angle, solar panels are installed and operated.

On the other hand, the maximum elevation angle of the sun during the day has a very large variation depending on the season. Once the structure of the structure shown in FIG. 5 is completed, the structural characteristics of the solar panel are seasonal, unless the structure itself is dismantled. It is impossible to change the angle of inclination. For this reason, since the energy yield of the solar panel, which is already less efficient, is further lowered, an improvement plan is needed.

Korean Registered Patent No. 1493967

The present invention has been proposed to improve the problems of the prior art, and an object of the present invention is to provide a solar panel structure capable of very easily adjusting the installation angle of the solar panel for each season as a simple structure.

형상으로 이루어지며, 상기 제1각도조절대(24)의 각 일측 부위 및 상기 제2각도조절대(26)의 각 타측 부위는 양단 부위가 결합편(22)의 상측 부위를 관통하는 제1체결핀(23)에 회동 가능하게 결합되고, 상기 제1각도조절대(24)의 각 타측 부위는 제2체결핀(25)에 의해 거치대(28)의 일측 부위에 회동 가능하게 결합되고, 상기 제2각도조절대(26)의 각 일측 부위는 제3체결핀(27)에 의해 거치대(28)의 타측 부위에 회동 가능하게 결합되며, 상기 거치대(28) 각각의 일측 부위 측면 및 타측 부위 측면에는 복수 개의 제1, 2각도조절공(284, 286)이 형성되고, 상기 제2, 3체결핀(25, 27) 각각은 상기 제1, 2각도조절공(284, 286) 중의 어느 하나에 관통 삽입되는 것을 그 기술적 특징으로 한다.In order to achieve this object, the present invention includes a support frame 10 each having a predetermined length and spaced apart from each other at a predetermined interval; A plurality of coupling pieces 22 that are spaced apart from each other and coupled to each support frame 10, one portion is rotatably coupled to one portion of each coupling piece 22, and the other portion forms a certain angle upward. The first angle adjustment rod 24 extending to one portion of the support frame 10, the other portion being rotatable to one portion of each coupling piece 22 to which one portion of the first angle adjustment rod 24 is coupled. A second angle adjustment base 26 that is coupled and one part forms a certain angle upward and extends to the other part of the support frame 10, but has a certain length, but one part is one side of each of the first angle adjustment bars 24 An angle adjustment frame 20 provided with a mount 28 rotatably coupled to the portion and the other portion rotatably coupled to the other portion of each second angle adjustment table 26; Including a solar panel 30, wherein each of the left and right corner portions are opposed to each other and is mounted and coupled to the upper surface of each of the adjacent cradles 28, wherein the coupling piece 22 has a cross section.

It is made in a shape, and each one portion of the first angle adjustment rod 24 and each other portion of the second angle adjustment rod 26 have a first fastening with both ends passing through the upper portion of the coupling piece 22 It is rotatably coupled to the pin 23, and each other portion of the first angle adjuster 24 is rotatably coupled to one portion of the cradle 28 by a second fastening pin 25, and 2 Each one side of the angle adjustment base 26 is rotatably coupled to the other side of the cradle 28 by a third fastening pin 27, and the side of one side and the other side of each of the cradle 28 A plurality of first and second angle adjustment holes (284, 286) are formed, and each of the second and third fastening pins (25, 27) penetrates through any one of the first and second angle adjustment holes (284, 286). It is characterized by being inserted.

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Since the present invention is made of a simple metal tube assembly structure, very easy construction is possible regardless of the installation location such as a building or the ground, and the angle of incidence of sunlight on the solar panel can be easily adjusted by simply adjusting the position of the fastening pin. It is possible to improve the energy yield of the solar panel according to the season because it is adjustable

1 is a schematic plan configuration diagram of a solar panel structure according to the present invention.
2 is a schematic side view of a solar panel structure according to the present invention.
3 is a schematic cross-sectional view of a solar panel structure according to the present invention.
4 is a schematic perspective view of a support frame and an angle adjustment frame in the solar panel structure according to the present invention.
5 is a schematic configuration diagram of a conventional solar panel structure.

A detailed look at the preferred embodiments according to the present invention with reference to the accompanying drawings is as follows. In the above description of the embodiments of the present invention, there is no direct relationship to the technical features of the present invention, or in the technical field to which the present invention pertains. For matters that are self-evident to those with knowledge of, detailed explanations will be omitted.

Each of FIGS. 1 to 3 shows a schematic plan configuration diagram, a side configuration diagram, and a cross-sectional configuration diagram of a solar panel structure according to the present invention, and FIG. 4 is a support frame and angle in the solar panel structure according to the present invention. It shows a schematic perspective configuration diagram of the control frame.

As disclosed in each of the drawings, the present invention basically has a technical feature of proposing a solar panel structure comprising a support frame 10, an angle adjustment frame 20, and a solar panel 30. Hereinafter, each of these configurations will be described in more detail.

형관 등으로 이루어질 수 있음은 물론이다.The support frame 10 is a means for supporting each part constituting the present invention, and is composed of a plurality of pieces that are spaced apart from each other at a predetermined interval, each of which is made of a metal tube having a predetermined length. 4 shows a case where the support frame 10 is made of a b-shaped tube, but is not limited thereto, and a rectangular tube,

Needless to say, it can be made of a form, etc.

On the other hand, although an example in which the support frame 10 is disposed horizontally is disclosed in FIG. 2, the present invention does not exclude the case where the other portion of each support frame 10 is disposed at a certain angle upward. Reference numeral 1 denotes a vertical frame, and when the support frame 10 achieves a certain angle, the vertical height of each of the vertical frames must also be different.

The angle adjustment frame 20 is a means for supporting the solar panel 30 to be described later and at the same time adjusting the seating angle of the solar panel 30, the coupling piece 22, the first and second angle adjustment tables 24 , 26), including a cradle (28).

형상으로 이루어질 수 있으며, 이럴 경우 각 결합편(22)은 용접이나 볼트 등에 의해 지지프레임(10)에 고정 결합될 수 있다.The coupling piece 22 is a portion that is fixedly coupled to the support frame 10, and consists of a plurality of pieces that are spaced apart from each other and coupled to each support frame 10. At this time, each coupling piece 22 has a cross section

It may be formed in a shape, in this case, each coupling piece 22 may be fixedly coupled to the support frame 10 by welding or bolts.

As shown in FIG. 4, the first angle adjustment rod 24 is rotatably coupled to one portion of each coupling piece 22, and the other portion forms a certain angle upward and one side of the support frame 10. Extends to the site. The second angle adjustment base 26 is coupled to the other side of which is rotatably coupled to one side of each coupling piece 22, and the side of the second angle is formed at a certain angle upward and extends to the other side of the support frame 10. .

That is, in each of the second angle adjusters 26, the other portion is rotatably coupled to one portion of the coupling piece 22 to which one portion of the first angle adjuster 24 is coupled. At this time, at the upper portion of the coupling piece 22, both ends of the first fastening pin 23 penetrate and are coupled, and each one portion of the first angle adjustment rod 24 and each of the second angle adjustment rod 26 The other portion may be rotatably coupled to the first fastening pin 23.

형관, 또는 철판스트립 중의 어느 하나로 이루어지는 경우를 배제하지 않는다.In the drawings, it is disclosed that each of the first and second angle adjusters 24 and 26 is made of a shape b, but the present invention is not limited thereto, and each of the first and second angle adjusters 24 and 26 is a rectangular shape or ,

It does not exclude the case where it consists of either a mold tube or an iron plate strip.

On the other hand, according to Figure 2, the present invention has a feature in which the lengths of the first and second angle adjusters 24 and 26 are configured differently from each other, which allows the solar panel 30 to move at an elevation angle of the sun (circumferential movement in the installation area). It is to easily adjust the angle of incidence of sunlight according to the maximum altitude angle or the average maximum altitude angle for each season).

The cradle 28 is rotatably coupled with one portion of the first angle adjustment rod 24, and the other portion of the holder 28 is rotatably coupled with the other portion of the second angle adjustment rod 26. . The cradle 28 may be formed of a conventional square tube having a predetermined length, a shape tube of various structures, or an aluminum bar.

At this time, as shown in FIG. 4, second and third fastening pins 25 and 27 are provided at each of the one side and the other side of the cradle 28, and each other side of the first angle adjustment bar 24 is a second fastening pin. It is rotatably coupled to (25), each one side of the second angle adjustment table 26 may be rotatably coupled to the third fastening pin (27).

On the other hand, the present invention proposes a case in which a plurality of first and second angle adjustment holes 284 and 286 are formed on one side and the other side of each of the cradle 28, as disclosed in FIG. 4. Each of the first and second angle adjustment holes 284 and 286 is a portion to which each of the second and third fastening pins 25 and 27 is selectively inserted and fastened.

If, the first and second angle adjustment holes 284 and 286 are formed on the side of one side and the side of the other side of the cradle 28, respectively, and the second and second angle adjustment holes 284 and 286 are respectively When the first and second angle adjusters 24 and 26 are coupled to the second and third fastening pins 25 and 27 in a state where the three fastening pins 25 and 27 are inserted in different positions, each The solar panel 30 can be installed at a wide variety of angles.

As shown in FIG. 3, the photovoltaic panel 30 is mounted and coupled to the upper surface of each of the holders 28, where each of the left and right corner portions face each other and are adjacent to each other. The solar panel 30 may be formed of a conventional solar panel commonly used in the related industry.

At this time, as disclosed in each of FIGS. 1 and 3, the solar panel 30 may be positioned adjacent to the left and right on the upper surface of the cradle 28 supported by the support frame 10 disposed in the middle part. In this case, each of the solar panels 30 may be configured to be installed by being combined with any one of the fastening holes 282 formed in the upper surface portions of both sides of the cradle 28.

In the above, the description has been limited to the preferred embodiments of the present invention, but this is only an example, and the present invention is not limited thereto and may be changed and implemented in various ways, and further, a separate technical feature is provided based on the disclosed technical idea. It will be apparent that it can be added and implemented.

10: support frame 20: angle adjustment frame
30: solar panel

Claims (3)

A support frame 10, each of which has a predetermined length and is spaced apart from each other by a predetermined interval;
A plurality of coupling pieces 22 that are spaced apart from each other and coupled to each support frame 10, one portion is rotatably coupled to one portion of each coupling piece 22, and the other portion forms a certain angle upward. The first angle adjustment rod 24 extending to one portion of the support frame 10, the other portion being rotatable to one portion of each coupling piece 22 to which one portion of the first angle adjustment rod 24 is coupled. A second angle adjustment base 26 that is coupled and one part forms a certain angle upward and extends to the other part of the support frame 10, but has a certain length, but one part is one side of each of the first angle adjustment bars 24 An angle adjustment frame 20 provided with a mount 28 rotatably coupled to the other portion of each second angle adjustment base 26 and the other portion rotatably coupled to the portion;
Including; a photovoltaic panel 30 in which each of the left and right corner portions face each other and is placed on and coupled to the upper surface of each of the adjacent cradles 28,
The coupling piece 22 has a cross section

It is made in a shape, and each one portion of the first angle adjustment table 24 and each other portion of the second angle adjustment table 26 have a first fastening with both ends passing through the upper portion of the coupling piece 22 It is rotatably coupled to the pin 23, and each other side of the first angle adjustment base 24 is rotatably coupled to one side of the cradle 28 by a second fastening pin 25, and the Each one side of the second angle adjustment base 26 is rotatably coupled to the other side of the holder 28 by a third fastening pin 27,
A plurality of first and second angle adjustment holes 284 and 286 are formed on one side of the cradle 28 and the side of the other side, respectively, and each of the second and third fastening pins 25 and 27 is the first , The solar panel structure, characterized in that inserted through any one of the two angle adjustment holes (284, 286). delete delete

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