KR101425936B1 - Photovoltaic power generation apparatus - Google Patents

Abstract

The present invention relates to a photovoltaic power generation apparatus which includes a support frame where one or more solar cell modules are mounted; a vertical frame which has a pair of guide members which is hinged with the lower part of the support frame to be rotated in a vertical direction, fixes the support frame with a setting height from an installation surface, and has a tilt angle to face each other at both sides of the lower part and selectively opens a side in the longitudinal direction of the guide member; a fixing frame which is inserted into the guide members, respectively and fixes the vertical frame to the installation surface and an altitude angle control part which is interposed between the support frame and the vertical frame and selectively fixes the angle of altitude of the support frame.

Description

[0001] The present invention relates to a photovoltaic power generation apparatus,

The present invention relates to a solar power generation device, and more particularly, to a solar power generation device capable of changing an altitude angle of a solar cell module according to an altitude of the sun and installing the solar cell module on a mounting surface without a separate process.

Alternative energy is being developed as fossil fuels such as petroleum and coal are depleted. Especially, energy resources utilizing solar energy are being actively developed.

Power generation technologies that utilize solar energy to produce electricity include solar power generation that uses solar heat to drive a heat engine to generate electricity, and solar power that generates electricity from solar cells using solar light.

Here, a solar cell used for solar power generation includes a semiconductor compound element that converts sunlight directly into electricity.

In the solar cell used for the solar power generation, silicon and a composite material are usually used. Specifically, a solar cell uses a P-type semiconductor and an N-type semiconductor in combination, and utilizes a photoelectric effect to generate electricity by receiving sunlight.

Most of the solar cells are composed of large-area P-N junction diodes, and the electromotive force generated at the opposite ends of the P-N junction diode is connected to an external circuit.

The minimum unit of such a solar cell is referred to as a cell. Actually, the solar cell is rarely used as a cell.

This is because the voltage from one cell is very small, about 0.5 V, compared to several tens or hundreds of volts (V) of voltage required for practical use. This is why a plurality of unit solar cells can be connected in series or parallel It is connected and used.

In addition, when the solar cell is used outdoors, it is subjected to various harsh environments. Therefore, in order to protect a plurality of cells connected with a necessary unit capacity in a harsh environment, a solar cell module .

However, since the solar cell module must be used in a large amount in order to obtain a constant electric power, there is a restriction on the installation site and the restriction of the lower support structure due to the arrangement structure of the solar cell module is restricted, There is no problem in the case of outdoor facilities, but in case of installing in a multi-family house that occupies a large number of houses, it is difficult to individually install in a household.

In addition, since the supporting structure for supporting the conventional solar cell module is often joined by welding, the main frames and the supporting frames for supporting the solar cell modules, the supporting columns for supporting the main frame to the ground are respectively welded once, There is a difficulty in adjusting the arrangement state when welding is completed.

Particularly, in the case of a fixed support structure supporting a large number of solar cell modules in a large amount, the arrangement angle is fixed, and there is a limitation in adjusting the arrangement angle of the solar cell module according to the change of the sun height according to the season change. There is still a problem that the electricity production efficiency is lowered.

In Korea, when we look at the southern altitude of each season considering the latitude (38 °), the summit altitude of the sun is about 52 °, the altitude is 75.5 °, and the winter solstice is 28.5 °.

However, since the conventional solar power generation apparatus is installed with a fixed angle toward the south-east, there is an urgent need to take measures to cope with a large variation in electricity production amount by season.

In addition, as the eco-friendly energy business becomes more visible and solar power generation becomes more important, facilities for large-capacity photovoltaic power generation are required. However, There is a limit that requires a facility capable of supporting it.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems and it is an object of the present invention to provide a solar cell module capable of changing the altitude angle of the solar cell module according to position and season in accordance with the change in altitude of the sun, Power generation device.

According to an aspect of the present invention, there is provided a solar cell module comprising: a supporting frame on which one or a plurality of solar cell modules are mounted; A pair of guide members hinged to the lower side of the support frame so as to be rotatable in the vertical direction and fixed to the set height from the mounting surface of the support frame and having downward inclination angles so as to oppose each other on the lower end side A vertical frame in which a side surface is selectively opened along the longitudinal direction of the guide member; And a height angle adjuster interposed between the support frame and the vertical frame to selectively fix the elevation angle of the support frame. And a solar cell.

Wherein the guide member includes a first engagement piece projecting outwardly along a longitudinal direction on one side surface, a second engagement piece projecting to face the first engagement piece on the other side, And an engaging member for selectively engaging the engaging member.

The fixed frame is guided into the space between the first and second engagement pieces in a state in which the engagement of the first engagement piece and the second engagement piece is released, And a guide member provided on the guide member.

The vertical frame may be fixed by the fixed frame while being spaced apart from the mounting surface by a predetermined interval.

The Saik photovoltaic power generation apparatus may further include an auxiliary frame temporarily disposed at the setting interval formed between the vertical frame and the installation surface to maintain the setting interval when the vertical frame is installed.

The elevation angle control unit includes an adjustment frame coupled to one side of the support frame so as to be rotatable at one end thereof and having a second end selectively coupled to one side of the vertical frame, And a fastener that simultaneously passes through the fastening holes formed on one side of the vertical frame to dispose the fastening holes on the fastening holes.

The fixing frame may include a sealing member guiding through the guide member to set a depth to be inserted into a lower portion of the mounting surface and shielding the upper end of the guide member and the fixing frame.

In the photovoltaic device according to the embodiment of the present invention,

First, it can be installed on the installation side without any foundation process,

Second, it is easy to dismantle due to easy installation, it is not discharged as industrial waste due to demolition,

Third, grounding work can be done together with installation work,

Fourth, it is possible to adjust the elevation angle according to the altitude of the sun, so that the solar power generation effect of optimum efficiency can be expected.

1 is a perspective view partially showing a photovoltaic device according to a first embodiment of the present invention.
Fig. 2 is a front view showing the photovoltaic generator shown in Fig. 1. Fig.
3 is a perspective view showing the vertical frame shown in Fig.
4 is a perspective view showing a vertical frame of the photovoltaic device according to the second embodiment of the present invention.
5 is a perspective view showing the fixed frame shown in Fig.
6 to 8 are reference views showing the photovoltaic generator shown in Fig.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. The terms and words used in the specification and claims should not be construed to be limited to ordinary or dictionary meanings, and the inventor should appropriately define the concept of the term to describe its invention in the best way possible It should be construed in the meaning and concept consistent with the technical idea of the present invention.

FIG. 1 is a perspective view partially showing a solar cell apparatus 100 according to a first embodiment of the present invention, FIG. 2 is a front view showing the solar cell apparatus 100 shown in FIG. 1, 2 is a perspective view showing the vertical frame 120 shown in Fig.

1 to 3, the photovoltaic device 100 according to the first embodiment of the present invention includes a support frame 110 for supporting the solar cell module 10 from below, A vertical frame 120 supporting the vertical frame 120 from below to be rotatable in the vertical direction, a fixed frame 130 fixing the vertical frame 120 to the mounting surface, and a vertical frame 120 interposed between the vertical frame 120 and the support frame 110 And an altitude angle adjuster interposed between the support frame 110 and the support frame 110 to adjust the altitude of the support frame 110.

The photovoltaic device 100 according to the embodiment of the present invention is characterized in that the solar cell module 10 is arranged long in a lateral direction and a plurality of the solar cell modules 10 are arranged in a grid structure on the support frame 110, Structure and the number of the solar cell modules 10 can be changed.

Although not shown in the drawing, the solar cell modules 10 may be arranged in a horizontal direction so as to be spaced apart from other adjacent solar cell modules by a plurality of grid-like patterns.

This is for the purpose of allowing wind and snow to move when an external force such as wind or snow is generated in the solar cell module 10. The solar cell module 10 not only forms an interval in the horizontal direction, It is also possible to arrange them at different elevations so as to generate a height difference.

The solar cell module 10 is supported and fixed by the support frame 110 and is spaced apart in the horizontal direction or on the support frame 110 even when the solar cell module 10 is vertically mounted at a different height, .

As shown in FIG. 2, the support frame 110 is hinged to be vertically rotatable from the vertical frame 120, so that the elevation angle can be adjusted.

One end of the vertical frame 120 is hinged to the support frame 110 and the other end of the vertical frame 120 is fixed at a predetermined height adjacent to the installation surface while the fixed frame 130 is inserted into the lower end.

At this time, as shown in FIG. 3, a pair of guide members 121 are provided on both sides of the other end of the vertical frame 120. The guide member 121 has a hollow pipe shape with an empty interior and is provided with a downward inclination angle with respect to the vertical frame 120. Therefore, since the fixed frame 130 is inserted through the guide member 121 and is fixed to the bottom of the mounting surface, the vertical frame 120 can be firmly fixed.

The guide member 121 may include a guide member 121 provided on one side of the other end of the vertical frame 120 and a guide member 121 provided on the other side of the guide member 121 so as to be parallel or non- The downward inclination angle is formed to have a range of about 20 to 75 degrees with respect to the installation surface. Of course, the angles of the guide members 121 may be varied on the vertical frame 120 according to the inclination or flatness of the installation surface.

When the vertical frame 120 is fixed on the mounting surface, the vertical frame 120 is disposed between the bottom surface of the vertical frame 120 and the mounting surface so as to maintain a predetermined height on the mounting surface .

The auxiliary frame 150 can be selectively removed after the vertical frame 120 and the fixed frame 130 are completely fixed.

FIG. 4 is a perspective view showing a vertical frame 220 of the photovoltaic device 100 according to the second embodiment of the present invention, and FIG. 5 is a perspective view showing the fixed frame 230 shown in FIG.

4 and 5, the photovoltaic device 100 according to the second embodiment of the present invention is provided such that a part of the guide member 221 can be selectively opened.

The pair of guide members 221 are disposed on opposite sides of the vertical frame 220. The guide members 221 are disposed on one side along the longitudinal direction of the outer surface of the guide member 221, A second engaging piece 223 protruding to face the first engaging piece 222 on the other side and a second engaging piece 223 protruding from the first engaging piece 222 and the second engaging piece 223 (Not shown).

Therefore, before the first engaging piece 222 and the second engaging piece 223 are engaged by the engaging piece 224, the first engaging piece 222 and the second engaging piece 223 are opposed to each other A guide surface (not shown) is formed.

The fixed frame 230 is guided by the guiding surface formed between the first engaging piece 222 and the second engaging piece 223 so as to be guided along the longitudinal direction on the outer peripheral surface of the fixed frame 230, Member (233).

The guided member 233 guides the direction of the fixing frame 230 and is fixed to the lower side of the mounting surface, and provides a function of attaching a fixing force.

The fixing frame 230 fixed to the mounting surface through the guide member 221 is mounted on the guide member 221 by the engagement of the first engaging piece 222 and the second engaging piece 223, The fixing frame 230 can be more firmly fixed.

The fixed frame 230 is guided through the guide member 221 to set the depth to be inserted into the lower part of the mounting surface and further shields the upper end of the guide member 221 and the fixed frame 230 And a sealing member 134.

The sealing member 134 can adjust the engaging position on the fixing frame 230 so that the fixing frame 230 is fixed on the guide member 221 at a depth corresponding to the engaging position of the sealing member 134, And a space between the guide member 221 and the fixed frame 230 may be shielded to prevent foreign matter from flowing between the guide member 221 and the fixed frame 230.

5, the fixed frame 230 is provided with a grounding member 131 for connecting the supporting frame 110 or the vertical frame 220 to the mounting surface.

The grounding member 131 includes a contact member 131a that is sharply projected at one end of the fixed frame 230 to be in contact with the ground and a contact member 131a disposed inside the fixed frame 230, And a wire 131c extending from the other end of the fixing frame 230 and protruded from the connecting member 131b and coupled to one side of the vertical frame 220 .

The contact member 131a is made of a conductive material and protrudes from one end of the fixed frame 230 and is connected to the connection member 131b disposed inside the fixed frame 230. [ Further, the contact member 131a is formed with a pointed end so that it can be easily stuck to the lower side of the installation surface when the fixing frame 230 is installed.

The contact member 131a is disposed at one end of the connecting member 131b and the wire 131c is disposed at the other end of the connecting member 131b. The wire 131c is fixed to the fixing frame 230 while the fixing frame 230 is installed. (132) formed at the other end of the fixed frame (230) so as to be stored inside the other end of the frame (230).

The wire 131c is broken when the fixing frame 230 is installed in a space formed between the inside of the other end of the fixing frame 230 and the other end of the connecting member 131b, So that it can be prevented from falling.

When the fixing frame 230 is completely installed, the tip of the wire 131c is connected to the guide member 221 or the vertical frame 220 so that the ground potential of the photovoltaic device 100 is the same It is possible to protect the photovoltaic device 100 from a non-ideal overcurrent or an overvoltage such as a lightning strike or a short circuit, and to prevent the risk to the human body.

Thus, according to the photovoltaic apparatus 100 according to the present invention, it is possible to fix the photovoltaic apparatus 100 on the installation surface and to perform ground work, thereby reducing the construction cost.

Also, uniform pressure and anti-buckling force can be maintained through the fixed frame 230 to prevent a curving phenomenon, and a stable fixing force can be ensured.

In addition, among other things, the method of fixing the fixed frame 230 without grasping the ground is excellent in working efficiency, and the construction period can be remarkably shortened compared with other foundation works.

6 to 8 are reference views showing the photovoltaic device 100 shown in Fig.

6 to 8, the photovoltaic device 100 can adjust the installation angle corresponding to the altitude of the sun.

The elevation angle control unit includes an adjustment frame 141 coupled to one side of the support frame 110 so as to be rotatable at one end thereof and having the other end selectively coupled to one side of the vertical frame 220, A plurality of engagement holes 142 formed at regular intervals at the other end of the adjustment frame 141 along the longitudinal direction of the frame 141 and a fastening hole 143 formed at one side of the vertical frame 220, And a fastener 144 for fixing the coupling hole 142 on the coupling hole 143.

As shown in FIG. 6, in the vicinity of the high altitude of the sun or at the vicinity of the equator, the solar cell module 10 is positioned in the vicinity of the other end of the adjustment frame 141, 142 and the fastening hole 143 are fastened together by the fastener 144.

Also, when the solar power generation apparatus 100 is to be protected by a typhoon or an extreme external force regardless of the solar power generation amount, it is desirable to maintain the elevation angle at a high level.

As shown in FIG. 7, in the middle of the equator and the polar regions in the middle of spring, autumn, or the southern and northern hemispheres, where the altitude of the sun is a middle height, the altitude of the solar cell module 10 is kept lower, The fastening hole 142 of the fastening member 141 is engaged with the fastening hole 143 and the fastening hole 143 located at the intermediate portion.

As shown in FIG. 8, the solar cell module 10 is positioned farthest from the end of the adjustment frame 141 so that the solar cell module 10 is held higher than in FIGS. 6 and 7 in a place where the solar altitude is low, And the fastening hole 143 and the fastener 144 are engaged with each other.

As a result, the solar power generation apparatus 100 can easily adjust the elevation angle according to the season, area, or location, thereby achieving the optimum efficiency of solar power generation.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

100: Photovoltaic device
110: support frame 120: vertical frame
121, 221: guide member 222: first engagement piece
223: second engaging piece 224: engaging member
130, 230: fixed frame 131: grounding member
131a: contact member 131b: connecting member
131c: wire 132: storage groove
134: sealing member 233:
140: altitude angle adjuster 141: adjustment frame
142: engaging hole 143: engaging hole
144: fastener 150: auxiliary frame

Claims (7)

A support frame on which one or a plurality of solar cell modules are mounted;
A pair of guide members hinged to the lower side of the support frame so as to be rotatable in the vertical direction and fixed to the set height from the mounting surface of the support frame and having downward inclination angles so as to oppose each other on the lower end side A vertical frame in which a side surface is selectively opened along the longitudinal direction of the guide member;
A fixed frame inserted into the guide members to fix the vertical frame from the mounting surface,
A height angle adjuster interposed between the support frame and the vertical frame to selectively fix the altitude angle of the support frame;
Wherein the photovoltaic device comprises a photovoltaic device. The method according to claim 1,
The guide member
A first engaging piece protruding outwardly along a longitudinal direction on one side surface of the first engaging piece and a second engaging piece protruding to face the first engaging piece on the other side; And a coupling member for connecting the photovoltaic device to the photovoltaic device. The method of claim 2,
The fixed frame includes:
The first engaging piece and the second engaging piece are guided into the space between the first engaging piece and the second engaging piece in a state in which the engagement of the first engaging piece and the second engaging piece is released, And a guide member. The method according to claim 1,
The vertical frame includes:
And is fixed by the fixed frame in a state of being spaced apart by a set interval on an installation surface. The method of claim 4,
Further comprising an auxiliary frame temporarily disposed at the setting interval formed between the vertical frame and the mounting surface to maintain the setting interval when the vertical frame is installed. The method according to claim 1,
Wherein the altitude angle adjuster comprises:
An adjustment frame coupled to one side of the support frame so as to be rotatable at one end thereof and having a second end selectively coupled to one side of the vertical frame,
A plurality of fastening holes formed at a predetermined interval on the other end of the adjusting frame along the longitudinal direction of the adjusting frame and fastening holes formed on one side of the vertical frame to simultaneously place the fastening holes on the fastening hole; Wherein the photovoltaic device comprises a photovoltaic device. The method according to claim 1,
The fixed frame includes:
And a sealing member guiding through the guide member to set a depth to be inserted into a lower portion of the mounting surface and shielding between an upper end portion of the guide member and the fixing frame.

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