KR102441693B1 - Solar generating apparatus with waterproof function - Google Patents

Abstract

The present invention relates to a solar power generation device with a waterproof function which can prevent water leakage and secure durability by inducing rainwater to one side in case of rain and ensuring appropriate structural rigidity. The present invention provides the solar power generation device which implements a support device that supports solar panels by using a new type of frame with a rainwater collection unit that can cover a lower part of the gap between solar panels and a cross-sectional structure that can exert a predetermined self-rigidity such that in case of rain, rainwater leakage can be completely prevented and the strong structural rigidity can be secured. In addition, the solar power generation device implements a new type of frame with a frame inner space and a frame cover such that various wires or cables can be installed by utilizing the inner space, space utilization can be increased by closing the frame cover, and at the same time, various interferences can be excluded, the appearance can be improved, and wires or cables can be protected.

Description

Solar generating apparatus with waterproof function

The present invention relates to a photovoltaic power generation device having a waterproof function, and more particularly, by allowing rainwater to be guided to one side and securing appropriate structural rigidity in rainy weather, waterproofing that can prevent water leakage as well as ensure durability It relates to a solar power generator having a function.

In general, in the field of photovoltaic power generation using sunlight, a photovoltaic panel for converting sunlight into electricity is important, and development of a support device constructed to support such a photovoltaic panel at an advantageous location of sunlight has been actively developed. is a trend that is

Due to the geographical characteristics of Korea, the solar panel must be installed at a predetermined angle with respect to the ground in order for the solar panel to operate efficiently because the solar panel is not in the vertical direction. Various types of support devices have been proposed for this purpose.

The conventional solar power generation device having a waterproof function is provided in the form of a support frame in which a plurality of rod-shaped members are combined, and the solar power generation device having such a waterproof function is supported to be spaced apart from the ground and has one end fixed to the installation surface. It consists of a structure including a plurality of posts and a frame that supports the solar panel while being coupled to the posts.

The photovoltaic device having such a waterproof function is constructed by first installing a post and a frame in a sunny area, mounting the photovoltaic panel on the upper part of the frame, and then fixing the photovoltaic panel and the frame. .

Usually, a solar panel installed on a photovoltaic device having a waterproof function is constructed in the form of connecting several unit solar panels in horizontal and vertical directions, and there is a predetermined gap between each solar panel constructed in this way. is made up

However, in case of rain, rainwater that has fallen on the solar panel flows down and falls down through the gap, a situation in which countermeasures against water leakage are required.

In addition, in the case of the frame applied to the existing photovoltaic device having a waterproof function, most of the “C” section steel is used. There are downsides to it.

Registered Patent Publication No. 10-1864438 Registered Patent Publication No. 10-2007978 Registered Patent Publication No. 10-2073355 Registered Patent Publication No. 10-2212486 Registered Patent Publication No. 10-2260418

Therefore, the present invention has been devised in view of such a point, using a new type of frame having a rainwater collection unit that can cover the lower part of the gap between the solar panels and a cross-sectional structure that can exhibit a predetermined self-rigidity. An object of the present invention is to provide a photovoltaic device having a waterproof function that can completely prevent rainwater leakage in case of rain by implementing a support device supporting the solar panel, and can secure strong structural rigidity.

In addition, another object of the present invention is to realize a new type of frame having a frame inner space and a frame cover, so that various wires or cables can be installed using the inner space and the space utilization can be improved by closing the frame cover. An object of the present invention is to provide a photovoltaic power generation device having a waterproof function that can increase and eliminate various interferences, improve appearance, and protect wires and cables.

In order to achieve the above object, the photovoltaic device having a waterproof function provided by the present invention has the following characteristics.

The photovoltaic power generation device having the waterproof function is a means for supporting the photovoltaic panel by being positioned between the photovoltaic panels adjacent to each other while being supported on the upper end of the post. A rainwater collecting part formed between and consisting of a concave-shaped groove for collecting rainwater, and at least one reinforcing part bent inwardly, while integrally formed below the rainwater collecting part, the body of a box-shaped cross-section mounted on the upper end of the post It is characterized by including a frame made of parts.

Here, a cover that can be opened and closed toward the side is formed on the body portion of the frame, so that the cover can be closed by opening the cover and accommodating the electric wire or cable inside the body portion.

At this time, the cover is slidably installed on the rail protrusion formed in the opening of the main body by using the rail grooves formed in the upper and lower portions, or is locked at the lower end of the opening formed in the main unit by using the clip at the lower end. And it may be fastened to an unlockable structure.

In addition, the reinforcing part of the main body may be formed of a "C"-shaped cross-sectional structure formed on one side and/or on the bottom, respectively, and in this regard, the body part communicates with the inside and the outside of the reinforcing part at a position where the reinforcing part is formed. An opening may be formed.

As a preferred embodiment, the wing portion of the rainwater collection unit may be formed with a chin for positioning that can hold the installation position of the solar panel on the upper surface adjacent to the groove portion.

As a preferred embodiment, the photovoltaic device having a waterproof function is a means for closing the gap between the panels while being mounted along the longitudinal direction of the photovoltaic panels on both sides adjacent to each other, which is inserted into the gap between the panels while having a hollow part. It may further include a molding member integrally formed with the wing portion for covering the upper part of the gap between the panels while having the body portion and the hollow portion.

The solar power generation device having a waterproof function provided by the present invention has the following effects.

First, by applying a new type of frame with a rainwater collecting part that can cover the lower part of the gap between the solar panels and a cross-sectional structure that can exhibit a certain self-rigidity, it is possible to completely prevent rainwater leakage in case of rain, It has the effect of securing strong structural rigidity.

Second, by utilizing the internal space of the frame to install various wires or cables, and by closing the frame cover to close the space inside the frame containing the wires or cables, space utilization can be increased and various interferences caused by wires or cables can be eliminated. It has the effect of not only improving the appearance but also protecting the wires and cables.

1 is a perspective view showing a photovoltaic device having a waterproof function according to a first embodiment of the present invention;
2 is a cross-sectional view showing a photovoltaic device having a waterproof function according to a first embodiment of the present invention;
3 and 4 are a side view and a plan view showing the installation state of the solar power generation device having a waterproof function according to the first embodiment of the present invention;
5 is a perspective view showing a photovoltaic device having a waterproof function according to a second embodiment of the present invention;
6 is a cross-sectional view showing a photovoltaic device having a waterproof function according to a second embodiment of the present invention;
7 and 8 are a side view and a plan view showing an installation state of a photovoltaic device having a waterproof function according to a second embodiment of the present invention;

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view showing a photovoltaic device having a waterproof function according to a first embodiment of the present invention, and FIG. 2 is a cross-sectional view showing a photovoltaic device having a waterproof function according to a first embodiment of the present invention. .

1 and 2, the photovoltaic power generation device having the waterproof function can effectively collect and discharge rainwater during rain, and exhibit appropriate self-rigidity to stably support the solar panel. will be done

The photovoltaic device having the waterproof function is positioned between the photovoltaic panels 11 adjacent to each other while being supported at the upper end of the post, and includes a frame 17 as a means for supporting the photovoltaic panel 11 .

The frame 17 is made of an integrated structure of the rainwater collection unit 14 and the body unit 16 .

The rainwater collection unit 14 serves to effectively collect rainwater flowing down the surface of the solar panel 11 and then guide it to one side and discharge it.

To this end, the rainwater collecting part 14 includes two wing parts 12 on both sides that support the bottom surfaces of the ends of the photovoltaic panels 11 on both sides adjacent to each other at the same time.

These wing portions 12 are formed to extend horizontally from the upper end of the groove portion 13 with the central groove portion 13 interposed therebetween. ) can be supported at the same time.

At this time, the photovoltaic panels 11 on both sides can be fixed in a structure that is fastened by fastening means such as screws, tacks, bolts, etc., while being placed on the wing parts 12 .

The rainwater collection part 14 includes a groove part 13 for inducing discharge after collecting rainwater.

The groove part 13 is formed integrally with the wing part 12 at this time while being positioned between the wing parts 12 on both sides, and has a downward concave cross-sectional shape, for example, a "V"-shaped cross-sectional shape or a "U". It is possible to collect rainwater flowing from the solar panel 11 by using a cross-sectional shape of a letter or "C"-shaped cross-section.

In addition, the wing portion 14 of the rainwater collection unit 14 has the upper surface portion adjacent to the groove portion 13, for example, sunlight at the end of the upper surface portion forming the boundary between the wing portion 14 and the groove portion 13. A jaw portion 22 for positioning that can hold the installation position of the panel 11 is formed, and the end of the solar panel 11 is hung on the jaw portion 22 for positioning thus formed. ) can be determined.

For example, when the solar panel 11 is placed on top of the wing 14 and the end of the solar panel 11 is in close contact with the positioning jaw 22, each The photovoltaic panels 11 can be arranged side by side, and each photovoltaic panel 11 adjacent in the vertical direction can also be aligned side by side while maintaining a constant gap, and eventually The solar panel 11 installed in the horizontal and vertical directions can be easily installed without effort and effort for positioning, such as can be installed neatly in a state of matching the heat and heat, and each solar panel ( 11) are arranged in a straight line, so it is possible to secure excellent construction quality.

The main body 16 serves to support the solar panel 11 while exhibiting its own rigidity using a predetermined cross-sectional structure.

To this end, the main body 16 has a rectangular box-shaped cross section and is formed of a long bar-shaped member integrally formed on the lower side of the rainwater collecting part 14, that is, on the lower surface of the groove part 13, at this time the main body The part 16 is installed to be supported by being placed on the upper end of the post 10 .

For example, the main body 16 is arranged in parallel along the horizontal direction on a roof frame (reference numeral 24 in FIG. 3 ) such as an H-beam installed in the longitudinal direction (slanted direction) at the upper end of the post 10 . It is installed in a structure that is fixed on the roof frame while being placed.

As the main body 16 is formed in the shape of a long bar, the rainwater collecting part 14 integrally formed therewith is also formed in the form of a strip having a predetermined length, that is, in the form of a strip having a concave groove 13 in the middle of the width. do.

At least one reinforcing part 15 having a bent shape while protruding toward the inner space is integrally formed on the main body 16, and as the body 16 has the reinforcing part 15, it is self-contained. By exhibiting rigidity, it is possible to appropriately receive the load applied from the solar panel 11 .

Here, the reinforcing part 15 may be formed on one side of the main body while having a "C"-shaped cross-sectional structure, and may be integrally formed to be inclined inside the corner of the main body.

In addition, at a position where the reinforcing portion 15 of the main body 16 is formed, an open portion 21 that communicates the inside and the outside of the reinforcing portion is formed, and thus the load acting on the main body 15 is reinforced. It can be effectively offset by the force of the part 15 and the action of the opening 21 dispersing, and consequently the overall structural rigidity of the frame 17 including the body part 16 and the rainwater collection part 14 . this can be improved.

In particular, the inner space of the main body 16 can be used for a predetermined purpose, and thus the space utilization of the frame 17 having a box-shaped cross section can be increased.

For example, various wires 100 such as electric wires and cables may be accommodated in the inner space of the main body 16 , and accordingly, electric wires or cables extending from the solar panel 11 side are lengthened downward. It is possible to prevent sagging and cause interference or damage, and it is possible to solve disadvantages such as deterioration of appearance by exposing wires or cables to the outside.

In addition, the body portion 16 of the frame 17 is formed with a cover 18 that serves to open or close the inner space of the body portion.

The cover 18 is an elongated strip-shaped plate having a rail groove 26 at the upper end and the lower end, respectively, and can be opened and closed on one side of the body 16 (eg, the side opposite to the side where the reinforcement is formed). installed in the structure.

For example, the cover 18 slides on the rail protrusions 25 respectively formed at the upper end and the lower end of the opening 20 formed in the main body 16 using the rail grooves 26 at the upper end and the lower end. It is installed in a structure that can be fitted into the structure possible.

Accordingly, after opening the cover 18 and accommodating the electric wire or cable in the body portion 16, the cover 18 is closed to close the inside of the body portion 16, so that the wire or cable is removed from the body portion. (16) It is possible to prevent wire or cable interference problems and damage problems such as hiding inside, and since wires or cables are not visible from the outside, a neat appearance can be secured.

The frame 17 made of such an integral structure of the rainwater collecting unit 14 and the main body 16 can be manufactured by an extrusion or injection method using an aluminum material, etc. be able to

In particular, the photovoltaic device having a waterproof function includes a molding member 30 as a means to completely block the gap between the left and right photovoltaic panels 11 installed in a grid arrangement structure from water leakage.

The molding member 30 serves to close the gap between the panels while being mounted in the vertical direction in parallel along the gap formed between the left and right side photovoltaic panels 11 adjacent to each other.

The molding member 30 has a hollow portion 27a and a body portion 28 in the form of a resilient square block inserted into a gap between the panels, and a hollow portion 27b at the top of the gap between the panels. Covering, for example, is made of an integral piece of the wing portion 29 to cover while extending to both sides with a gap in the center.

Here, the molding member 30 is preferably made of a rubber material or the like.

Accordingly, the molding member 30 is fitted inside the gap between the photovoltaic panels 11 using the body portion 28, and at the same time, the wing portion 29 is used for the photovoltaic panel 11 . The gap is blocked while being in close contact with the upper surface, and eventually, through the airtight action of the molding member 30 , it is possible to fundamentally block the penetration of rainwater into the gap between the left and right solar panels 11 .

7 and 8 are a side view and a plan view showing an installation state of a solar power generator having a waterproof function according to a second embodiment of the present invention.

7 and 8, the post 10 is installed on the foundation concrete installed on the ground or the roof of the building, and the roof frame 24 is inclined along the vertical direction at the upper end of each post 10. install

Subsequently, the frame 17 is installed on the roof frame 14 so as to maintain a certain interval along the vertical direction at the same time in parallel along the horizontal direction, for example, an interval corresponding to the interval between the solar panels 11, If several solar panels 11 are installed in alignment with each other on the frame 17 installed in this way, the installation work of the solar panel 11 can be completed.

Here, the groove part 13 of the rainwater collection part 14 is located below the horizontal connection part between the solar panels 11, that is, the part facing up and down with a certain gap, and accordingly, in case of rain Rainwater flowing down the solar panel 11 is collected in the groove 13 and then guided along the groove 13 to be discharged to both sides, so that the solar panel 11 is installed in the lower part of the area This will prevent leaks from occurring.

And, in the vertical connection between the solar panels 11, that is, in the portion facing left and right with a certain gap, the molding member 30 is inserted and installed in a structure in which it is compressed using the elastic body portion 28. Accordingly, the problem of water leakage through the vertical joint between the solar panels 11 can be completely excluded.

In addition, each of the solar panels 11 is supported by the support rigidity exhibited by the body portion 16 of the box-shaped cross-section with the reinforcement portion 15, so that the overall structural rigidity of the solar installation can be improved. There are advantages in terms of durability, lifespan, and maintenance of solar facilities.

5 is a perspective view showing a photovoltaic device having a waterproof function according to a second embodiment of the present invention, and FIG. 6 is a cross-sectional view showing a photovoltaic device having a waterproof function according to a second embodiment of the present invention.

As shown in Figures 5 and 6, the photovoltaic device having a waterproof function can effectively collect and discharge rainwater in rainy weather and exhibit appropriate self-rigidity to stably support the solar panel. will be done

The photovoltaic device having the waterproof function is positioned between the photovoltaic panels 11 adjacent to each other while being supported at the upper end of the post, and includes a frame 17 as a means for supporting the photovoltaic panel 11 .

The frame 17 is made of an integrated structure of the rainwater collection unit 14 and the body unit 16 .

The rainwater collection unit 14 serves to effectively collect rainwater flowing down the surface of the solar panel 11 and then guide it to one side and discharge it.

To this end, the rainwater collecting part 14 includes two wing parts 12 on both sides that support the bottom surfaces of the ends of the photovoltaic panels 11 on both sides adjacent to each other at the same time.

These wing portions 12 are formed to extend horizontally from the upper end of the groove portion 13 with the central groove portion 13 interposed therebetween. ) can be supported at the same time.

At this time, the photovoltaic panels 11 on both sides can be fixed in a structure that is fastened by fastening means such as screws, tacks, bolts, etc., while being placed on the wing parts 12 .

The rainwater collection part 14 includes a groove part 13 for inducing discharge after collecting rainwater.

The groove part 13 is formed integrally with the wing part 12 at this time while being positioned between the wing parts 12 on both sides, and has a downward concave cross-sectional shape, for example, a "U"-shaped cross-sectional shape or a "c". It is possible to collect rainwater flowing down from the solar panel 11 by using a cross-sectional shape or the like.

In addition, the wing portion 14 of the rainwater collection unit 14 has the upper surface portion adjacent to the groove portion 13, for example, sunlight at the end of the upper surface portion forming the boundary between the wing portion 14 and the groove portion 13. A jaw portion 22 for positioning that can hold the installation position of the panel 11 is formed, and the end of the solar panel 11 is hung on the jaw portion 22 for positioning thus formed. ) can be determined.

For example, when the solar panel 11 is placed on top of the wing 14 and the end of the solar panel 11 is in close contact with the positioning jaw 22, each The photovoltaic panels 11 can be arranged side by side, and each photovoltaic panel 11 adjacent in the vertical direction can also be aligned side by side while maintaining a constant gap, and eventually The solar panel 11 installed in the horizontal and vertical directions can be easily installed without effort and effort for positioning, such as can be installed neatly in a state of matching the heat and heat, and each solar panel ( 11) are arranged in a straight line, so it is possible to secure excellent construction quality.

The main body 16 serves to support the solar panel 11 while exhibiting its own rigidity using a predetermined cross-sectional structure.

To this end, the main body 16 has a rectangular box-shaped cross section and is formed of a long bar-shaped member integrally formed on the lower side of the rainwater collecting part 14, that is, on the lower surface of the groove part 13, at this time the main body The part 16 is installed to be supported by being placed on the upper end of the post 10 .

For example, the main body 16 is arranged in parallel along the horizontal direction on a roof frame (reference numeral 24 in FIG. 3 ) such as an H-beam installed in the longitudinal direction (slanted direction) at the upper end of the post 10 . It is installed in a structure that is fixed on the roof frame while being placed.

As the main body 16 is formed in the shape of a long bar, the rainwater collecting part 14 integrally formed therewith is also formed in the form of a strip having a predetermined length, that is, in the form of a strip having a concave groove 13 in the middle of the width. do.

At least one reinforcing part 15 having a bent shape while protruding toward the inner space is integrally formed on the main body 16, and as the body 16 has the reinforcing part 15, it is self-contained. By exhibiting rigidity, it is possible to appropriately receive the load applied from the solar panel 11 .

Here, the reinforcing part 15 is made of a "C"-shaped cross-sectional structure and can be formed on one side part and a bottom part of the main body, respectively.

In addition, at a position where the reinforcing portion 15 of the main body 16 is formed, an open portion 21 that communicates the inside and the outside of the reinforcing portion is formed, and thus the load acting on the main body 15 is reinforced. It can be effectively offset by the force of the part 15 and the action of the opening 21 dispersing, and consequently the overall structural rigidity of the frame 17 including the body part 16 and the rainwater collection part 14 . this can be improved.

In particular, the inner space of the main body 16 can be used for a predetermined purpose, and thus the space utilization of the frame 17 having a box-shaped cross section can be increased.

For example, various wires 100 such as electric wires and cables may be accommodated in the inner space of the main body 16 , and accordingly, electric wires or cables extending from the solar panel 11 side are lengthened downward. It is possible to prevent sagging and cause interference or damage, and it is possible to solve disadvantages such as deterioration of appearance by exposing wires or cables to the outside.

In addition, the body portion 16 of the frame 17 is formed with a cover 18 that serves to open or close the inner space of the body portion.

The cover 18 is an elongated strip-shaped plate having a hinge portion 23 and a clip 19 at an upper end and a lower end, respectively, and is a side portion of the body portion 16 (eg, opposite to the side on which the reinforcement portion is formed). It is installed in a structure that can be opened and closed on the side).

For example, the cover 18 is rotatably supported at the upper end of the opening 20 formed in the main body 16 using the hinge 23 at the upper end, and at the same time, using the clip 19 at the lower end. It is installed to the lower end of the opening 20 formed in the main body 16 to be locked and unlocked.

Accordingly, after opening the cover 18 and accommodating the electric wire or cable in the body portion 16, the cover 18 is closed to close the inside of the body portion 16, so that the wire or cable is removed from the body portion. (16) It is possible to prevent wire or cable interference problems and damage problems such as hiding inside, and since wires or cables are not visible from the outside, a neat appearance can be secured.

At this time, the hinge part 23 can be coupled to the body part side in a structure to be hung by fitting into the groove part on the body part 16 .

The frame 17 made of such an integral structure of the rainwater collecting unit 14 and the main body 16 can be manufactured by an extrusion or injection method using an aluminum material, etc. be able to

7 and 8 are a side view and a plan view showing an installation state of a solar power generator having a waterproof function according to a second embodiment of the present invention.

7 and 8, the post 10 is installed on the foundation concrete installed on the ground or the roof of the building, and the roof frame 24 is inclined along the vertical direction at the upper end of each post 10. install

Subsequently, the frame 17 is installed on the roof frame 14 so as to maintain a certain interval along the vertical direction at the same time in parallel along the horizontal direction, for example, an interval corresponding to the interval between the solar panels 11, If several solar panels 11 are installed in alignment with each other on the frame 17 installed in this way, the installation work of the solar panel 11 can be completed.

Here, the groove part 13 of the rainwater collection part 14 is located below the horizontal connection part between the solar panels 11, that is, the part facing up and down with a certain gap, and accordingly, in case of rain Rainwater flowing down the solar panel 11 is collected in the groove 13 and then guided along the groove 13 to be discharged to both sides, so that the solar panel 11 is installed in the lower part of the area This will prevent leaks from occurring.

And, in the vertical connection between the solar panels 11, that is, in the portion facing left and right with a certain gap, the molding member 30 is inserted and installed in a structure in which it is compressed using the elastic body portion 28. Accordingly, the problem of water leakage through the vertical joint between the solar panels 11 can be completely excluded.

In addition, each of the solar panels 11 is supported by the support rigidity exhibited by the body portion 16 of the box-shaped cross-section with the reinforcement portion 15, so that the overall structural rigidity of the solar installation can be improved. There are advantages in terms of durability, lifespan, and maintenance of solar facilities.

As described above, in the present invention, a body part that can secure structural rigidity while exhibiting predetermined self-rigidity by using a rainwater collection part and a reinforcement part that can receive rainwater while covering the lower part of the gap between the solar panels By applying a new type of frame made of

10 : Post
11: solar panel
12: wing
13: home
14: rainwater collection unit
15: reinforcement part
16: body part
17 : frame
18 : cover
19 : Clip
20: opening
21: open part
22: chin
23: hinge
24 : loop frame
25: rail protrusion
26: rail groove
27a, 27b: hollow part
28: body
29: wing
30: molding member
31: wedge-shaped stone

Claims (8)

As a means for closing the gap between the panels while mounted along the gap formed between the left and right side photovoltaic panels 11 adjacent to each other,
A body portion 28 having a hollow portion 27a and having a shape of a resilient square block inserted into the gap between the panels, and a wing portion 29 having a hollow portion 27b and covering the upper portion of the gap between the panels. ) including a molding member 30 made of an integral type,
The molding member 30 is inserted and installed in a structure that is compressed inside the gap between the solar panels 11 using the body 28, and at the same time, the upper surface of the solar panel 11 using the wings 29. It closes the gap and blocks the gap, and through the airtight action of the molding member 30, it is possible to fundamentally block the penetration of rainwater into the gap between the left and right solar panels 11,
As a means for supporting the photovoltaic panel 11 while being supported on the upper end of the post 10 and positioned between the photovoltaic panels 11 adjacent to each other,
A rainwater collection unit 14, which is formed between the wing portions 12 supporting the solar panel 11 on both sides and the wing portions 12 on both sides, and is composed of a concave-shaped groove 13 for collecting rainwater; A frame 17 having at least one reinforcing part 15 bent inward, and at the same time being integrally formed below the rainwater collecting part 14 and having a box-shaped cross-section body part 16 mounted on the upper end of the post 10 . ), including
A cover 18 that can be opened and closed from the side is formed on the body portion 16 of the frame 17, and after opening the cover 18 and accommodating the electric wire or cable in the body portion 16, the cover 18 close by closing
The wing part 14 of the rainwater collection part 14 has a chin part 22 for positioning that can hold the installation position of the solar panel 11 at the end of the upper surface part adjacent to the groove part 13, While the end of the solar panel 11 is hung on the positioning jaw 22, the installation position of the solar panel 11 can be determined,
When the solar panel 11 is placed on the wing 14 and the end of the solar panel 11 is in close contact with the positioning jaw 22, each solar panel adjacent in the horizontal direction ( 11) can be arranged side by side, and each solar panel 11 adjacent in the vertical direction can also be arranged side by side while maintaining a constant gap, and in the horizontal and vertical directions Since the solar panel 11 installed as Solar power generation device with a waterproof function, characterized in that it is possible to secure excellent construction quality by being aligned.
delete The method according to claim 1,
The cover 18 is slidably installed on the rail protrusion 25 formed in the opening 20 of the main body 16 using the rail groove 26 formed at the upper end and the lower end. A solar power generator with a waterproof function.
The method according to claim 1,
The cover 18 is a photovoltaic power generation having a waterproof function, characterized in that it is fastened to the lower end of the opening 20 formed in the main body 16 using the clip 19 at the lower end in a lockable and unlockable structure. Device.
The method according to claim 1,
The reinforcing part 15 of the main body 16 is a photovoltaic device having a waterproof function, characterized in that it has a "C"-shaped cross-sectional structure formed on one side and/or the bottom, respectively.
The method according to claim 1,
A photovoltaic device having a waterproof function, characterized in that the main body 16 has an opening 21 that communicates the inside and the outside of the reinforcement part at a position where the reinforcement part 15 is formed.
delete delete

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