KR102086572B1 - Solar panel installation structure - Google Patents

Abstract

The present invention relates to a solar panel installation structure. The solar panel installation structure comprises: a plate-shaped solar panel having a plurality of solar cells; a base frame folded by a transverse area so that the solar panel is installed, and having a base unit formed of an ′A′ type frame having a predetermined inclination continuously connected to and installed on the ground or a buoy along a longitudinal direction so that the solar panel can maintain an incident angle of the sun; and a connection frame fixed to and installed on the base unit so that the solar panel is mounted on an upper surface to be continuously installed along the longitudinal direction of the base frame with an area corresponding to the base unit. Accordingly, the solar panel installation structure can minimize the volume in accordance with transportation, shorten the time required for installation work, and reduce a labor cost in accordance with installation.

Description

Solar panel installation structure

The present invention relates to a solar panel installation structure, and more specifically, to minimize the volume due to transportation, shorten the time according to the installation work, and to the solar panel installation structure that can reduce the labor cost of installation. It is about.

In general, a photovoltaic device uses a photovoltaic panel in which a plurality of solar cell cells are arranged in a plate shape in order to widen a condensing area, and the photovoltaic panel is stably supported from wind pressure or external shock by being installed on a support frame. At the same time, the angle is adjusted so that vibration is absorbed and it is always in contact with sunlight.

The support frame is composed of a combination of various sections or square pipes from side to side, and the coupling between the support frames is made by puncturing screw holes in symmetrical positions and placing them into engagement, and then joining them by fastening separate fasteners such as bolts. For the convenience of the bar and work, 'C' section steel is usually used directly under the photovoltaic panel, and each pipe is cross-linked under the section 'C' section to support the photovoltaic panel in the east-west direction and the north-south direction.

However, the above-described conventional fastening structure requires drilling a screw hole in the photovoltaic panel, but in this process, a problem occurs that the solar cell is damaged, and the construction of the screw hole may be due to the strength or shape of the section steel in some sections, etc. It is difficult or impossible, and according to these difficulties, it is impossible to machine a screw hole in the field, and if it is pre-processed in a factory, it is possible to attach the panel only at a predetermined location. .

In order to solve this problem, Patent Document 1 is made of fastening without machining separate screw holes on the panel and the support frame, so that the work convenience is improved and durability reduction due to screw hole processing is solved. It is made, and the support piece and the pressing piece are engaged with the extension portion of the section steel member provided in the support frame to prevent displacement, so the position is fixed without processing a separate screw hole, thus improving the convenience of work and durability of the frame. This is improved, and since it is possible to freely change the installation position of the fixed clamp, it is possible to fix the solar panels of various standards, and is configured to have versatility.

However, in the case of patent document 1, the frame welded or fastened with each pipe and the section steel member must be installed individually, and it takes up a lot of volume, resulting in a delay in transportation for installation, the rapidity of installation work, and the time according to the installation work. And there is a problem that causes a rise in labor costs.

KR 10-1708472 B1

In order to solve the above problems, the present invention is configured to fold a solar panel, a base frame, and a connection frame for installation of a solar panel to minimize the volume due to transportation and shorten the time required for installation work. It is an object to provide a solar panel installation structure that can reduce labor costs due to installation.

In order to achieve the above object, the present invention is a plate-shaped solar panel having a plurality of solar cells; The base unit formed of an 'A' type frame having a predetermined inclination so that the solar panel can be installed is folded by a width and so that the solar panel can maintain the angle of incidence of the sun. A base frame that is continuously connected and installed along the; A solar panel comprising a connection frame fixed to the base unit so that the photovoltaic panel is mounted on an upper surface at a width corresponding to the base unit and continuously installed along the longitudinal direction of the base frame. Provide the installation structure.

Here, each of the base units comprises two vertical bars forming an 'A' type; Between the two vertical bars includes a link bar that is vertically and crosswise connected so that the two vertical bars can be folded in the horizontal direction, and the base frame is connected to the vertical bars of different base units so that the base units can be continuously connected and installed. Characterized in that it comprises a link bracket for connecting the top and bottom, respectively.

In addition, the plurality of solar panels are made of a bundle panel continuously connected through a first hinge to be folded in a zigzag manner, so that they can be sequentially seated on an upper surface of the connection frame along the length direction of the base frame. It is characterized by being configured.

In addition, it is made of a bundle frame that is continuously connected through a second hinge so that the plurality of connection frames can be folded in a zigzag manner, and is characterized in that it is configured to be sequentially installed in each of the base units along the longitudinal direction of the base frame. Is done.

By providing the present invention configured as described above, it is possible to minimize the volume due to transportation, shorten the time according to the installation work, and reduce the labor cost according to the installation.

1 is a configuration diagram showing a solar panel installation structure according to the present invention.
Figure 2 is a side configuration diagram showing a solar panel installation structure according to the present invention.
3 is a block diagram showing an exploded state of the solar panel installation structure according to the present invention.

Hereinafter, preferred embodiments will be described in detail with reference to the accompanying drawings so that a person having ordinary knowledge belonging to the same technical field can easily implement the present invention.

1 to 3, the solar panel installation structure of the present invention is provided with a base frame 200 installed on the ground or a buoy, and seated on the top of the base frame 200 to transmit electric power through light. It consists of a solar panel 100 to be produced and a connection frame 300 that is fixed by fastening between the base frame 200 and the solar panel 100.

Here, the solar panel 100 is made of a plate shape having a plurality of solar cells.

In addition, the base frame 200 is folded to the horizontal width so that the photovoltaic panel 100 can be installed, and the 'A has a predetermined inclination so that the photovoltaic panel 100 can maintain the incident angle of the sun. The base unit 210 formed of a 'frame' may be continuously connected and installed along the length direction on the ground or the buoy.

That is, a plurality of the base units 210 are arranged in a row, but they are connected to each other in a manner that folds along the ground in a manner that is foldable, so as to stand up and install in the shape of a baraque.

At this time, it is preferable to fix the bottom to the ground so that the base frame 200 does not collapse by wind or external force.

That is, the support frame is provided between the base units 210 facing each other of the base frame 200 so as to be lifted to maintain the base unit 210 as a 'A' type frame at a predetermined inclination angle 400 ).

At this time, the position fixing frame 400 and the center bar 410 is formed extending in the vertical direction from the top center of the base unit 210 forming the 'A' type; A lifting bracket 420 that is slide-connected to the center bar 410 to be elevated along the center bar 410; It is preferable that the base unit 210 and the lifting bracket 420 are made of a support bar 430 that maintains the 'A' type inclination angle of the base unit 210 according to the height of the lifting bracket 420. .

In addition, the connection frame 300 is the width corresponding to the base unit 210 so that the solar panel 100 is seated on the upper surface so that it can be continuously installed along the longitudinal direction of the base frame 200. The base unit 210 is fixedly installed.

At this time, the connecting frame 300 is bent in a 'c' shape on both sides, so that the worker can easily fasten and install through a bolt connection using a space formed inside.

Meanwhile, the base unit 210 includes two vertical bars 211 each forming an 'A' type; Between the two vertical bars 211, the two vertical bars 211 are configured to include a link bar 213 that is connected to the upper and lower intersections to be folded in the horizontal direction.

That is, the link bar 213 provided between the vertical bars 211 is folded in the horizontal direction between the two vertical bars 211, thereby narrowing the gap between the vertical bars 211 and making contact with each other. It can be minimized and can be extended to the maximum volume during installation.

In addition, the base frame 200 has a link bracket 215 for connecting the upper and lower ends to the vertical bars 211 of different base units 210 so that the base units 210 can be continuously connected and installed. It may be further provided.

That is, the link bracket 215 is configured to continuously connect the base unit 210, so that the total length of the base frame 200 can be arbitrarily adjusted in response to the width or width of the ground or buoy.

On the other hand, it is made of a bundle panel 110 continuously connected through the first hinge 111 so as to fold the plurality of solar panels 100 in a zigzag manner, along the longitudinal direction of the base frame 200 It is configured to be seated sequentially on the upper surface of the connection frame 300.

In addition, the plurality of connection frames 300 are made of a bundle frame 310 continuously connected through a second hinge 311 so as to be folded in a zigzag manner, along the longitudinal direction of the base frame 200 Each base unit 210 is configured to be sequentially installed.

Through the above configuration, the installation operation will be described with reference to the drawings.

First, according to FIG. 3, after the base frame 200 is placed on the ground, the base unit 210 is pulled by an operator or towed by a trailer or the like to extend the length of the base frame 200 to the maximum and stand up. .

At this time, it is preferable to clamp the link bar 213 or the link bracket 215 of the base unit 210 or fix the position so as not to contract through a separate fastening means.

Next, according to FIG. 3, the connection frame 300 is continuously installed on the inclined top surface of the base frame 200 installed on the ground.

At this time, while sequentially discharging the connecting frame 300 of the bundle frame 310 consisting of a bundle through the panel installation jig moving along the base frame 200, the connecting frame 300 of the daytime base frame 200 After each of the base units 210 is disposed, the operator vertically fastens the vertical bars 211 of the base unit 210 to the coupling flanges 320 formed on both sides of the connection frame 300 with fastening bolts. Keep it integral.

After that, while sequentially discharging the solar panel 100 of the bundled panel 110 connected in a bundle through the panel installation jig moving along the base frame 200, the solar panel 100 of the daylight is connected to each frame. After seating in correspondence with 300, the installation is completed by fastening and fixing the connection frame 300 and the solar panel 100 with a fastening bolt.

By providing the present invention configured as described above, it is possible to minimize the volume due to transportation, shorten the time according to the installation work, and reduce the labor cost according to the installation.

The terms and words used in the present specification and claims described above should not be construed as being limited to ordinary or lexical meanings, and the inventor appropriately uses the concept of terms to describe his or her invention in the best way. It should be interpreted as a meaning and a concept consistent with the technical idea of the present invention based on the principle that it can be defined as such.

Therefore, the configuration shown in the drawings and examples described in this specification is only one of the most preferred embodiments of the present invention, and does not represent all of the technical spirit of the present invention, and can be replaced at the time of this application. It should be understood that there may be various equivalents and variations.

100: solar panel
110: bundle panel
111: first hinge
200: base frame
210: base unit
211: vertical bar
213: link bar
215: link bracket
300: connecting frame
310: bundle frame
311: second hinge

Claims (6)

A plate-shaped solar panel 100 having a plurality of solar cells;
A base unit formed of an 'A' type frame having a predetermined inclination so that the photovoltaic panel 100 is folded by a width so that the photovoltaic panel 100 can be installed, and the photovoltaic panel 100 can maintain an incident angle of the sun ( 210) a base frame 200 which is continuously connected and installed along the length direction on the ground or the buoy;
The photovoltaic panel 100 is fixed to the base unit 210 so that the photovoltaic panel 100 is mounted on the upper surface to be continuously installed along the longitudinal direction of the base frame 200 at a width corresponding to the base unit 210. Connection frame 300;
The base frame 200 is provided with a support so as to be elevated between the facing base units 210, and the position fixing frame 400 for maintaining the base unit 210 at a predetermined inclination angle as an 'A' type frame. Including,
It consists of a bundle panel 110 continuously connected through a first hinge 111 so as to fold the solar panel 100 in a zigzag manner, but the connection frame along the longitudinal direction of the base frame 200 ( 300) is configured to be seated sequentially on the top surface,
It consists of a bundle frame 310 continuously connected through a second hinge 311 so that the connection frame 300 can be folded in a zigzag manner, but the base unit 210 along the length direction of the base frame 200 ) Is configured to be sequentially installed in each,
The base unit 210 includes two vertical bars 211 each forming an 'A'type; Solar panel installation structure, characterized in that it comprises a link bar (213) that is connected vertically and crosswise so that the two vertical bars (211) can be folded in the horizontal direction between the two vertical bars (211).
delete The method according to claim 1,
The base frame 200,
A solar panel comprising a link bracket 215 for connecting the top and bottom to the vertical bars 211 of different base units 210 so that the base units 210 can be continuously connected and installed. Installation structure.
delete delete The method according to claim 1,
The positioning frame 400 includes a center bar 410 extending vertically downward from the upper center of the base unit 210 forming an 'A'type;
A lifting bracket 420 that is slide-connected to the center bar 410 to be elevated along the center bar 410;
Characterized in that it consists of a support bar 430 that maintains the 'A' type inclination angle of the base unit 210 according to the height of the lifting bracket 420 by connecting the base unit 210 and the lifting bracket 420 Solar panel installation structure.

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