KR100975212B1 - Floating structure for installing solar cell array - Google Patents

Abstract

The present invention relates to a solar panel installation structure, and more particularly to a floating solar panel installation structure that can be installed in the water, such as rivers, lakes, reservoirs, dams.

According to a preferred embodiment of the present invention, a floating solar panel mounting structure, characterized in that a plurality of horizontal members and vertical members are arranged in a grid shape and a buoyancy port having a surface for installing a solar panel at its nodes is provided. This is provided.

Solar power generation, solar panel, buoyancy sphere, horizontal member, vertical member

Description

Floating structure for installing solar cell array}

The present invention relates to a solar panel installation structure, and more particularly to a floating solar panel installation structure that can be installed in the water, such as rivers, lakes, reservoirs, dams.

The method of using solar energy is divided into the method of using solar heat to heat and generate electricity using water warmed by the sun and the method of using sunlight to operate various machines and apparatuses by electricity by generating electricity using the light of the sun. do. The method of using solar is called solar power generation. Solar power generation facilities are divided into independent solar power generation facilities and grid-connected solar power generation facilities.

Stand-alone solar power generation equipment includes a solar cell array (solar panel) composed of a plurality of solar cell modules composed of solar cells that generate power using solar light, a storage battery that stores electricity generated from the solar panel, and a solar panel It consists of a power regulator to allow the electricity generated in the storage to a certain level or supplied to the external load, an inverter and an auxiliary generator for converting the direct current supplied from the capacitor and the power regulator into an alternating current.

Such solar power generation requires a large installation area due to low energy density, and the installation place is limited, thus securing a space for installing a solar panel becomes a challenge of solar power generation. As a way to secure the installation area, it may be considered to install on the surface of rivers, lakes, reservoirs, dams, etc., which can easily open a large area with abundant sunshine.

On the other hand, rivers, lakes, reservoirs, and dams are causing serious environmental problems such as water quality change and ecosystem destruction due to abnormal growth of plankton. It also has another problem, such as its impact on.

The present invention was created in view of the above circumstances, and can be installed in the water phase, which is abundant in sunshine and can be an optimal installation space for photovoltaic power generation, and additionally occurs as an abnormal growth pattern of frankton by sunlight. The purpose of the present invention is to provide a floating solar panel installation structure that can prevent water quality change.

According to a preferred embodiment of the present invention, a floating solar panel mounting structure, characterized in that a plurality of horizontal members and vertical members are arranged in a grid shape and a buoyancy port having a surface for installing a solar panel at its nodes is provided. This is provided.

At this time, the buoyancy sphere is formed in a box shape, the surface on which the solar panel can be installed is a roof plate, characterized in that the roof plate is made of an inclined plate.

And the footrest may be further installed on the horizontal member.

In addition, a fixed beam for installing a pair of solar panels may be further installed on the roof plate of the buoyancy sphere.

In addition, the horizontal member, the vertical member, the buoyancy sphere and the fixed beam may be made of fiber reinforced plastic.

According to the present invention, by installing a solar panel occupying a large area on the upper surface of the water, it is possible to efficiently use space and use of land.

In addition, when installed in rivers, lakes, reservoirs, dams, etc., by blocking direct sunlight to the surface of the water can suppress the rise in water temperature to suppress evaporation of the water and block photosynthesis can inhibit the generation and growth of algae.

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

1 is a perspective view showing a structure for installing a floating solar panel according to the present invention, Figure 2 is a perspective view showing one module of the structure for installing a floating solar panel according to the present invention, Figure 3 is a floating solar panel according to the present invention Cross-sectional view showing the coupling relationship between the buoyancy sphere and the horizontal and vertical members in the installation structure.

As shown in FIG. 1, the floating solar panel mounting structure according to the present invention includes a plurality of horizontal members 10 and vertical members 20, and horizontal members 10 and vertical members 20, respectively. It is composed of buoyancy spheres 30 are installed at the intersection.

The horizontal members 10 and the vertical members 20 are arranged in a grid so as to be orthogonal to each other on a plane. The horizontal members 10 and the vertical members 20 are structurally maintained while connecting the plurality of buoyancy spheres 30 to each other. Its cross-sectional shape, size and length are determined by structural calculation so that the buoyancy sphere 30 can be held in place while enduring the structure according to the present invention installed on the water surface not to be destroyed by the storm. Therefore, the cross-sectional shape is not particularly limited, but in order to reduce the weight of the structure as a whole, the horizontal members 10 and the vertical members 20 are preferably composed of hollow rectangular pipes, and more preferably, fiber reinforced plastics. It is composed.

The buoyancy sphere 30 is installed at the intersection of the horizontal members 10 and the vertical members 20 arranged in a grid shape, that is, the gap points. The buoyancy sphere 30 serves to keep the shape against the external force by restraining the horizontal member 10 and the vertical member 20 arranged in a grid form while allowing the structure to float on the surface of the water. The buoyancy sphere 30 is a box-shaped structure in which a space is formed inside the closed surface and the upper plate on which the solar panel is installed, that is, the roof plate 32 is formed of an inclined plate having an inclination corresponding to the installation angle of the solar panel. do. On the other hand, the buoyancy sphere 30 is located on the outermost side of the buoyancy sphere 30, as shown in Figure 1, by configuring the roof plate 32 as a flat plate can be installed on the scaffold 50. The size, the number of installation and the spacing of the buoyancy sphere 30 is determined by the structural calculation so as to support the solar panel and vertical, horizontal members with buoyancy and according to the number of buoyancy sphere 30 horizontal member 10 and vertical member The number of 20 is determined. And the shape of the buoyancy sphere 30 is not limited to the rectangular shape shown, as long as a space is formed therein can have any buoyancy. The buoyancy tool 30 is preferably configured by joining fiber-reinforced plastics, but may also be configured by joining steel sheets.

As shown in FIG. 3, the coupling of the horizontal member 10, the vertical member 20, and the buoyancy opening 30 is a cross section of the horizontal member 10 and the vertical member 20 on the side of the buoyancy opening 30. A hole corresponding to the shape may be formed, and the horizontal member 10 and the vertical member 20 may be penetrated through the hole, respectively, and may be caulked with silicon or packed to prevent water from flowing into the gap between the hole and the member. Can be installed. However, it is also possible to bond the horizontal member 10 and the vertical member 20 to the side of the buoyancy port 30 using an adhesive or by hand layup. On the other hand, when the horizontal member, the vertical member, the buoyancy sphere is made of steel, it is not necessary to install the horizontal member and the vertical member to penetrate through the buoyancy sphere, and the horizontal member and the vertical member may be welded to the side of the buoyancy sphere.

1 and 2, a pair of fixed beams 40a and 40b may be further installed on the roof plate 32 constituting the buoyancy sphere 30 to easily fix the solar panel 60. . The fixed beams 40a and 40b may connect all of the adjacent buoyancy holes 30 along the solar panel 60 installation direction so that the solar panel 60 may be installed regardless of the spacing of the buoyancy holes 30. It is preferable to install.

And the footrest 50 may be further installed on the horizontal member 10 or the vertical member 20 for the convenience of maintenance, such as cleaning and replacement of the solar panel. As shown in FIG. 1, the scaffold 50 may be configured by combining a plurality of square pipes, or may be configured as a perforated plate having a plurality of holes. The scaffold 50 may be installed on the upper surface of the solar panel 60 across the horizontal members 10 in the same direction as the arrangement direction of the solar panel 60, and as described above, the buoyancy sphere (outside of the buoyancy spheres 30) ( The roof plate 32 of 30 may be formed of a flat plate, and the foot plate 50 may be provided on the upper portion thereof.

The floating solar panel installation structure according to the present invention configured as described above may form a unit and easily configure the structure to a desired size by combining them in a plurality of horizontal and vertical directions. The floating solar panel installation structure according to the present invention configured as described above is installed on a river, a lake, a reservoir, a dam, and the sea. The installation method is to carry the floating solar panel installation structure according to the present invention made in units of units to the installation place, then float on the water surface and connect the units to each other to the desired size. At this time, the connection between the unit is to connect the neighboring vertical and horizontal members to each other and the connection method may be appropriately selected a known method of connecting the length member. After the installation of the structure is completed, the solar panel 60 is installed on the roof plate of the buoyancy sphere (30). And the remaining parts constituting the solar power plant can be configured to be housed in a separate housing on the structure and may be installed in a separate land space away from the structure.

As described above, according to the present invention, by installing a solar cell plate for photovoltaic power generation on the surface of rivers, lakes, reservoirs, dams, and seas, efficient space utilization and land use can be achieved. In addition, when installed in rivers, lakes, reservoirs, dams, etc., by blocking direct sunlight to the water surface to suppress the rise in water temperature it can suppress the evaporation of the water and block photosynthesis can inhibit the generation and growth of algae.

1 is a perspective view showing a structure for installing a floating solar panel according to the present invention.

Figure 2 is a perspective view showing one module of the structure for installing a floating solar panel according to the present invention.

3 is a cross-sectional view showing the coupling relationship between the buoyancy sphere and the horizontal and vertical members in the floating solar panel installation structure according to the present invention.

<Description of the symbols for the main parts of the drawings>

10: horizontal member

20: vertical member

30: buoyancy sphere

40a, 40b: fixed beam

50: scaffolding

60 solar panel

Claims (5)

A structure for installing a floating solar panel, characterized in that a plurality of horizontal members and vertical members are arranged in a lattice shape and a buoyancy sphere having a surface on which the solar panels can be installed is installed at the nodes. According to claim 1, The buoyancy sphere is configured in a box shape, the surface on which the solar panel can be installed is a roof plate, the roof plate is a floating solar panel installation structure, characterized in that consisting of a slope plate. The method according to claim 1 or 2, Floating solar panel installation structure, characterized in that the scaffold is further installed on the horizontal member. The method of claim 3, Floating solar panel installation structure, characterized in that the fixed plate for installing a pair of solar panel is installed on the roof plate of the buoyancy sphere. 5. The method of claim 4, The horizontal member, the vertical member, buoyancy sphere and the fixed beam is a structure for installing a floating solar panel, characterized in that made of fiber-reinforced plastic.

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