KR102061028B1 - load dispersion device for prefabricated float module - Google Patents

Abstract

Disclosed is an apparatus for uniformly dispersing load distribution of a prefabricated floating body module, which comprises: a lower surface coming in contact with a water surface to receive buoyancy; an upper surface exposed onto the water to support a solar energy generation apparatus; and a plurality of floating module parts having two pairs of side surfaces formed parallel to each other. The plurality of floating module parts are bound to each other through a side surface to form a flat plate type structure having a predetermined area on the water surface. Moreover, the flat plate type structure further includes at least one fixing member bound to the side surface of the floating module parts along the outermost edge to pressurize and support the floating module parts.

Description

Load dispersion device for prefabricated float module

The present invention relates to a uniform load distribution device of a prefabricated floating module, and more particularly, to a device for uniformly distributing the load distribution of the floating module is installed.

The production of electricity using underground resources such as coal and oil is limited due to the problem of pollution and the depletion of resources. The traditional use of natural energy is the construction of a dam in the river to produce electricity. Hydroelectric power is used in recent years. Wind power generation using wind, tidal power generation using tidal tide and solar power generation using solar light It is getting attention.

Wind power generation, hydro power generation and tidal power generation have the advantage of relatively high power generation efficiency, but follow-up management such as replacement and maintenance work due to mechanical failure should be carried out.

It often happens that facilities have to be disposed of. On the other hand, photovoltaic power generation cannot ignore the effects of the weather, but since there are no mechanical operating elements in the component system, only the solar cell module and related systems can be installed to obtain a stable amount of power even without a large range of maintenance systems. There is an advantage.

In the case of photovoltaic power generation, the solar cell module needs to be irradiated with sunlight to produce power. Therefore, in order to ensure that a sufficient amount of sunlight is irradiated to the solar cell module, the influence of shadows generated by the surrounding geographical environment or spatial constraints is minimal It is necessary to secure as much space as possible. For this reason, in order to install photovoltaic power generation facilities on land, large areas such as vacant lands, open areas, farmland, or forests are preferred, and rooftops and on-street parking lots of some buildings have attracted attention.

However, as photovoltaic power generation has emerged as a representative technology of electric power generation using natural energy, many solar power facilities have been installed in farmland or forest, and friction with neighboring farms and residents increases, and indiscriminate development of farmland or land around the settlement Concerns about pollution and environmental pollution are on the rise.

As a substitute for installing photovoltaic devices, the internal water surface such as lakes, reservoirs, and dams received great attention. The solar power plant installed on the surface of the water is called a floating solar power plant. The floating solar power plant has the following advantages. First, since aquatic photovoltaic plants usually use some of the surface of lakes, reservoirs, and dams with a large surface area, shading damage by surrounding mountains, trees, and buildings can be minimized.

Second, since there is less solar heat radiated from the surface than that radiated from the ground of land photovoltaic power plants, if the proper method of minimizing the radiant heat supplied to the solar cell module is used, the temperature of the solar cell module can be kept lower. Thus, more output can be obtained from the solar cell module.

However, a solar photovoltaic system necessarily requires a float to support the solar cell module in the water. In other words, both the solar cell module and the module installation structure are floating on the surface of the water so that these devices are not submerged in water to be provided with the appropriate volume of float, so that sufficient buoyancy can be formed.

However, the float used in the prior art, the load of the solar module concentrated in the center of the float due to the hogging (hogging) phenomenon, there was a problem that the solar module installed on the top is not stably supported.

Domestic Patent Publication No. 10-1535511

The present invention has been made in view of the above-mentioned problems, and an object of the present invention is to provide a uniform load distribution device of a prefabricated floating body module capable of uniformly supporting the load of a load in the water phase.

The object of the present invention is not limited to the above-mentioned object, other objects that are not mentioned will be clearly understood by those skilled in the art from the following description.

Features of the present invention to achieve the object of the present invention as described above, and to perform the characteristic functions of the present invention described below are as follows.

A floating module portion having a lower surface which is buoyant in contact with the sea surface, an upper surface exposed to the water phase to support the photovoltaic device, and two pairs of side surfaces formed in parallel, wherein the floating module portions are bound to each other through the side surfaces. Forming a plate-like structure having a predetermined area on the sea surface, the plate-like structure further comprises at least one fixing member which is bound to the side of the floating module portion along the outermost to support each floating module portion.

Preferably, the fixing member has a plurality of binding surfaces, one for each outer side of the floating module portion forming the outermost portion of the plate-like structure, and includes a binding surface corresponding to each side of the floating module portion.

In addition, the fixing member is bound to each other with the adjacent fixing member, it is characterized by extending along the edge of the flat structure, characterized in that forming a body.

Preferably, the fixing member further comprises a cushioning member on the surface of the fixing module and the floating module, characterized in that to protect the floating module from an external impact.

As described above, according to the floating module including a fixing member bound to surround the floating body of the present invention, it provides an effect of overcoming the hogging phenomenon by pressing the floating body toward the center.

The effects of the present invention are not limited to those described above, and other effects not mentioned will be clearly recognized by those skilled in the art from the following description.

1 is a perspective view of a conventional photovoltaic floating body module in which the load of the photovoltaic module is concentrated to the center by the hogging phenomenon.
Figure 2 is a perspective view of the floating module of the load distribution uniform dispersion device of the assembled floating module according to an embodiment of the present invention.
Figure 3 shows a plurality of floating module portion and the fixing member of the mutual binding of the load distribution uniform dispersion device of the prefabricated floating module according to an embodiment of the present invention.
Figure 4 illustrates a combined state of the load distribution uniform dispersion device of the assembled floating module according to an embodiment of the present invention.
Figure 5 shows together the buffer member further included in the load distribution uniform dispersion device of the assembled floating module according to an embodiment of the present invention.

Hereinafter, with reference to the drawings will be described the present invention in more detail. It should be noted that the same elements in the figures are represented by the same numerals wherever possible. In addition, descriptions of well-known functions and configurations that may unnecessarily obscure the subject matter of the present invention will be omitted.

In addition, various modifications may be made to the embodiments described below. The examples described below are not intended to be limiting of the embodiments, but should be understood to include all modifications, equivalents, and substitutes for them.

This will be described logically according to the drawings.

Figure 2 is a perspective view of the floating module of the load distribution uniform dispersion device of the assembled floating module according to an embodiment of the present invention. Figure 3 shows a plurality of floating module portion and the fixing member of the mutual binding of the load distribution uniform dispersion device of the prefabricated floating module according to an embodiment of the present invention. Figure 4 illustrates a combined state of the load distribution uniform dispersion device of the assembled floating module according to an embodiment of the present invention.

2 to 4, the load distribution uniform dispersion device 1 of the assembled floating module according to an embodiment of the present invention includes a floating module unit 100 and a fixing member 200.

The floating module unit 100 is a floating body including a lower surface 130 that receives buoyancy in contact with the sea surface and an upper surface 110 that is exposed to the water phase and supports the photovoltaic module.

Including two pairs of side surfaces 150 formed in parallel, the plurality of floating module portions 100 may be bound and extend in all directions.

Side 150 may be a known means for interconnecting each of the floating module portion (100). Floating body module 100 preferably has the same shape so that it can extend indefinitely, the plate-like structure 10 formed by binding to each other through the side surface 150 has a predetermined area on the sea surface. It can be manufactured in an area corresponding to the volume or number of solar modules to be loaded.

It floats on sea level and has enough buoyancy to stably support the photovoltaic module without being easily shaken by the influence of wind or waves. Preferably, the upper surface may be formed in a rectangular structure in consideration of spatial efficiency so that the photovoltaic module is installed as densely as possible.

As an example of the plate-shaped structure 10, it may include a plurality of floating module portion 100 floating in the water, and a base frame coupled to the upper portion of the floating module portion (100). The photovoltaic device may be mounted on the base frame of the flat panel structure 10, and the photovoltaic device includes solar cell modules for generating electric energy by receiving sunlight.

In the flattened structure 10, the fixing member 200 is attached to the outermost edge along the rim.

The fixing member 200 has a binding surface corresponding to the side surface 150 of the floating module unit 100, and is fixed to each floating module unit 100 one by one. In consideration of the shape of the plate-shaped structure 10 formed by densely coupling the plurality of floating module portions 100, the fixing member 200 is also bound without being spaced along the edge formed at the outermost portion of the plate-shaped structure 10. One body can be achieved. Fixing rim 20 made of a set of such fixing members 20 by pressing the flattened structure 10 in the center direction, as well as further strengthen the coupling between the floating module unit 100, the water photovoltaic unit It serves to overcome the hogging phenomenon, which is a chronic problem of fluid.

The fixing member 200 is appropriate to use a light waterproof material in consideration of being bound to the floating module portion 100 on the water surface, an iron material such as aluminum will be particularly suitable. However, in addition to this, any material that can overcome the hogging phenomenon by solidifying the binding between the floating module unit 100 is applicable to any change.

In addition, in consideration of being exposed to water at all times, it is preferable to use a material that does not contaminate the water quality due to wear or corrosion by sea water.

Figure 5 shows together the buffer member further included in the load distribution uniform dispersion device of the assembled floating module according to an embodiment of the present invention.

Referring to FIG. 5, the load distribution uniform dispersion device 1 of the assembled floating module according to an embodiment of the present invention may further include a buffer member 300.

The shock absorbing member 30 is provided between the fixing member 200 and the floating module unit 100 to protect the flat structure 10 from external shocks. It may be formed to a certain thickness within a range that does not weaken the coupling force between the fixing member 200 and the floating module unit 100.

The following discloses configurations that include the technical features of the present invention.

A floating module portion having a lower surface which is buoyant in contact with the sea surface, an upper surface exposed to the water phase to support the photovoltaic device, and two pairs of side surfaces formed in parallel; Forming a plate-like structure having a predetermined area on the sea surface, the plate-like structure further comprises at least one fixing member which is bound to the side of the floating module portion along the outermost to support each floating module portion.

Preferably, the fixing member has a plurality of binding surfaces, one for each outer side of the floating module portion forming the outermost portion of the plate-like structure, and includes a binding surface corresponding to each side of the floating module portion.

In addition, the fixing member is bound to each other with the adjacent fixing member, it is characterized by extending along the edge of the flat structure, characterized in that forming a body.

Preferably, the fixing member further comprises a shock absorbing member on the surface of the fixing module and the floating module, characterized in that to protect the floating module from an external impact.

On the other hand, the present invention is not limited to the embodiments of the present invention and the accompanying drawings in the above description, it is apparent to those skilled in the art that various substitutions, modifications and changes are possible without departing from the technical spirit of the present invention. something to do.

1 Load distribution homogeneous distribution device for prefabricated floating module
10 Flat Structure
20 Fixed border
100 floating module
110 Top surface of floating module
130 floating module
150 Floating module side
200 fixing member
300 buffer member

Claims (4)

The bottom surface buoyant in contact with sea level,
The upper surface exposed to the water and supporting the photovoltaic device,
A floating module having two pairs of side surfaces formed in parallel,
The floating module unit is coupled to each other through the side to form a body, to form a flat structure having a predetermined area on the sea surface,
The flat plate structure,
At least one fixing member is attached to the side of the floating module portion along the outermost portion so as to press each floating module portion in the direction of the center of the plate-like structure,
The fixing member,
Including a shock absorbing member on the surface that is engaged with the floating module portion, from the external impact
The load distribution uniform dispersion device of the assembled floating module of the water photovoltaic power generation, characterized in that to protect the floating module. The method of claim 1,
The fixing member,
Outer side of each floating module portion, the plurality of which constitute the outermost portion of the plate-like structure
Is bound to the surface one by one, including a binding surface corresponding to each side of the floating module portion,
The load distribution uniform dispersion device of the prefabricated floating body module of the water photovoltaic power generation, characterized in that to form a body by binding to the adjacent fixed member, extending along the edge of the flat structure. delete delete

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