KR101892972B1 - Multi-purpose buoyant member for floating solar power generation and floating structure system comprising the same - Google Patents

Abstract

The present invention relates to a water structure system installed in a river or a reservoir, a dam or on the sea, and a multifunctional buoyant body for water photovoltaic power generation used in the same. The multifunctional buoyant body for water photovoltaic power generation is characterized by comprising: an upper facility support having a lower lid unit, left and right side channel units formed on the lid unit and extending in the horizontal direction, and an upper slope unit for supporting a solar cell panel integrally formed with each other; and a buoyancy tank which is integrally coupled with the facility support and covered with the lid unit through a rim of an opening formed at an upper end, and an inner space is closed from the outside. The above makes it possible to provide the buoyant body specialized in water photovaltaic power generation system, so that the system can be installed easily and simply.

Description

TECHNICAL FIELD [0001] The present invention relates to a multifunctional buoyant body for a solar photovoltaic power generation, and a water structure system using the same. [0002] MULTI-PURPOSE BUFFER MEMORY FOR FLOATING SOLAR POWER GENERATION AND FLOATING STRUCTURE SYSTEM COMPRISING THE SAME [0003]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a buoyant body which is a main component of a water, photovoltaic power generation system installed in a river, a reservoir, a dam or a sea, and a water structure system using the buoyant body.

Conventional solar photovoltaic system structures have relied on a method for constructing a structure for mounting a solar cell panel by using a steel pipe or the like and installing a plurality of buoyant bodies on the bottom of the structure. Such a method is disclosed in Korean Utility Model Publication No. 20-2011-0001022 entitled " Fixed Structure of River Side Structure of a Water-Sink Power Plant " (Published Date: Jan. 31, 2011), Published Patent Application No. 10-2010-0117183 (Published Date: Nov. 3, 2010) and Patent Registration No. 10-1685896, "Photovoltaic Power Generation Apparatus" (Publication Date: Dec. 28, 2016).

However, according to the related art including the disclosed method, the structure for mounting the solar cell panel is installed separately from the installation of the buoyant body, and even if the installation of the facility is performed, The installation process is complicated and takes a long time.

This problem is caused by the absence of a buoyant body specialized in a solar photovoltaic system, and the present applicant has proposed a buoyant body for solar photovoltaic power generation and a solar photovoltaic System '(filing date: October 30, 2017). 2, the C-shaped steel pipe 43 is inserted into the horizontal insertion hole 17 and the vertical insertion hole 18 formed in the buoyant body 10 as shown in FIG. And a plurality of buoyant bodies 10 are fixedly arranged and fixed in the longitudinal direction so that the entire system can be installed easily and easily.

However, the working conditions in which the structure as shown in FIG. 2 disclosed in the above patent application must be inserted through the buoyant body 10 in the lateral direction and the longitudinal direction of the C-shaped pipe 43 in a harsh environment requires a large space In addition, when the buoyant body and structures are damaged due to natural disasters, it is complicated and difficult to replace the water.

Therefore, it is an object of the present invention to provide a buoyant solar power system for a water photovoltaic power generation system, which can easily and simply be installed in a system, and can be easily and easily replaced with a damaged buoyant body, And a water structure system using the same.

In order to achieve the above object, the present invention provides a solar cell module comprising a lid part at the lower end, left and right side channel parts formed on the lid part and extending in the horizontal direction, An upper facility support comprising: And a lower buoyancy tank which is integrally coupled to the facility support and is closed from the outside in a state of being covered with the cover through an edge of an opening formed at an upper end of the buoyancy tank. do.

Here, the facility support and the buoyancy tank may be made of a plastic injection-molded product.

At this time, the upper facility support may have a reinforcing frame portion that transmits the side channel portion and the slope portion, and the reinforcing frame portion may have a plurality of vents distributed in the left and right direction.

The internal space of the buoyancy tank may be filled with a plurality of compartments or foams.

In order to achieve the above object, the present invention provides an aquatic structure system using the multifunctional buoyant body for water power generation described above, wherein a plurality of A float for solar photovoltaic power generation is fixed at regular intervals and a plurality of float bodies for aquatic solar power generation are fixed at predetermined intervals in the lateral direction through a foot plate extending in a lateral direction to the section steel or pipe, A facility for photovoltaic power generation; And a plurality of solar cell panels each having right and left side ends supported on an inclined surface portion of the floating solar power generating adjacent to the transverse direction.

Here, a blocking plate is formed so that the solar cell panel can be retractably inserted into the inclined surface portion of the multifunctional buoyant body for aquatic solar power generation adjacent to the transverse direction, and a barrier plate is formed on the vertical surface portion of the multi- Wherein the plurality of solar cell panels are connected to each other by a connecting ring, and a plurality of solar cell panels adjacent to each other are fixed by the connecting ring It is possible.

The structure supporting member includes a plurality of fastening holes formed integrally with the side channel portion and having a reinforcing frame portion interposed between the side channel portion and the inclined surface portion, and a steel pipe supported on the left and right sides of the side channel portion. And the formed steel pipe may be fixedly fastened through a plurality of fasteners formed.

As described above, according to the multifunctional buoyant body for aquatic solar power generation according to the present invention and the aquatic structure system using the same, a shape or a pipe is fastened through the left and right side channel portions as a buoyant body specialized in an aquarium solar power generation system, Thereby making it possible to easily and quickly assemble a grid-shaped water photovoltaic power generation facility and to simplify the entire structure.

Particularly, when it is desired to replace any one of a plurality of buoyant bodies for water solar power generation coupled in a lattice shape as described above, the joining to the section steel pipe or pipe fastened to the side channel portion of the buoyant body is released, So that the replacement of the broken buoyant body can be easily and simply performed.

In addition, by constructing the facility support at the upper part and the buoyancy tank at the lower part that provides the buoyancy to the upper part, the plastic injection molding can be made possible because of the large size of the buoyant body, It can be dramatically improved in terms of composition, productivity, and cost efficiency.

1 is a perspective view of a buoyant body for an aquarium power generation system according to the prior art,
Fig. 2 is a perspective view of an aquamarine solar power generation system using the buoyancy body for aquatic solar power generation of Fig. 1,
3 and 4 are a perspective view and a front view of a multifunctional buoyant body for aquatic solar power generation according to an embodiment of the present invention,
Fig. 5 is an exploded perspective view of the multifunctional buoyant body for aqua-
Fig. 6 is a side view of the multifunctional buoyant body for aquaria photovoltaic generation in Fig. 3,
FIG. 7 is a perspective view of a water structure using the multifunctional buoyant body for water power generation in FIG. 3,
FIG. 8 is a perspective view of a water structure system using the multifunctional buoyant body for water power generation of FIG. 3,
FIG. 9 is a schematic view illustrating a method of fixing a solar cell panel in the aquatic structure system of FIG. 8; FIG.

3 to 5, the upper facility support 110 and the lower buoyancy tank 120 are integrally connected to each other in the multifunctional buoyant body 100 for water solar power generation according to the embodiment of the present invention, Take a combined configuration.

The facility support 110 has a lid 111 formed at the lower end and left and right side channel portions 112 and 113 extending longitudinally in the longitudinal direction above the lid 111, (200 in Fig. 8) is integrally formed. A reinforcing frame portion 115 is integrally formed between the side channel portions 112 and 113 and the upper inclined surface portion 114 so as to be supported therebetween. A plurality of ventilation holes 115a are formed in the reinforcing frame portion 115 The distribution is formed to minimize the influence of the wind.

The buoyancy tank 120 is integrally covered with the lid part 111 through the rim of the opening 121 formed at the upper end and the internal space is divided into a plurality of partitions 122 to cover the lid part 111 So that a closed space independent from each other is maintained.

The facility support 110 and the buoyancy tank 120, which are constructed as described above, allow economical plastic injection molding by bifurcating the finished product production process up and down, and they are manufactured as separate injection molds, The preparation is completed through a post-process which is integrally bonded.

3 and 4, the multifunctional buoyant body 100 for a solar photovoltaic power generation system is constructed such that the C-shaped steel pipes 300 and 300 'are inserted through the side channel portions 112 and 113 formed on the right and left sides, respectively, (See FIG. 6) which is formed through the through hole 116 (see FIG. 6). In this way, a multifunctional buoyant body 100 for aquarium solar power generation can be fixed along the longitudinal direction of the C-shaped steel 300, 300 '.

As shown in FIG. 7, a plurality of multi-function buoyant bodies 100 for water solar photovoltaic power generation fixed in the longitudinal direction as described above are arranged so as to extend in the longitudinal and longitudinal directions of the C-shaped steel 300, 300 ' And the cushioning members 300 and 300 'adjacent to each other on the left and right sides are laid over the foot plate 400 in a transverse direction so as to be integrally fixed to each other so as to be integrally fixed to each other between the adjacent buoyant members in the transverse direction. Accordingly, the lattice-shaped water structure 500 as shown in Fig. 7 can be assembled.

The left and right side end portions of the solar cell panel 200 are supported and fixed through the inclined surface portion 114 of the multifunctional buoyant body 100 for water solar power generation adjacent in the lateral direction in the assembled water structure 500.

3 and the like, on the inclined surface portion 114 at the upper end of the facility support 110, a longitudinal guide portion 131 is formed at a constant height along the longitudinal direction inclined back and forth along the center line, And the lateral direction guide portion 132 is protruded from the lower end portion of the longitudinal guide portion 131 at a predetermined height in the transverse direction. Accordingly, the longitudinal guide portion 131 and the lateral guide portion 132 are orthogonal to each other to have a 'T' shape. Further, a blocking plate 133 having a width wider than the width of the wall constituting each guide portion is additionally formed along the upper end surfaces of the longitudinal guide portion 131 and the lateral guide portion 132, The shield plate 133 on the upper end surface of the section 131 protrudes left and right beyond the longitudinal guide section 131 and the shield plate 133 on the upper end surface of the lateral guide section 132 is inclined upward The width of the guide portion 132 is greater than that of the lateral guide portion 132. [

The left or right end of the solar cell panel 200 (FIG. 8) is inserted along the longitudinal guide portion 131 to support the bottom surface on the inclined surface portion 114, and the inserted solar cell panel 200 The front end portion of the left or right end portion is held in contact with the lateral direction guide portion 132.

Although the internal space of the buoyancy tank 120 is divided into the plurality of partitions 122, the present invention is not limited to this configuration. For example, the internal space of the buoyancy tank 120 may be divided into a plurality of compartments It may be configured to be filled with a foam foam.

On the other hand, in FIG. 8, a blocking plate (133 in FIG. 3) is formed so that the solar cell panel can be retractably inserted on the inclined surface portion of the multifunctional buoyancy body for water solar power generation adjacent in the transverse direction.

3, a recessed portion 117 formed in one vertical surface portion of the multifunctional buoyant body 100 for aquamarine power generation, a ring portion 117b formed in the recessed portion 117 is further formed, 9, the neighboring solar cell panels 200 are fixed to each other through the connection rings 140 coupled to the hooks 117b.

As described above, the multifunctional buoyant body 100 for aquatic solar power generation and the aquatic structure system using the same are merely examples for facilitating understanding of the present invention, so that the scope of the present invention and the technical scope thereof are limited to those described above It is difficult to understand that. The scope of the present invention is defined by the appended claims and their equivalents.

100: Water Photovoltaic power generation multifunctional buoyant body 110: Facility area
111: lid portion 112, 113: side channel portion
114: slope portion 115: reinforcing frame portion
115a: ventilation hole 116: fastening hole
117a: recessed groove portion 117b:
120: buoyancy tank 121: opening
122: partition 131: longitudinal guide
132: transverse direction guide portion 133:
140: Connection ring
200: Solar cell panel 300: C-shaped steel
400: scaffold 500: aqueduct structure

Claims (7)

An upper structural support having a lower lid portion, left and right side channel portions formed on the lid portion and extending in the horizontal direction, and an upper inclined surface portion for supporting the solar cell panel;
And a lower buoyancy tank which is integrally joined to the structure supporting member in a state of being covered with the lid part through a rim of an opening formed at the upper end and the inner space is closed from the outside,
Wherein the structure support and the buoyancy tank are made of a plastic injection-
The structure support
Wherein a plurality of ventilation holes are formed in the reinforcing frame portion so as to pass through the side channel portion and the reinforcing frame portion that mediate the inclined face portion in the left and right direction. delete delete The method according to claim 1,
Wherein a plurality of compartments or foams are filled in the inner space of the buoyancy tank. A water structure system using the multi-function buoyant body for water solar power generation according to claim 1,
A multifunctional buoyant body for aquaria photovoltaic generation is fixed at regular intervals in the longitudinal direction through a section of a steel pipe or a pipe which is fastened to the left and right sides through the side channel portion, A grid-like water structure formed by fixing the plurality of multi-function buoyant bodies for aquatic solar power generation at predetermined intervals in the lateral direction;
And a plurality of solar cell panels supported on both sides of the inclined surface of the multifunctional buoyant body for water solar power generation adjacent to the transverse direction. 6. The method of claim 5,
A blocking plate is formed on the inclined surface portion of the multifunctional buoyancy body for water solar power generation adjacent to the transverse direction so that the solar cell panel can be retractably inserted,
A concave groove portion formed in a vertical surface portion of the multifunctional buoyant body for water power generation and a coupling portion formed in the concave groove portion and a coupling ring coupled to the ring portion,
And the neighboring solar cell panels among the plurality of solar cell panels are fixed by the connection rings. 6. The method of claim 5,
The structure support
A plurality of fastening holes formed in the side channel portion and extending in the right and left direction and a plurality of fasteners formed in the steel pipe or pipe supported on the right and left side surfaces of the side channel portion, Wherein the steel pipe or pipe is fixedly fastened.

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