KR101377616B1 - A floating marine structure for solar energy generating facility - Google Patents

Abstract

The present invention relates to a floating offshore structure for solar power comprising: a pipe mounting unit in which one or a plurality of pipe penetration holes are formed; a floating installation unit floated on the water surface as being integrally formed on the top of the pipe mounting unit and in which a plurality of holders are installed to be fixed in a vertical upper direction on the upper surface; base members located to be separated at regular intervals forwards and backwards while being vertically arranged; a flotation pipe for connecting a plurality of base members while being inserted and interposed by being penetrated in a straight line to the pipe penetration holes formed in a plurality of base members and in which partitions are formed to cross the inner part in a horizontal direction to be vertically partitioned; a flotation assembly in which a tap in which water holes are perforated at each lower part of the opened floatation pipe is integrally assembled and the water is filled only the lower part of the inner partition of the floatation pipe through the water holes to be balanced while being floated on the water surface; and solar panels for converting the solar energy into electric energy while connecting and fixing the upper part of the base members installed to be separated at regular intervals forwards and backwards as one or more solar panels are fixed and installed to be inclined in a horizontal direction or to be inclined at a specific angle along the upper part of the holder installed at the base members.

Description

A floating marine structure for solar energy generating facility

The present invention relates to a prefabricated offshore structure that is installed in the sea or river or lake near the coast or body of water, one or a plurality of solar panels are installed on the top floating on the water surface to produce power through photovoltaic power generation. Preferably, the pipe mounting portion having one or a plurality of pipe through-holes is formed integrally on the upper portion of the pipe mounting portion and floats on the water surface, and the upper surface portion includes a floating installation portion in which a plurality of cradles are vertically fixed and installed vertically. The base member is provided with a plurality of base members spaced apart from each other at regular intervals, and a buoyancy pipe connecting the plurality of base members while being inserted through and inserted in a straight line back and forth in a pipe through-hole formed in the plurality of base members. In the horizontal direction before and after the bulkhead It is designed to be divided up and down, and the front and rear sides of the floating pipe are integrally assembled with a stopper with perforated holes in the lower part, respectively. The buoyant assembly and the plurality of base members are fixedly installed in a state in which one or more are inclined at an angle or inclined at an angle along the upper part of the cradle provided in the plurality of base members, while connecting and fixing the plurality of base members installed at regular intervals before and after. It relates to a floating offshore structure for solar power, characterized in that consisting of a solar panel for converting into electrical energy.

Recently, as the concern about depletion of fossil fuels and the environmental pollution problem caused by the use of fossil fuels has emerged as an important issue, research on eco-friendly power generation facilities using natural power, such as solar power, is being actively conducted. Is a national renewable energy national project, and is being promoted as a very important project for the future of mankind which is growing rapidly with the support of the government. The photovoltaic power generation system generates power by converting solar energy into electrical energy by installing a solar panel. A support structure is installed on a ground to install a solar panel on the support structure, or a solar panel is mounted on an exterior wall or roof of a building. It is a power generating device that installs power.

Such a photovoltaic power generation system has a problem in that the initial investment cost of a power generation facility or a power generation facility that uses environmentally friendly and non-consumable resources is large, and a long time to recover the investment cost. Since the installation should be consistent with the incoming direction, the installation cost of the solar generator is high, and because the land is not available for other uses such as agriculture, there is a problem of low economical efficiency, high maintenance and repair costs, and low economical efficiency. In addition, since a large space is required to build a large-scale solar power plant on the ground, there is a problem that it is difficult to construct a power plant due to complaints of environmental groups and neighboring residents due to a lot of natural damage.

In the prior art to improve this problem, Korean Patent Publication No. 10-1075161 discloses a floating photovoltaic power generation system installed at sea, the upper plate of the plurality of air tanks for floating the structure on the water surface A one-layer structure that is installed to form a line and constitutes a floating structure in a lattice structure including an outer line and an intermediate line connected to the outer line across the middle; A two-layer structure provided with a plurality of pillar members at a predetermined height on an upper portion of the one-layer structure, and including a two-layer upper plate portion covering the entire upper portion of the pillar member; A solar power generation module arranged on an upper surface of the two-layer structure; A plurality of towers fixed to the sea floor and protruding to an upper surface of the water to fix the one-layer structure and the two-layer structure in a floating state on the surface of the water; Floating offshore photovoltaic power generation system is characterized in that it comprises a control device for transmitting the power produced by the solar power module to the land.

However, the prior art is to install a plurality of towers on the seabed in order to fix the one-layer structure and the two-layer structure in a floating state on the water surface, it is very difficult to install a plurality of towers, construction period and installation cost There was a problem that it takes a great deal and is less practically possible.

The present invention is to improve the problems as described above to form a partition wall in the horizontal and horizontal direction inside the buoyant pipe while the buoyant pipe is integrally interposed in a plurality of base members located at a predetermined interval before and after the body. The upper and lower parts of the flotation pipe are assembled together with the stopper pipe perforated in the open front and rear, and the water is filled only in the lower part of the inner partition wall of the flotation pipe through the hole in the floating state on the surface of the flotation pipe. It is installed to be stably balanced by water contained in the inner lower part of the front and rear of the one or the plurality of solar panels fixedly installed horizontally or inclined at an angle along the upper part of the cradle provided in the plurality of base members. Upper part of a plurality of base members spaced at regular intervals And rigidly connected to the fixed conversion of solar energy into electrical energy and it is an object to producing power at sea.

In order to achieve this purpose, the pipe mounting portion having one or a plurality of pipe through-holes is formed integrally with the upper portion of the pipe mounting portion and floats on the water surface, and the upper surface portion includes a floating installation portion fixed vertically upwardly. Base members are placed in a vertical position and spaced apart from each other at predetermined intervals, and a buoyant pipe connecting the plurality of base members while being inserted and inserted through the pipe through holes formed in the plurality of base members in a straight line. The flotation pipe is formed to partition up and down as the partition wall is formed in the horizontal direction in the front and rear horizontal direction. Inner bulkhead of flotation pipe through Floating assembly which is filled with water only at the bottom and balanced, and a plurality of base members fixedly installed in a state in which one or more are inclined at an angle or horizontally inclined at a predetermined angle along the upper part of the cradle provided in the plurality of base members. It is a feature of the present invention that the solar panel is configured to convert the solar energy into electrical energy while fixing the upper part.

According to the present invention as described above, while the buoyant pipe is integrally interposed in a plurality of base members positioned at a predetermined interval before and after in a straight line, partition walls are formed in the buoyant pipe across the horizontal direction in the vertical direction so as to be up and down. In the open front and back of the pipe, the stopper with perforated holes is integrally assembled, and the water is filled in the lower part of the inner bulkhead of the flotation pipe while floating on the water. It can be installed to be stably balanced by the one, or a plurality of solar panels along the top of the cradle provided in the plurality of base members are fixedly installed in a state lying horizontally or inclined at a predetermined angle spaced apart before and after Firmly connected upper part of installed base member It is fixed and converts solar energy into electric energy, so it is possible to stably produce power through low installation cost and simple assembly construction at sea.

1 is an exploded perspective schematic view of a floating offshore structure for solar power generation according to the present invention
Figure 2 is a perspective schematic view of a state in which a plurality of flotation assemblies are assembled to a plurality of base members in the solar offshore floating structure according to the present invention
Figure 3 is a perspective perspective view of the assembly of the solar offshore floating structure according to the invention
Figure 4 is a perspective schematic view of the state in which the scaffold is installed on the solar offshore floating structure according to the invention
Figure 5 is a longitudinal cross-sectional schematic diagram of the floating offshore structure for solar power generation according to the present invention
6 is a longitudinal cross-sectional schematic view of a state in which water is not filled in the lower portion of the inner plate of the flotation pipe by fitting the sealing cock into the water hole drilled in the front and rear stoppers of the solar offshore floating structure according to the present invention;
Figure 7 is a perspective schematic view of a state in which a plurality of floating offshore structures according to the present invention connected to the left and right assembled
8 is a schematic front view of a state in which a plurality of floating offshore structures according to the present invention are assembled to the left and right
Figure 9 is a perspective schematic view showing another embodiment of the floating offshore structure for solar power generation according to the present invention

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

Floating offshore structure (1) of the present invention is one or a plurality of solar panels on the top floating on the water while being installed in the vicinity of the sea or river or lake near the water as shown in Figures 1 to 9 ( 22) is installed to produce electric power through photovoltaic power generation, as a prefabricated offshore structure, one or a plurality of pipe through holes (4) is formed integrally formed on the pipe mounting portion 3 and the upper portion of the pipe mounting portion (3) The base member (2) is composed of a floating mounting portion (5), which is fixed to the upper surface portion while a plurality of cradle (6) is installed vertically upward while floating on the water surface, the plurality of which are positioned at a predetermined interval spaced forward and backward, A buoyant pipe 14 is provided to connect the plurality of base members 2 while being inserted and inserted through the pipe through-holes 4 formed in the plurality of base members 2 in a straight line. Each flotation pipe 14 has a partition wall 15 formed therein so as to cross up and down in the horizontal direction, and the up and down compartments of the flotation pipe 14 are opened and closed at the bottom, respectively. 16a) and 16b are integrally assembled and floated on the water in the state floating on the surface of the buoyant assembly 13 which is filled with water only in the lower portion of the inner partition wall 15 of the buoyant pipe 14 through the hole 17, Along the upper portion of the cradle 6 provided in the plurality of base members 2 is fixedly installed in a state lying inclined at an angle or horizontal or at an angle to connect the upper portion of the plurality of base members 2 spaced apart before and after predetermined intervals. It is composed of a solar panel 22 that converts solar energy into electrical energy while being fixed.

The base member 2 is made of a synthetic resin material such as polyethylene, as shown in Figures 1 to 9 and is arranged to be spaced apart at a predetermined interval in the front and rear direction in a vertically placed state, the base member (2) The pipe mounting portion 3 is formed with one or a plurality of pipe through holes (4), and formed integrally in the upper portion of the pipe mounting portion 3 is floating on the water surface and the plurality of cradle (6) on the upper surface portion vertically upward It consists of a floating installation part 5 is fixedly installed.

The pipe mounting portion 3 has a trapezoidal shape when viewed from the front as shown in FIG. 1, and one or a plurality of pipe through-holes 4 are formed at predetermined intervals on the inside, so that each pipe through-hole 4 is formed. The buoyant pipe 14 of the buoyant assembly 13 is interposed therethrough so that the buoyant pipe 14 is fitted therethrough, and the pipe mounting portion 3 has a key groove 7 in communication with a portion where each pipe through-hole 4 is formed. The buoyant pipe 14 is inserted into the pipe through-hole 4 so that the key block 18 protruding in the front and rear in a straight line on the outer circumferential surface of the buoyant pipe 14 is inserted so as to correspond to the key groove 7. 14 is prevented from being rotated or flowed in the state interposed in the pipe through-hole 4.

The floating installation part 5 is a buoyant assembly which is integrally formed on the pipe mounting part 3 while being integrally formed on the upper part of the pipe mounting part 3 in a long rectangular shape in a horizontal direction as shown in FIGS. 1 to 9 ( 13) is to be positioned in a floating state on the water surface by the buoyancy force (up) and a plurality of cradle (6) is fixed to the upper surface vertically installed in the upper surface portion, and the horizontal and the inside of the floating installation portion (5) A plurality of internal supports 8 are formed in a lattice manner in the longitudinal direction to reinforce the overall strength of the floating installation part 5, and as shown in FIG. 4 between the plurality of internal supports 8, respectively. The scaffold 9 of a straight line shape long in the front and rear direction is to be installed, but the scaffold 9 is an internal support of each floating installation part 5 provided in the plurality of base members 2 positioned at predetermined intervals before and after ( 8) between As the fixed installation through connecting a plurality of the base member (2) moves to the surface after floating Lorna is adapted to form the space.

On the other hand, the floating installation portion 5 is fixed to the "X" shaped reinforcement 10 in the inner side between the plurality of internal support (8) as shown in Figure 8, the entire floating installation portion 5 It is intended to enhance durability and strength.

In addition, the floating installation portion 5 is a plurality of cradle (6) is fixed to the vertically upward through a bolt or nut on the upper surface portion and the solar panel 22 is installed on the upper surface portion of each cradle (6) When the support plate 23 inclined at a horizontal or constant angle is integrally fixed to the mounting angle of the solar panel 22 so as to stably support the solar panel 22, and the solar panel 22 is installed to be inclined, FIG. 1. As shown in 6 to 6, the cradle toward the floating installation portion 5 of the base member 2 located behind the cradle 6 installed in the floating installation portion 5 of the base member 2 located in the front ( The height of 6) is gradually increased so that the solar panel 22 installed along the upper part of the holder 6 provided in the plurality of base members 2 is installed at an inclined angle. The solar panel 22 is installed horizontally In this case, the heights of the holders 6 installed in the floating installation part 5 of the plurality of base members 2 are all installed at the same height.

In addition, the floating installation portion 5 has one or a plurality of coupling protrusions 11 protruding outwardly on one side and one or more coupling holes 12 at a height corresponding to the coupling protrusion 11 on the other side. 7 and 8, when the plurality of floating marine structures 1 are connected to the left and right as shown in FIGS. 7 and 8, the couplings are punched in the floating installation unit 5 of the floating marine structures 1 located on one side. As the coupling protrusion 11 formed on the floating installation portion 5 of the floating offshore structure 1 located at the other side in the hole 12 is fitted and coupled, a plurality of floating offshore structures 1 are connected to the left and right. In addition, the floating installation portion 5 of the plurality of floating offshore structures 1 which are in contact with each other is connected through a bolt and a nut to be more firmly connected.

The support assembly 13 is made of synthetic resin material such as polyethylene, as shown in FIGS. 1 to 9, and is arranged in a straight line before and after the pipe through-hole 4 formed in the plurality of base members 2 positioned at predetermined intervals. A buoyant pipe 14 is provided to connect the plurality of base members 2 while being inserted therethrough, and each buoyant pipe 14 has a partition wall 15 formed therein in a horizontal direction so as to be vertically partitioned and buoyant pipe ( 14, the stopper 16a, 16b of the water hole 17 drilled in the lower part is integrally assembled in the open front and rear sides of the flotation pipe 14 through the water hole 17 in a floating state on the water surface. Water is filled only in the lower portion of the inner partition wall 15 to maintain the balance. The flotation pipe 14 is a cylindrical pipe that is long and wide in the front and rear direction in which the front and rear sides are opened as shown in FIGS. 1 to 9. As the key block 18 protrudes upward, the support pipe 14 is inserted into the pipe through-hole 4 of the pipe mounting portion 3 provided in the plurality of base members 2 positioned at predetermined intervals before and after. The key block 18 of the flotation pipe 14 is inserted into the key groove 7 of the pipe mounting portion 3 so that the flotation pipe 14 is rotated or flows in a state interposed through the pipe through-hole 4. It is to prevent.

In addition, the partition 15 is formed integrally in the horizontal direction so as to be up and down in the inner center portion of the flotation pipe 14, and the stoppers 16a and 16b are integrally assembled on each of the opened front and rear sides. 1, 5, and 6, the stopper 16a, 16b has a hemispherical case shape convex forwardly or rearwardly, and a diaphragm 19 is integrally formed at the inner center portion in a horizontal direction. At the end of the 19, a fitting groove 20 is formed in which the front and rear ends of the partition 15 are fitted to be coupled so that the diaphragm 19 and the partition wall 15 of the stoppers 16a and 16b are integrally connected. The upper part of the inner partition wall 15 of the flotation pipe 14 is kept in a closed state to have a constant flotation force in the water, and the lower part of the inner partition wall 15 of the flotation pipe 14 has the flotation pipe 14 on the water surface. Lower part of the front and rear stoppers 16a and 16b in a raised state As the water is filled through the perforated water hole 17, the flow of the flotation pipe 14 is prevented by the water contained therein, so that the floating offshore structure 1 is stably balanced even in strong waves or storms without being shaken. have.

On the other hand, the flotation assembly 13 is a PE welded connection portion of the stopper 16a (16b) and the flotation pipe 14 fitted in front and rear of the flotation pipe 14, each flotation pipe 14 is a pipe PE welding is also carried out through the pipe penetration hole 4 of the mounting portion 3, so that the connection assembly between the base member 2 and the support assembly 13 is more firmly assembled, and the flotation pipe is caused by strong wind or waves. (14) and stoppers 16a and 16b are prevented from being separated.

In addition, the support assembly 13, as needed, as shown in FIG. 6, while the sealing cock 21 is fitted into the water hole 17 perforated in the front and rear plugs 16a and 16b, the water supply hole 17 The water is not filled in the lower portion of the inner plate 19 of the flotation pipe 14 so as to increase the flotation force or at a predetermined level in the lower portion of the inner plate 19 of the flotation pipe 14. In the state filled with water can be coupled to the sealing cock 21 in the water hole 17 so that no more water flows into the inner lower portion of the flotation pipe (14).

1 to 9, the solar panel 22 is fixedly installed in a state in which one or more are inclined at an angle or horizontally inclined at a predetermined angle along an upper portion of the holder 6 provided in the plurality of base members 2, as shown in FIGS. The solar panels are converted into electrical energy while fixing and fixing the upper and lower portions of the base member 2 installed at predetermined intervals before and after the solar panel. The solar panel 22 converts the solar energy into a module state in which a plurality of solar cells are assembled. It is to be converted into electrical energy and is integrally fixed to the base plate 23 of the holder (6) provided in the plurality of base members (2) by bolts or nuts, and the power supply means such as ordinary storage batteries and regulators ( (Not shown) is electrically connected to the circuit to store electrical energy generated from the solar panel 22 to supply power to other facilities or devices. The power supply means (not shown), such as the battery and the regulator, is fixed to the scaffold 9 or the upper surface of the floating installation part 5 of the floating offshore structure 1, and the storage battery has a power cable. It is connected to power plants installed on land and supplies and uses stored electric energy.

On the other hand, as another embodiment according to the present invention as shown in Figure 9 the pipe through hole located on the right side of the plurality of pipe through holes (4) formed in the pipe mounting portion 3 of the base member (2) located in front (4) and the pipe through-holes (4) located on the left side of the plurality of pipe through-holes (4) formed in the pipe mounting portion (3) of the base member (2) located at the rear in such a way that they are located in front and rear straight line with each other The plurality of base members 2 are positioned to overlap each other back and forth in turn, and the plurality of flotation pipes 14 are interposed through the pipe through-holes 4 overlapped by the plurality of base members 2, and then are suspended in the offshore structure 1 of large size. ) Can be assembled, and a plurality of solar panels 22 are installed on the upper portion thereof, so that large-scale photovoltaic power generation is performed at sea.

Hereinafter, the operation of the present invention will be described.

Photovoltaic solar floating structure (1) according to the present invention is assembled through the one or a plurality of solar panels 22 installed above the water while being installed in the vicinity of the sea or river or lake shore or water bodies When the electric power is to be produced by power generation, first, as shown in FIG. 1, the plurality of base members 2 are positioned at predetermined intervals before and after the pipes of the pipe mounting part 3 provided in the plurality of base members 2. While inserting the support pipe 14 of the support assembly 13 in the front-rear direction through the through hole 4, the plurality of base members 2 are connected to the support pipe 14, but the outer peripheral surface of the support pipe 14 The protruding linear key block 18 is inserted into the key groove 7 of the pipe mounting portion 3 to prevent flow.

Next, the front and rear ends of the buoyant pipe 14 protruding outward through the pipe through hole 4 of the base member 2 located at the front and rear, respectively, are hemispherical stoppers 16a and 16b which are convex forward or backward. ) To block the open front and rear of the flotation pipe 14, but as shown in Figures 5 and 6, the insertion of the plate 19 formed in the horizontal direction in the middle in the middle of the stopper (16a) (16b) The upper end of the inner partition wall 15 of the flotation pipe 14 is kept closed while the end of the partition wall 15 formed in the horizontal direction is fitted into the groove 20 so as to be vertically partitioned inside the flotation pipe 14. It has a constant buoyancy in the water and the lower part of the inner partition wall 15 of the flotation pipe 14 is drilled in the lower portion of the front and rear plugs 16a and 16b in the state in which the flotation pipe 14 is placed on the water surface. Filled with water through 17, buoyant by water contained inside Loop 14. The flow is prevented from strong waves or storm is held in balance to be floating offshore structure (1) is stable without hitting the swing.

In the state where the plurality of base members 2 and the plurality of support assemblies 13 are assembled as described above, the plurality of cradles 6 are vertically upward on the upper surface portion of the floating installation part 5 of each base member 2. Floating offshore structure (1) is fixedly installed in a state in which one or a plurality of solar panels 22 are laid horizontally or at an inclined angle along an upper portion of the holder 6 of the base member 2 installed at a predetermined interval before and after. Allow solar power to be floated on this sea.

1. Floating offshore structure 2. Base member
3. Pipe mounting part 4. Pipe through hole
5. Floating installation part 6. Cradle
7. Keyway 8. Internal Support
9. Footrest 10. Reinforcement
11. Coupling protrusion 12. Coupling groove
13. Floating Assembly 14. Floating Pipe
15. Bulkheads 16a, 16b. stopper
17. Passenger 18. Key Block
19. Plate 20. Fitting groove
21. Airtight Coke 22. Solar Panel
23. Support plate

Claims (6)

Float that is formed on the pipe mounting portion 3 and the pipe mounting portion 3 formed with one or a plurality of pipe through-holes 4 and floating on the surface of water while the plurality of cradles 6 are fixedly installed vertically upward. Consists of the installation portion 5, but in a vertically placed state, the plurality of base members 2 are spaced apart from the front and rear by a predetermined interval and the pipe through-holes 4 formed in the plurality of base members 2 in a straight forward and backward straight line A buoyant pipe 14 is provided to connect the plurality of base members 2 while being inserted, and each buoyant pipe 14 is partitioned up and down while the partition wall 15 is formed across the front and rear horizontal directions. Opening front and rear of the pipe 14, the stopper (16a, 16b) in which the water hole 17 is drilled in the lower portion of each of the flotation pipe 14 through the water hole 17 in the state floating on the water surface Medial lattice (15) A state in which one or more are inclined horizontally or at an angle along the upper part of the support assembly 13 and the base 6 provided in the plurality of base members 2 to keep the water filled only in the balance. Floating offshore structure for solar power generation, characterized in that consisting of a solar panel 22 for converting the solar energy into electrical energy while fixing and fixing the upper portion of the base member (2) installed fixedly spaced before and after a predetermined interval.
According to claim 1, The base member (2) has a key groove (7) is formed in communication with the portion where each pipe through hole 4 is formed in the pipe mounting portion (3), the support pipe (4) 14 is inserted through the key block 18 protruded in a straight line front and back on the outer circumferential surface of the flotation pipe 14 to match the key groove (7), the horizontal and the inside of the floating installation portion (5) The plurality of inner supports 8 are formed in a lattice manner in a longitudinal direction, and the plurality of inner supports 8 are provided with a straight scaffold 9 which is long in the front-rear direction, respectively, and the scaffold 9 Is connected to the plurality of base members (2) while passing through the inner support (8) of each floating installation portion 5 provided in the plurality of base members (2) positioned at a predetermined interval before and after fixedly connected to the water surface Forming a floating moving path or a space part Floating offshore structure for solar power, characterized in that.
According to claim 1 or 2, The floating installation portion 5 is one or a plurality of engaging projections 11 on one side protruding to the outside and the other side to the height corresponding to the engaging projection 11 One or a plurality of coupling holes 12 are drilled so that the floating offshore structure 1 located on the other side of the coupling hole 12 drilled in the floating installation portion 5 of the floating offshore structure 1 located on one side. A floating offshore structure for solar power generation, characterized in that the plurality of floating offshore structures 1 are connected to each other while the coupling protrusions 11 formed on the floating installation part 5 are fitted.
The method of claim 1, wherein the flotation pipe 14 has a key block 18 protruding from the outer circumferential surface in a straight line in front and rear, and the stopper 16a, 16b is in the form of a hemispherical case convex forward or rearward. A diaphragm 19 is formed in the center portion in the horizontal direction, and an end portion of the diaphragm 19 is formed with a fitting groove 20 into which the front and rear ends of the partition wall 15 are fitted so as to be plugged 16a and 16b. As the diaphragm 19 of the support pipe and the partition wall 15 of the support pipe 14 are connected, the upper part of the inner partition wall 15 of the support pipe 14 is kept in a closed state to have a constant flotation force in water. Solar water generation structure for solar power generation, characterized in that the through-holes 17 perforated in the front and rear stoppers (16a) (16b) is fitted with a closed cock 21 is blocked.
According to claim 1 or 2, wherein the base member (2) is formed in the pipe mounting portion (3) a plurality of pipe through-hole 4 at regular intervals left and right, the front of the base member (2) The left side of the pipe through-hole 4 formed in the pipe through-hole 4 located on the right side of the pipe through-hole 4 formed in the pipe mount portion 3 and the pipe mount 3 of the base member 2 located rearward. The pipe through-holes 4 located in the plurality of base members 2 are positioned to overlap each other back and forth in such a manner that they are located in a straight line front and rear with each other, and the buoyant pipe 14 overlaps the pipe through the plurality of base members 2. Floating offshore structure for solar power generation, characterized in that the through-hole interposed in the hole (4).
In the floating offshore structure for solar power generation,
A pipe mounting portion 3 having a pipe through-hole 4 formed therein, and a floating mounting portion 5 formed on an upper portion of the pipe mounting portion 3 and floating on the surface of the water, and having a plurality of holders 6 fixed thereon. A base member 2; And a buoyant pipe 14 inserted into the pipe through-hole 4 to connect the plurality of base members 2, and the buoyant pipe 14 has a partition wall 15 formed therein to form an upper space and a lower part. It has a space, the lower space of the flotation pipe 14 is a floating offshore structure for solar power, characterized in that the water is filled through the water hole (17).

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