KR102410262B1 - Non-perforated photovoltaic power generation water structure and its construction method - Google Patents

Abstract

The present invention is to prevent corrosion of the frame of a water structure installed in the inner water surface or the sea due to penetration of seawater, etc.
The non-perforated photovoltaic water generating structure of the present invention is a mooring device that is inserted into the fixed hinge 211 and fixed bracket 240 formed on the upper part of the buoyancy body installed on the water surface and the hole of the fixed hinge and the fixed bracket to be connected. It is composed of a fixed shaft (230).
The fixed shaft 230 and the connection frame 220 installed on the upper part of each buoyancy body 210 cover the outer surfaces of the metal tubes 222. 232 with plastics 221 and 231 using the fixed shaft and the connection frame. When assembling the photovoltaic power generating water structure, the fixed shaft and the connecting frame are not drilled and inserted and fixed in the fixed hinge 211 and the fixed bracket 240 .
The water structure for photovoltaic power generation of the present invention has the effect of significantly extending the life of the water structure by coating a metal tube such as stainless steel with plastic such as PVC to prevent corrosion of the metal. In particular, when assembling the water structure using the fixed shaft and the connecting frame constituting the frame and frame of the water structure, there is an effect that can prevent penetration of seawater by assembling the fixed axis and the connecting frame without drilling holes.

Description

Non-perforated photovoltaic power generation floating structure and its construction method {.}

The present invention relates to a non-perforated photovoltaic power generating water structure, and more particularly, by manufacturing and assembling a non-perforated photovoltaic structure structure and fixing it with a mooring device, it is possible to fix the photovoltaic structure from wind, waves and waves. It relates to a non-perforated photovoltaic power generation floating structure and its construction method.

Recently, as the risk of nuclear power generation has risen significantly, research on power generation using renewable energy such as wind power and solar power generation is being actively researched and developed not only at the national level but also at the private sector.

This year marks the first year of the new climate regime in which all countries in the international community have pledged to respond to climate change, and international organizations are increasingly demanding response to climate change. According to the report 'Main Issues and Implications of the International Society Related to the European Green Deal' published by the Korea Institute for International Economic Policy (KIEP), in December of last year, the EU announced the 'European Green Deal', which set the goal of achieving zero carbon emissions by 2050. )' was announced.

Through the European Green Deal, the EU presented policy response plans for each of six policy areas: clean energy, sustainable industry, architecture, sustainable transport, agro-food, and biodiversity. In addition, a 100 billion euro worth of Just Transition Mechanism was proposed as part of the investment plan to raise the necessary financial resources.

In a country with a high dependence on fossil fuels like Korea, renewable energy policies such as the introduction of solar power generation systems are inevitably an inevitable choice even to respond to international carbon emission restrictions.

Considering the characteristics of solar power generation, which is an intensive industry, it is not easy to construct a large-scale power plant in the real world of Korea, so it is desirable to use the idle water surface. .

Floating photovoltaic power generation systems that utilize the water surface generate power by using idle water surfaces such as dams, reservoirs, lakes, rivers, and seas, and are accompanied by problems such as environmental destruction that occurs when using existing farmland and forests. Because it does not do it, it is positioned as an eco-friendly policy.

Although the floating solar power generation system of the prior art was invented to fit the utilization of the idle water surface, there is a problem in that the solar power generation structure installed on the water surface is fixed to the ground under water and corroded. In particular, when installing in the sea, such as at sea level, a metal structure such as stainless steel coated with PVC must be drilled to assemble the structure. There is a problem that the structure of the installed solar system should be easily disposed of.

Republic of Korea Patent Registration 10-1382417 (2014. 04. 01.) Republic of Korea Patent Registration 10-1595912 (2016. 02. 15.)

The present invention has been devised to solve the above problems, and the purpose is to prevent corrosion of the frame of the photovoltaic power generating water structure installed in the inner water surface or the sea due to penetration of seawater or the like.

In addition, it is an object of the present invention to connect the frame and frame constituting the water structure to each other and, when drilling a metal pipe coated with PVC for screw coupling, etc., the construction process of drilling and assembling a hole is complicated and time-consuming is to solve the problem.

Another purpose is to extend the period of use when constructing with a durable water structure as described above, so that the frequency of repair and repair is greatly reduced, so that the structure can be used for a long time. will do

In order to achieve the object as described above, the non-perforated photovoltaic water generating structure of the present invention is a mooring device with a fixed hinge 211 and a fixed bracket 240 formed on the upper part of the buoyancy body installed on the water surface, and the fixed hinge It consists of a fixed shaft 230 that is inserted into the hole of the fixing bracket and connected.

In the fixing bracket 240, the lower bracket 241 and the upper bracket 242 are coupled to face the adhesive surface 243, but the hole formed in the lower bracket 241 is connected to a fixing hinge 211 and inserted. The fixed shaft 230 is fitted, and the upper bracket 242 is connected to the hole of the fixing bracket 240 formed on the upper part of each buoyancy body 210 and the connection frame 220 is inserted into the buoyancy body 210 . to fix

The fixed shaft 230 and the connection frame 220 installed on the upper part of each buoyancy body 210 cover the outer surfaces of the metal tubes 222. 232 with plastics 221 and 231 using the fixed shaft and the connection frame. When assembling the photovoltaic power generating water structure, the fixed shaft and the connecting frame are not drilled and inserted and fixed in the fixed hinge 211 and the fixed bracket 240 .

In the fixing bracket 240, when the lower bracket 241 and the upper bracket 242 face the adhesive surface 243 and are coupled, the lower bracket 214 and the upper bracket 242 are coupled to each other. Washers 245 are respectively inserted inside the adhesive surfaces of both sides of the lower bracket and the upper bracket, and nuts 246 are positioned inside the washers, respectively, so that the ends of bolts 244 are screwed from both ends of the nut to fix the fixing. The lower bracket and upper bracket of the bracket are rotatably coupled.

The mooring device (100) includes a weight 31 positioned in the water in response to buoyancy, a steel vertical portion 22 fixed to the upper portion of the weight 31, and a counterweight installed on the steel vertical portion 22 (30), the steel wire side portion 21 installed in both directions of the counterweight 30, and

It is composed of a horizontal bracket 12 to hold the steel wire side part 21, and the steel wire side part 21 is caught by a bracket roller installed on the horizontal bracket 12 and is integrally formed with the steel wire horizontal part 20 to form a water structure. When moving, the steel wire side part 21 slides on the bracket roller.

The water structure for photovoltaic power generation of the present invention has the effect of significantly extending the life of the water structure by coating a metal tube such as stainless steel with plastic such as PVC to prevent corrosion of the metal. In particular, when assembling the water structure using the fixed shaft and the connecting frame constituting the frame and frame of the water structure, there is an effect that can prevent penetration of seawater by assembling without drilling holes in the fixed axis and the connecting frame.

As such, when a solar power generation system is constructed using a non-perforated water structure, the lifespan of the water structure is greatly extended, thereby reducing costs and maximizing profits, which is economical.

In addition, by fixing the water structure with a mooring device, the cost of installing or removing the water structure on the water can be easily reduced at a low cost.

1 is a perspective view of a non-perforated photovoltaic water generating structure according to the present invention.
Figure 2 is a combined perspective view of the non-perforated water structure according to the present invention.
3 is an exploded perspective view of the non-perforated water structure according to the present invention.
Figure 4 is an embodiment of the non-perforated photovoltaic water surface structure according to the present invention.
Figure 5 is a perspective view in which the mooring device is coupled to the non-perforated photovoltaic water structure according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described with accompanying drawings.

Prior to describing the present invention in detail, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

1 is a perspective view of a non-perforated photovoltaic power receiving structure according to the present invention.

As shown in FIG. 1, the water structure for photovoltaic power generation according to the present invention connects 1 to 4 buoyancy bodies 210 having buoyancy and floats them on the water surface, such as the inner water surface or the sea, and the connected buoyancy body is on the upper part. It is composed by connecting the frame so that a solar panel can be installed for solar power generation. In addition, a mooring device is attached to the lower portion of the connected buoyancy body to serve as an anchor so that the buoyancy body does not float away while stably floating on the water surface.

A plurality of fixing hinges 211 with holes formed on the upper portion of the buoyancy body 210 constituting the water structure are installed in the longitudinal direction, and a fixing bracket 240 is installed to connect the buoyancy body between the fixing hinges 211. do. A fixing shaft 230 is inserted into the hole formed in the fixing hinge 211 and the fixing bracket 240 to hold the buoyancy body 210 .

2 and 3, the fixing bracket 240 is coupled with the lower bracket 241 and the upper bracket 242 facing the bonding surface 243, but the bonding method is a washer 245 on the inside of both bonding surfaces. ) are respectively inserted, and the bolts 244 are screwed between each nut 246 to be rotatably coupled. The fixing shaft 230 inserted into the fixing hinge 211 is fitted into the hole formed in the lower bracket 241, and the hole of the fixing bracket 240 formed on the upper portion of each buoyancy body 210 is in the upper bracket 242. The connection frame 220 that is inserted into the is inserted to fix the buoyancy body 210 . This bonding method has the effect of greatly preventing corrosion even if it is installed in water such as the sea because the PVC-coated connection frame and the fixed shaft are not drilled.

That is, the fixed shaft 230 and the connection frame 220 installed on the upper part of each buoyancy body 210 cover the outer surfaces of the metal tubes 222. 232 with plastics 221 and 231, and connect the fixed shaft and the connection frame with the plastics 221 and 231. When connecting, the fixed shaft and the connecting frame are fastened using the fixed hinge 211 and the fixed bracket 240 without perforating (no perforation). When the metal tube of the fixed shaft 230 and the connecting frame 220 is covered with plastic such as PVC (polyvinyl chloride), the PVC is coated to a thickness of 0.5 mm or more, preferably 1 to 5 mm.

The metal pipe used for the non-perforated fixed shaft 230 and the non-perforated connection frame 220 uses a steel pipe such as stainless steel, and a plastic covering the metal pipe uses PVC, etc., and may be coated with PEEK. The PEEK has strong tensile strength, break point, impact strength, flexural strength, thermal conductivity and coefficient of linear expansion, and the softening point and thermal deformation temperature are also high at 250 ° C.

In addition, both ends of the fixed shaft 230 and the connecting frame 220 are covered with plastic, preferably PVC, to seal the metal tube from penetrating seawater.

A plurality of non-perforated fixed shafts 230 connected and fixed to the upper portion of the buoyancy body 210 spaced apart from each other by a plurality of positions on the water surface to receive buoyancy force are fixed hinges 211 formed on the upper surface for fixing the buoyancy body 210 . ) and is inserted into the hole of the fixing bracket 240 and penetrates, and the fixed shaft 230 rotates little by little when the buoyancy body 210 moves according to the wave or wave to alleviate the impact of the wave, and by the wave and wave Even if seawater or the like wets the non-perforated fixed shaft 230 when swinging, it is coated with PVC, etc., so that the metal tube inside is safely protected.

The fixing bracket 240 to which the non-perforated fixing shaft 230 is fastened is installed at the same position of each buoyancy body 210 , and penetrates the hole formed in the upper bracket 242 of the fixing bracket 240 to fix the fixing bracket 240 . The shaft 230 and the non-perforated connection frame 220 arranged in a grid shape is fixed by connecting the buoyancy bodies 210, even if the non-perforated connection frame 220 moves the buoyancy body 210 by the waves. The non-perforated connection frame 220 inserted into the fixing bracket 240 rotates little by little to stably fix the buoyant body, and even if seawater wets the buoyant body and the non-perforated connection frame 220 by waves, it is made of PVC, etc. Since it is coated, the non-perforated connection frame 220 can prevent damage such as corrosion.

At this time, a fastening unit 281 is formed at both ends of the fixed shaft 230 , and a pair of wing parts 283 formed in the fastening oil are connected to the other buoyancy body 210 or to the surface of the buoyancy body 210 . It is used when fixing in When fixing the buoyancy body 210, the fastening unit 281 is fastened to the connection unit 282, and the connection unit 282 is elongated by a fixing wire and fixed at a desired position to fix the buoyancy body 210. is fixed so that it does not float away.

The connection frame 220 is arranged in a grid shape on the upper portion of the fixed shaft 230 to connect the buoyancy bodies 210 spaced apart at regular intervals to enhance the buoyancy of the buoyancy bodies 210, and to increase the buoyancy force of the plate 223. The support portion 212 is fixed to each buoyancy body 210 to fix the buoyancy body 210 , and a hole through which the fixing shaft 230 passes may be formed in the plate 223 .

At this time, 2 to 6 fixed hinges 211 formed on the upper portion of the buoyancy body 210 may be formed at regular intervals, and preferably, 2 to 6 first brackets formed with a plurality of 4 are formed. and it is preferable to form four.

The configuration of the buoyancy body 210 is made by connecting and fixing the unit buoyancy body with a connecting pin, and the internal shape is a trapezoid or a concave shape or a mound shape and is formed into a compression type at the water surface to have buoyancy. As it goes inside, it becomes flatter.

In addition, the external shape is made obliquely to minimize the transmission of vibration energy such as waves, swells, waves, etc. It is preferable to configure the inclined surface so that the power can be dispersed and lost as the wave rides up.

In addition, the inner surface of the buoyancy body 210 is configured in the shape of an upside-down gourd, concave, trapezoid, and mound, so that the water structure can minimize movement due to waves, and the water structure due to overturning or submersion It has the advantage of securing stability by preventing breakage of the

When the buoyancy body 210 is viewed from the side, the area submerged in water floats upward by the buoyancy force, and the force to be submerged in the water by gravity and the atmospheric pressure and the weight of the object itself in the part outside the water surface. It is composed of a shape that is about to be submerged.

That is, the two forces conflict with each other to make the float float on the water surface, which can be explained by taking the stability of the ship as an example.

For example, in the case of a ship, the center of gravity must be lower than the center of gravity (the center of the inclination state) to be able to float by aligning the center with the action of the restoring moment. The example of restoring moment can be applied.

The method of configuring the mooring device 100 to float while receiving the restoring moment in the water is effective in preventing overturning by placing the center of gravity of the mooring device 100 in the water and the center of gravity is higher than the center of gravity so that the restoring moment can act.

Alternatively, the shape of the buoyancy body 210 may be in the form of an upside-down gourd in the water tank, and at this time, it can be seen that it floats while maintaining its own compressive force on the water surface even when the water is shaken in the water tank.

The buoyancy body 210 and the mooring device 100 give the effect of being able to float while maintaining the restoring moment or compression force, as demonstrated through examples such as the shape of the gourd and the stability of the ship, to respond to external forces on the water. It has a floating effect.

The buoyancy body 210 is made of EPP (expanded polypropylene) or is made of a light propylene material, and a plurality of pieces are configured through a connecting pin, so that the use of an eco-friendly material is effective.

In addition, the buoyancy body 210 connected to the fixed shaft 230 can give a hinge action around a fixed hinge that interlocks the fixed shaft 230 and each buoyancy body unit, and the hinge action absorbs the shock and It is desirable to design to have watertightness and durability.

The mooring device 100 may have an interior angle range of 30° to 90° depending on the size of the structure, and the length of the steel wire vertical portion 22 of the mooring device 100 is long at full water level and short at low water level. It is formed so that it can be moored.

As described above, the connection and fixation of the buoyancy body 210 and each support member prevents the material separation of the buoyancy body unit and can float while maintaining stability. It has the effect of being able to float with double stability.

1 and 4, the panel support bar 254 and the side support bar 252 installed on the upper fixed shaft 230 of the buoyancy unit are the first support bars to which the power generation panel 270 is fixed ( 250) and the second support bar 251 are connected and supported, and solar thermal power generation is performed according to the incident angle of light from the power generation panel.

The panel support bar 254 is movable while sliding on the fixed shaft 230 , and one side of the panel support bar 254 is configured as a hinge or a bracket. As the panel support bar 254 slides, there is an advantage that the power generation panel 270 can give an angular change of 25° to 30° depending on the incident angle of light or the amount of sunlight in the area.

In addition, in order to limit the sliding range of the panel support bar 254 installed on the plurality of water structures, the plate 223 is formed and installed so as to have an angle of only 25° to 30°.

At this time, the configuration of the plate 223 is used by extruding PVC, CPVC (Chlornated Polyvinyl Chloride) is also used. At this time, the Chlornated Polyvinyl Chloride (CPVC) is a product that strengthens heat resistance, pressure resistance, impact resistance, mechanical strength and corrosion resistance by adding chlorine reaction to existing PVC. It works.

In addition, the CPVC has corrosion resistance than when using a PVC material, so it can reduce the plating cost to prevent rust occurrence. , characterized by superiority in physical properties.

In addition, it is characterized by a low installation cost because it is a lightweight component, making it easier to cut, process, assemble, and install than PVC products.

There is also a method of installing a sensor control unit on the bracket installed on one side of the power generation panel 270 and the fixed shaft 230 to pull the sliding through the sensor. In this case, it is preferable to give a deformation by configuring it to detect seasonal temperature changes, wind changes, etc. while controlling the movement range in advance.

Alternatively, a sensor may be applied to the panel support bar 254 to configure a system to change according to temperature, and the panel support bar 254 may be slid to maintain the amount of power generated by the power generation panel 270 .

The side support bar 252 is formed so that the panel support bar 254 can move uniformly.

At this time, the shape of the side support bar 252 is fixed to each of the panel support bars 254 when viewed from the side when viewed from the side. However, it is preferable to configure it in a 'V' shape, and it is preferable that it is attached as an integral part and is manufactured in a fixed form without movement.

In addition, since the side support bar 252 is a part that provides uniform control of the panel support bar 254 , a sensor is attached to the side support bar 252 to move the panel support bar 254 . By controlling the panel support bar 252, it is also possible to give a control effect that can lead to the sliding of the bracket under the support bar (252).

Alternatively, the side support bar 252 may be fixedly coupled to the upper portion of each panel support bar 254 to provide uniform movement during each sliding to serve as a fixing member.

When the panel support bar 25 and the power generation panel 270 are coupled, a groove is formed in the lower portion of the power generation panel 270 to couple the support member and to engage the coupled support member and the panel support bar 254 . Connection and fixation can be done through male and female coupling or screwing through a screw thread.

The support member or plate 223 is formed by extruding PVC to form a profile, and the extruded PVC is formed by penetrating steel or square pipe in an inner 'ㅁ' shape to fill the inner surface of the member.

The profile length of the plate 223 may be 500 m to 700 m, and is preferably formed to be 600 m.

5 is a perspective view of a mooring device according to the present invention.

5, in the mooring device using restoring force, a weight 31, a steel vertical part 22, a center bracket 13, a steel wire side part 21, a steel wire horizontal part 20, a horizontal bracket ( 12) as the basic structure.

The weight support (not shown) formed on the lower part of the weight 31 prevents the weight from being separated while the steel vertical part 22 is fixed to fix the weight so that the weight does not fall off. The weight support is connected to the weight insertion tube 42 formed in the center of the weight, and the steel vertical part 22 passes through the weight insertion tube 42 .

The steel wire vertical portion 22 that has passed through the weight insertion tube passes through the counterweight insertion tube (not shown) in which the counterweight 30 is installed on the outside, passes through the inner roller 14 formed on the center bracket 13, and the steel wire side portion ( 21) is associated with

The counterweight insertion tube is a hole formed in the center of the counterweight 30, and is formed so that the steel vertical portion 22 from the center of the weight passes through the roller of the central bracket. The counterweight 30 is supported by a counterweight support (not shown) connected to the counterweight insertion tube and fixed so as not to fall downward.

The center bracket 13 has a roller so that the steel wire slides smoothly when it is connected to the steel wire vertical portion 22 and the steel wire side portion 21 . That is, the inner roller 14 formed in the center bracket 13 slides when the steel wire of the steel wire vertical part 22 rises and goes down, and the steel wire vertical part 22 is connected to the steel wire side part 21 and the steel wire side part 21 is connected to the steel wire side part 21 flowing downward past the first roller 16 formed on the horizontal bracket 12 and passes the outer roller 15 formed on the center bracket 13 . The steel wire of the steel wire side part 21 passing through the outer roller 15 passes the second roller 17 formed on the horizontal bracket 12 and is connected to the steel wire horizontal part 200. The first steel wire formed on the horizontal bracket 12 The roller 16 and the second roller are collectively referred to as a bracket roller.

That is, the steel wire side part 21 is connected to the steel wire horizontal part 20, and the steel wire side part 21 is mounted so as to be slidable on the first rollers 16 formed on the left and right horizontal brackets 12, respectively.

In addition, the steel wire side portion 21 hung on the first roller 16 to slide is connected to the horizontal bracket 12 installed on both sides of the center bracket 13 to slide.

In addition, the steel wire side portion 21 connected to slide on the horizontal bracket 12 is respectively connected to slide on the second roller 17 and is formed integrally with the steel wire side portion 21 to have a restoring force.

The mooring device 100 detachably attached to the lower part of the connection frame 240 may have an internal angle of 30° to 90° depending on the size of the structure. has the ability to maintain

In addition, the mooring device 100 and the buoyancy body 210 may be applied and utilized to aquatic structures such as floating houses, cage farms, berths, deck rods, and aquaculture farms depending on the shape of the aquatic structure.

As described above, the present invention has been described with reference to the illustrated drawings, but the present invention is not limited by the embodiments and drawings described herein, and various modifications may be made by those skilled in the art within the scope of the technical spirit of the present invention. of course there is

12: horizontal bracket 13: center bracket 14: inner roller
15: outer roller 16: first roller 17: second roller
20: steel wire horizontal part 21: steel wire side part 22: steel wire straight part
30: counterweight 31: weight 42: weight insertion tube
100: mooring device using restoring force
200: water structure for solar power generation
210: buoyancy body 211: fixed hinge 212: support
220: connection frame 221, 231: plastic 222, 232: metal tube 223: plate 230: fixed shaft 240: fixed bracket 241: lower bracket 242: upper bracket 243: adhesive surface 244: bolt 245: washer 246: nut 250: first Support bar 251: second support bar 252: side support bar 254: panel support bar 270: power generation panel 281: fastening unit
282: connection unit

Claims (4)

In the non-perforated solar power generation water structure,
The water structure includes a fixing hinge 211 and a fixing bracket 240 formed on the upper part of the buoyancy body installed on the water surface as a mooring device; and
a fixing shaft 230 inserted and connected to the fixing hinge and the hole of the fixing bracket; and
In the fixing bracket 240, the lower bracket 241 and the upper bracket 242 are coupled to face the adhesive surface 243, but the hole formed in the lower bracket 241 is connected to a fixing hinge 211 and inserted. The fixed shaft 230 is fitted,
In the fixing bracket 240, when the lower bracket 241 and the upper bracket 242 face the adhesive surface 243 and are coupled, the lower bracket 241 and the upper bracket 242 are coupled to each other. Washers 245 are respectively inserted into the bonding surfaces of both sides of the bracket and the upper bracket, and nuts 246 are respectively positioned inside the washers, so that the ends of bolts 244 are screwed from both ends of the nut to the fixing bracket. of the lower and upper brackets are rotatably coupled,
The fixed shaft 230 is composed of a metal tube 232, and the metal tube is covered with plastic 231, but the plastic is coated with PVC or PEEK to a thickness of 0.5 to 5 mm,
In the upper bracket 242, a connection frame 220 that is connected to and inserted into the hole of the fixing bracket 240 formed on the upper portion of each buoyancy body 210 is inserted to fix the buoyancy body 210,
The fixed shaft 230 and the connection frame 220 installed on the upper part of each buoyancy body 210 cover the outer surfaces of the metal tubes 222. 232 with plastics 221 and 231 using the fixed shaft and the connection frame. When assembling the photovoltaic power generating water structure, the non-perforated photovoltaic water generating water structure, characterized in that it is inserted and fixed in the fixed hinge 211 and the fixed bracket 240 without perforating the fixed shaft and the connecting frame.
delete delete The method of claim 1,
The mooring device of the water structure includes a weight insertion tube 42 that prevents separation from the lower part of the weight 31, a steel vertical portion 22 fixed to the upper ring of the weight insertion tube 42, and the steel vertical portion ( 22) through the inside and the counterweight 30 is installed on the outside, the counterweight insertion pipe 40, the center bracket 13 coupled to the counterweight insertion pipe 40, and the steel line passing through the central bracket 13 The direct part 22 is connected to the steel wire side part 21, and the steel wire side part 21 is connected to the steel wire horizontal part 20,
The steel wire side part 21 is slidably mounted on the first rollers 16 formed on the left and right horizontal brackets 12, respectively, and the steel wire side part 21 hung on the first roller 16 to slide is a central bracket ( 13) is connected to slide on the horizontal brackets 12 installed on both sides of the
The steel wire side part 21 connected to slide on the horizontal bracket 12 is respectively connected to slide on the second roller 17 and is formed integrally with the steel wire side part 21 to provide a restoring force to the buoyancy body 210. Non-perforated photovoltaic power generation water structure, characterized in that.

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