CN116788454A - Large floating type offshore photovoltaic platform - Google Patents

Abstract

The invention discloses a large floating type offshore photovoltaic platform, which belongs to the technical field of offshore photovoltaic, and comprises a floating frame, wherein the floating frame comprises an outer frame and an inner frame in hot melt connection with the outer frame; the photovoltaic frames are fixed on the inner frame through screws, are uniformly arranged, and are in contact with each other; the photovoltaic plate is connected with the photovoltaic frame through a hydraulic damper, the photovoltaic plate is hinged with the hydraulic damper, and the hydraulic damper is fixed with the photovoltaic frame through screws; the mooring component comprises a U-shaped fixing rod, one end of the U-shaped fixing rod is in hot-melt connection with the outer frame, the other end of the U-shaped fixing rod is in hot-melt connection with the inner frame, an anchor chain piece is arranged in the U-shaped fixing rod, and a hollow pile is connected to the end, away from the U-shaped fixing rod, of the anchor chain piece; the photovoltaic panel fixing rods are welded on the photovoltaic frame and are arranged along four sides of the photovoltaic panel, and four photovoltaic panel fixing rods are arranged; the platform has good stability, can fully cope with different sea conditions, and effectively protects the photovoltaic panel from damage.

Description

Large floating type offshore photovoltaic platform

Technical Field

The invention belongs to the technical field of offshore photovoltaic, and particularly relates to a large floating offshore photovoltaic platform.

Background

Photovoltaic power generation is becoming more popular, liu Shangguang v power generation is already quite mature, but land-based photovoltaic occupies much land space. The offshore photovoltaic device can well avoid limitation of land space, and can also avoid problems of building shielding, terrain influence and the like by utilizing wide marine space arrangement. Meanwhile, the seawater can play a role in heat dissipation, and the power generation efficiency of the photovoltaic cell panel is improved. In addition, the floating type photovoltaic on the sea can also solve the problem of low utilization rate of water resources such as reservoirs, lakes and the like, and has better effect. The current main stream floating type photovoltaic mostly adopts a floating box or a film to float on the sea surface, and then the photovoltaic panel is arranged on the floating box, and is fixed through a mooring system, and anchor chains are adopted between the floating boxes for fixing. However, for complex ocean environments, existing floating type photovoltaic is easy to damage, and under the influence of sea waves and wind, the photovoltaic platform is easy to shake and turn. Such as a buoyancy tank failure, a film failure, and a photovoltaic module failure. The product is a novel offshore floating type photovoltaic, which has many applications in reservoirs, but the offshore floating type photovoltaic can face more extreme environments than reservoirs, such as sea waves and typhoons, and the photovoltaic structure is easily damaged. In order to ensure that an offshore floating photovoltaic system operates stably in a severe offshore environment, a floating platform with good stability needs to be designed. The product is different from a common offshore photovoltaic structure, can be only applied to the offshore field, can be placed under the condition that sea conditions are extreme, is made of high-density polyethylene, is moored by adopting a novel mooring structure, can effectively improve the stability and durability of a floating platform, and can be further recommended to be commonly arranged on a plurality of platforms.

Disclosure of Invention

The invention aims to provide a large floating type offshore photovoltaic platform which has good stability, can fully cope with different sea conditions and effectively protects a photovoltaic panel from being damaged.

In order to achieve the above purpose, the present invention provides the following technical solutions: the large floating type offshore photovoltaic platform comprises a floating frame, wherein the floating frame comprises an outer frame and an inner frame which is in hot melting connection with the outer frame, the outer frame and the inner frame are circular, and the height of the outer frame is lower than that of the inner frame;

the photovoltaic frames are fixed on the inner frame through screws, are uniformly arranged, and are in contact with each other;

the photovoltaic plate is arranged above the photovoltaic frame, a hydraulic damper is connected between the photovoltaic plate and the photovoltaic frame, the photovoltaic plate is hinged with the hydraulic damper, and screws are fixed between the hydraulic damper and the photovoltaic frame;

the mooring component comprises a U-shaped fixing rod, one end of the U-shaped fixing rod is in hot-melt connection with the outer frame, the other end of the U-shaped fixing rod is in hot-melt connection with the inner frame, the mooring component comprises an anchor chain piece sleeved in the U-shaped fixing rod, the end, far away from the U-shaped fixing rod, of the anchor chain piece is connected with hollow piles, and the U-shaped fixing rod is provided with a plurality of anchor chain pieces along the circumferential direction of the outer frame;

photovoltaic board dead lever, photovoltaic board dead lever welding is in on the photovoltaic frame, set up along four sides of photovoltaic board, be equipped with four.

Preferably, the middle part of the inner frame is in a grid shape.

By adopting the scheme, the grid-shaped inner frame structure is utilized, so that the wave force received by the inner photovoltaic module can be reduced, and the damage of the wave to the photovoltaic module is reduced

Preferably, the outer frame bottom hot-melt connection has first fixed column, the inner frame bottom hot-melt connection has the second fixed column, is fixed with the connecting plate between first fixed column and the second fixed column.

By adopting the scheme, the first fixing column and the second fixing column are utilized to strengthen the inner frame and the outer frame, so that the stability of the whole floating frame is further improved.

Preferably, the outer frame and the inner frame are both made of high-density polyethylene.

By adopting the scheme, the high-density polyethylene has better buoyancy, the buoyancy problem of the photovoltaic module can be better solved, the laid photovoltaic module can be more stable, and enough buoyancy and stability are provided.

Preferably, the connecting plate and the U-shaped fixing rod are arranged in a spaced mode.

By adopting the scheme, a plurality of points are fixed, and the buoyancy can be balanced and stability can be ensured by alternately arranging the points.

Preferably, the anchor chain piece comprises a nylon anchor chain wound on the U-shaped fixing rod, wherein a steel anchor chain is fixed on the end, far away from the U-shaped fixing rod, of the nylon anchor chain, and the other end of the steel anchor chain is fixed with the hollow pile.

By adopting the scheme, the hollow pile can effectively adsorb the sludge on the seabed, strengthen the stability of a pile foundation, be connected with the steel anchor chain again, the steel anchor chain can strengthen the stability of a mooring system on the seabed, and the nylon anchor chain is used for connecting the steel anchor chain and the platform in the middle, so that the weight of the anchor chain system can be reduced, and the cost can be effectively reduced.

Preferably, the photovoltaic board dead lever is in including the welding montant on the photovoltaic frame, and montant is close to top position department and is fixed with the sand grip, and the sand grip top is equipped with the conflict pole of sliding connection at the montant top, and conflict pole bottom is fixed with the trapezoidal draw runner of falling, and corresponding, the trapezoidal spout of falling has been seted up at the montant top, supplies the trapezoidal draw runner of falling to slide.

By adopting the scheme, under the extreme sea condition, the photovoltaic panel can be placed in a plane state under the action of stormy waves, the photovoltaic panel fixing rod is arranged, the photovoltaic panel is fixed by the contact supporting rod, and the photovoltaic panel can be effectively protected from being damaged under the extreme sea condition.

Preferably, the width of the abutting rod is smaller than the sum of the widths of the raised strips and the vertical rods.

By adopting the scheme, the light Fu Banka is conveniently connected between the abutting rod and the convex strip.

Preferably, a spring is fixed between the inverted trapezoid slide bar and the inverted trapezoid chute.

By adopting the scheme, the spring is in a contracted state when the photovoltaic panel is placed between the contact rods by using the rebound effect of the spring, and the spring rebounds after the wind and waves stop, so that the photovoltaic panel can be automatically adjusted to reset.

The beneficial effects of the invention are as follows:

1. the floating frame adopts a high-density polyethylene structure, so that the buoyancy problem of the photovoltaic module can be better solved, the photovoltaic module can be more stable to lay, and the floating frame has enough buoyancy and stability.

2. The floating frame adopts a double floating frame structure, the external floating frame is slightly lower, the internal floating frame adopting a grid structure is higher than the external floating frame, and the wave force received by the internal photovoltaic module is reduced, so that the damage of the wave to the photovoltaic module is reduced.

3. The photovoltaic module adopts hydraulic damping to support, can automatically regulated photovoltaic board angle, effectively reduces wave and wind and arouses rocking and upset of photovoltaic platform, reaches the maximum efficiency of absorption sunlight, reduces the influence that the photovoltaic board received wave force, and hydraulic damping can play the absorbing effect, reduces the vibration of photovoltaic board under the wave effect to reduce the influence that the photovoltaic board received wave force, improve the stability and the security of photovoltaic board, extension photovoltaic board life: because hydraulic damping reduces the vibration of photovoltaic board, reduces the atress degree of photovoltaic board, can prolong the life of photovoltaic board, reduces maintenance and replacement cost.

4. The platform is fixed on the seabed by adopting multipoint mooring, the bottommost end of the anchor chain is piled to the seabed by adopting a hollow steel cylinder, the hollow pile can effectively adsorb silt on the seabed, the stability of pile foundation is enhanced, the steel anchor chain is connected, the stability of a mooring system can be enhanced by the steel anchor chain on the seabed, the steel anchor chain and the platform are connected by the nylon anchor chain in the middle, the weight of the anchor chain system can be reduced, and the cost can be effectively reduced.

5. Under extreme sea conditions, the photovoltaic panel can be placed in a plane state under the action of stormy waves, and the photovoltaic panel fixing rod is arranged, so that the photovoltaic panel is fixed by the contact supporting rod, and the photovoltaic panel can be effectively protected from being damaged under the extreme sea conditions.

Drawings

FIG. 1 is a schematic diagram of a large floating offshore photovoltaic platform according to the present invention;

FIG. 2 is a schematic view of the bottom view structure of FIG. 1 of a large floating offshore photovoltaic platform provided by the present invention;

FIG. 3 is an enlarged schematic view of the large floating offshore photovoltaic platform of FIG. 2 at I;

fig. 4 is a schematic view of a photovoltaic frame structure of a large floating offshore photovoltaic platform provided by the invention;

fig. 5 is a schematic view of a photovoltaic fixing rod structure of a large floating offshore photovoltaic platform provided by the invention.

In the figure: 1. a floating frame; 2. an outer frame; 3. an inner frame; 4. a photovoltaic rack; 5. a photovoltaic panel; 6. a hydraulic damper; 7. a mooring component; 8. a U-shaped fixing rod; 9. a hollow pile; 10. a photovoltaic panel securing lever; 11. a first fixing column; 12. a second fixing column; 13. a connecting plate; 14. nylon anchor chains; 15. a steel anchor chain; 16. a vertical rod; 17. a convex strip; 18. a touch-up rod; 19. inverted trapezoidal slide bar; 20. an inverted trapezoid chute; 21. and (3) a spring.

Detailed Description

For a further understanding of the invention, its features and advantages, reference is now made to the following examples, which are illustrated in the accompanying drawings.

Referring to fig. 1 to 5, the following describes a large floating offshore photovoltaic platform according to an embodiment of the present invention in detail.

In this embodiment, the hydraulic damper is an automatic-resetting hydraulic damper in the prior art.

As shown in fig. 1, the large floating type offshore photovoltaic platform comprises a floating frame 1, wherein the floating frame 1 comprises an outer frame 2 and an inner frame 3 in hot melt connection with the outer frame 2, the outer frame 2 and the inner frame 3 are circular, and the height of the outer frame 2 is lower than that of the inner frame 3;

the photovoltaic frames 4 are fixed on the inner frame 3 by screws, the photovoltaic frames 4 are uniformly arranged, and adjacent photovoltaic frames 4 are in contact arrangement;

the photovoltaic panel 5 is arranged above the photovoltaic frame 4, a hydraulic damper 6 is connected between the photovoltaic panel 5 and the photovoltaic frame 4, the photovoltaic panel 5 is hinged with the hydraulic damper 6, and the hydraulic damper 6 is fixed with the photovoltaic frame 4 by screws;

the mooring component 7 comprises a U-shaped fixing rod 8,U, one end of a fixing rod 8 is in hot-melt connection with the outer frame 2, the other end of the fixing rod 8 is in hot-melt connection with the inner frame 3, the mooring component comprises an anchor chain piece sleeved in the U-shaped fixing rod 8, the end, far away from the U-shaped fixing rod 8, of the anchor chain piece is connected with a hollow pile 9,U type fixing rod 8, and a plurality of anchor chain pieces are arranged along the circumferential direction of the outer frame 2;

photovoltaic board 5 dead lever, photovoltaic board 5 dead lever welding is in on the photovoltaic frame 4, set up along four sides of photovoltaic board 5, be equipped with four.

In this embodiment, the outer frame 2 and the inner frame 3 are made of high-density polyethylene material, and the middle of the inner frame 3 is in a grid shape, and the height of the outer frame 2 is lower than that of the inner frame 3.

The bottom of the outer frame 2 and the bottom of the inner frame 3 are further provided with a first fixing column 11, a second fixing column 12, a connecting plate 13 and a U-shaped fixing rod 8, specifically, the bottom of the outer frame 2 is connected with the first fixing column 11 in a hot-melt manner, the bottom of the inner frame 3 is connected with the second fixing column 12 in a hot-melt manner, and the connecting plate 13 is fixed between the first fixing column 11 and the second fixing column 12.

Wherein the connecting plates 13 are arranged at intervals with the U-shaped fixing rods 8.

In this embodiment, the quantity of connecting plate 13 and U type dead lever 8 is eight, and then adopts eight point mooring to fix whole platform, and wherein the anchor chain spare is including twining nylon anchor chain 14 on the U type dead lever 8, nylon anchor chain 14 keeps away from U type dead lever 8 end and is fixed with steel anchor chain 15, steel anchor chain 15 other end and hollow pile 9 are fixed, hollow form is hollow steel cylinder pile to the seabed, hollow pile 9 can effectively adsorb seabed's silt, strengthen pile foundation's stability, reconnect steel anchor chain 15, steel anchor chain 15 also can strengthen mooring system's stability at the seabed, in the centre be with nylon anchor chain 14 connection steel anchor chain 15 and platform, not only can reduce anchor chain system's weight, and can effectively reduce cost, and then above-mentioned connecting plate 13 and U type dead lever 8 have constituted sixteen point and have fixed, can effectively improve inner frame 3 and outer frame 2's stability.

In order to deal with the marine stormy waves, the photovoltaic panel 5 is connected by utilizing the hydraulic damper 6, meanwhile, the photovoltaic panel 5 and the hydraulic damper 6 are connected in a hinged mode, along with the blowing of the stormy waves, the photovoltaic panel 5 can freely rotate, and when the stormy waves are enhanced, the photovoltaic panel 5 can automatically move towards the photovoltaic frame 4 end under the connection of the hydraulic damper 6, and further, under the combined action of the stormy waves, the photovoltaic panel 5 can automatically rotate and move to a plane state under the extreme sea conditions, at the moment, the photovoltaic panel 5 is fixed through four photovoltaic panel 5 fixing rods, and the damage to the photovoltaic panel 5 by the stormy waves is effectively avoided.

Wherein, photovoltaic board 5 dead lever is including welding montant 16 on photovoltaic frame 4, and montant 16 is close to top position department and is fixed with sand grip 17, and sand grip 17 top is equipped with the conflict pole 18 of sliding connection at montant 16 top, and conflict pole 18 bottom is fixed with the trapezoidal slide 19 of falling, and corresponding, the trapezoidal spout 20 of falling has been seted up at montant 16 top, supplies trapezoidal slide 19 of falling to slide, and the width of conflict pole 18 is less than the sum of sand grip 17 and montant 16's width, the trapezoidal slide 19 of falling with be fixed with spring 21 between the trapezoidal spout 20 of falling.

When the photovoltaic panel 5 rotates to be in a plane state, the photovoltaic panel 5 moves downwards to be in contact with the contact supporting rod 18, under further wind and wave pressure, the photovoltaic panel 5 continues to move downwards, the contact supporting rod 18 is driven to move, when the contact supporting rod 18 moves, the inverted trapezoid sliding strip 19 at the bottom of the contact supporting rod 18 moves along the inverted trapezoid sliding groove 20 at the top of the vertical rod 16, meanwhile, the internal springs 21 shrink, and at the moment, the four photovoltaic panel 5 fixing rods can clamp and protect the photovoltaic panel 5.

After the wind wave passes, the pressure from the photovoltaic panel 5 is suddenly reduced, and meanwhile, the spring 21 has an automatic resilience force, and then the photovoltaic panel 5 is propped out of the range between the four photovoltaic panel 5 fixing rods by driving the contact rod 18 to reset, and meanwhile, the photovoltaic panel 5 is reset to the original position under the automatic reset structure of the hydraulic damper 6.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. The utility model provides a large-scale showy formula marine photovoltaic platform which characterized in that, this large-scale showy formula marine photovoltaic platform includes:

the floating frame (1), the floating frame (1) comprises an outer frame (2) and an inner frame (3) connected with the outer frame (2) in a hot melting way, the outer frame (2) and the inner frame (3) are all round, and the height of the outer frame (2) is lower than that of the inner frame (3);

the photovoltaic frames (4) are fixed on the inner frame (3) through screws, the photovoltaic frames (4) are uniformly arranged, and adjacent photovoltaic frames (4) are in contact arrangement;

the photovoltaic device comprises a photovoltaic plate (5), wherein the photovoltaic plate (5) is arranged above a photovoltaic frame (4), a hydraulic damper (6) is connected between the photovoltaic plate (5) and the photovoltaic frame (4), the photovoltaic plate (5) is hinged with the hydraulic damper (6), and screws are fixed between the hydraulic damper (6) and the photovoltaic frame (4);

the mooring component (7) comprises a U-shaped fixing rod (8), one end of the U-shaped fixing rod (8) is in hot-melt connection with the outer frame (2), the other end of the U-shaped fixing rod is in hot-melt connection with the inner frame (3), the mooring component comprises an anchor chain piece sleeved in the U-shaped fixing rod (8), the end, far away from the U-shaped fixing rod (8), of the anchor chain piece is connected with a hollow pile (9), and the U-shaped fixing rod (8) is provided with a plurality of anchor chain pieces along the circumferential direction of the outer frame (2);

photovoltaic board (5) dead lever, photovoltaic board (5) dead lever welding is in on photovoltaic frame (4), set up along four sides of photovoltaic board (5), be equipped with four.

2. A large floating offshore photovoltaic platform according to claim 1, characterized in that the middle part of the inner frame (3) is grid-shaped.

3. The large floating offshore photovoltaic platform according to claim 1, wherein a first fixing column (11) is connected to the bottom of the outer frame (2) in a hot-melt manner, a second fixing column (12) is connected to the bottom of the inner frame (3) in a hot-melt manner, and a connecting plate (13) is fixed between the first fixing column (11) and the second fixing column (12).

4. A large floating offshore photovoltaic platform according to claim 3, characterized in that the outer frame (2) and the inner frame (3) are both made of high density polyethylene.

5. A large floating offshore photovoltaic platform according to claim 3, characterized in that the connection plates (13) are arranged at intervals with the U-shaped fixing bars (8).

6. A large floating offshore photovoltaic platform according to claim 1, characterized in that the anchor chain member comprises a nylon anchor chain (14) wound on the U-shaped fixing rod (8), a steel anchor chain (15) is fixed at the end of the nylon anchor chain (14) far away from the U-shaped fixing rod (8), and the other end of the steel anchor chain (15) is fixed with the hollow pile (9).

7. The large floating offshore photovoltaic platform according to claim 1, wherein the photovoltaic panel (5) fixing rod comprises a vertical rod (16) welded on the photovoltaic frame (4), a raised line (17) is fixed at the position, close to the top, of the vertical rod (16), a pushing rod (18) which is slidably connected to the top of the vertical rod (16) is arranged above the raised line (17), an inverted trapezoid slide bar (19) is fixed at the bottom of the pushing rod (18), and an inverted trapezoid slide groove (20) is correspondingly formed in the top of the vertical rod (16) and is used for sliding the inverted trapezoid slide bar (19).

8. A large floating offshore photovoltaic platform according to claim 7, characterized in that the width of the interference bars (18) is smaller than the sum of the widths of the ribs (17) and the vertical bars (16).

9. A large floating offshore photovoltaic platform according to claim 7, characterized in that a spring (21) is fixed between the inverted trapezoidal runner (19) and the inverted trapezoidal runner (20).