CN218198744U - Floating type photovoltaic platform on sea - Google Patents

Abstract

The utility model discloses a marine showy formula photovoltaic platform to the still must problem of improving of marine photovoltaic platform among the prior art. The utility model comprises a floating platform, a mounting bracket, a positioning pressure rod, a positioning stay cord and a floating platform brushing device, wherein the mounting bracket is arranged on the upper surface of the floating platform, a solar cell panel is arranged on the upper surface of the mounting bracket, the positioning pressure rod and the positioning stay cord are arranged on the lower surface of the floating platform, the floating platform brushing device comprises a floating platform side surface brushing device, a floating platform top surface brushing device and a floating platform bottom surface brushing device which are respectively and correspondingly arranged on the top surface, the side surface and the bottom surface of the floating platform, and the floating platform side surface brushing device comprises an air bag, a connecting rod, a push rod and a grid net; the floating platform top surface brushing device comprises an air bag, an arc-shaped connecting plate and split grid nets, and the floating platform bottom surface brushing device comprises an air bag, an arc-shaped connecting plate and split grid nets. The movement of the mesh grid net in this technique interferes with the adhesion of barnacles.

Description

Floating type photovoltaic platform on sea

Technical Field

The utility model relates to a solar photovoltaic field especially relates to a marine showy formula photovoltaic platform.

Background

In recent years, the development of the photovoltaic industry is limited by the supply capacity of land resources, the area of ocean water is large and far away from residential areas, and the comprehensive utilization rate of ocean space can be improved by constructing a photovoltaic project at ocean; meanwhile, the electricity demand in coastal areas is high, and the distance between a photovoltaic power station constructed in the ocean and an electricity load center is close, so that the loss of long-distance transmission of electric power is reduced; the ocean waters are wide, the arrangement of the photovoltaic array is not influenced by the shapes of the waters, and the construction is convenient.

The invention discloses a Chinese invention patent with the publication number of CN110450916A, and discloses a wind and wave resistant floating offshore photovoltaic power generation platform. However, the problems of large amount of structural steel and high cost exist, and the damage of barnacles attached to the steel truss is not considered. Meanwhile, if a rigid floating body is adopted at sea, the steel consumption can be greatly reduced, and only the flexible steel wire rope is needed for underwater reinforcement and positioning.

Meanwhile, compared with an inland overwater photovoltaic device, the offshore photovoltaic device is damaged by wind waves, high salt fog, easy corrosion and the like, and is also damaged by marine organism barnacles, and the seaside cone-shaped barnacles are small in size but extremely strong in adsorption force. The large number of barnacles can increase the dead weight of the floating body, improve the height of the center of gravity of the floating body, weaken the capacity of the floating body for resisting storm waves, and easily cause the floating body to be inclined and damaged, and particularly when tsunami, earthquake or storm surge comes, the damage can be increased.

According to the Baidu encyclopedia introduction: barnacles accelerate the corrosion rate of the local part of the underwater fixation object, and the adhesion of barnacles changes the electrochemical corrosion process and speed of the local metal, so that local corrosion or perforation is caused. Meashwar et al examined the stainless steel barnacle life activities and corrosion in detail, indicating that the decomposition of organic matter on dead barnacle shells causes media acidification and thus crevice corrosion. Tude and the like research the influence of barnacle attachment on metal corrosion in seawater through observation of actual sea exposure samples in Qingdao sea areas and laboratory culture, disclose the process and mechanism of barnacle attachment in local corrosion, and point out that the solution acidification (the pH value can reach 3-4 at the lowest) caused by autocatalysis effect, secretion and death and decay of marine organisms can further accelerate the growth and development of local corrosion. Song Shizhe and the like research the corrosion behavior of the aluminum magnesium alloy in NaCl solutions with different pH values, and reveal that a local slightly acidic environment caused by marine fouling organisms is a reason for strong sensitivity of local corrosion of manports of buildings, and the action of the marine fouling organisms is a main factor causing local corrosion of marine structural materials, structures and ship bodies.

Therefore, the harm of barnacles needs to be paid particular attention, common barnacle control methods comprise a physical antifouling method, a chemical antifouling method and the like, and the physical antifouling method comprises an artificial or mechanical cleaning method, so that a device which depends on the conversion of wave potential energy into kinetic energy of cleaning equipment can be designed more urgently.

SUMMERY OF THE UTILITY MODEL

The utility model discloses improved the marine problem that photovoltaic platform still must improve among the prior art, provided a marine showy formula photovoltaic platform rational in infrastructure, reliable in utilization.

The technical solution of the utility model is that, a marine showy formula photovoltaic platform that floats with following structure is provided: the solar cell floating platform comprises a floating platform, an installation support, a positioning pressure rod, a positioning pull rope and a floating platform brushing device, wherein the installation support is arranged on the upper surface of the floating platform, a solar cell panel is arranged on the upper surface of the installation support, the positioning pressure rod and the positioning pull rope are arranged on the lower surface of the floating platform, the floating platform brushing device comprises a floating platform side surface brushing device, a floating platform top surface brushing device and a floating platform bottom surface brushing device which are respectively and correspondingly arranged on the top surface, the side surface and the bottom surface of the floating platform, the floating platform side surface brushing device comprises an air bag, a connecting rod, a push rod and a grid net, the air bag is fixedly connected with one end of the connecting rod, the other end of the connecting rod is hinged at the lower end of the side surface of the floating platform, the middle part of the connecting rod is hinged at one end of the push rod, and the other end of the push rod is hinged at the grid net on the side surface of the floating platform; the top surface brushing device of the floating platform comprises air bags, arc-shaped connecting plates and split grid nets, wherein the two sides of each grid net are respectively hinged with the arc-shaped connecting plates, and the other ends of the arc-shaped connecting plates are respectively hinged to the upper sides of the two oppositely arranged air bags; the floating platform bottom surface brushing device comprises air bags, arc-shaped connecting plates and split grid nets, wherein the two sides of each grid net are respectively hinged with the arc-shaped connecting plates, and the other ends of the arc-shaped connecting plates are respectively hinged to the lower sides of the two air bags which are oppositely arranged.

Preferably, the floating platform is square, the side scrubbing device comprises an upper air bag, a lower air bag, a left air bag, a right air bag, a connecting rod, a push rod and a grid net, the outer side of each air bag is provided with a fixing hole, the inner side of each air bag is fixedly connected with one end of the connecting rod, the other end of each connecting rod is hinged to the lower end of the side of the floating platform, the middle of each connecting rod is hinged to one end of the corresponding push rod, and the other end of each push rod is hinged to the grid net on the side of the floating platform.

Preferably, the floating platform top surface brushing device comprises a left air bag, a right air bag, an arc connecting plate and a left and right oppositely-opened floating platform top surface net grid net, wherein the two sides of the net grid net are respectively hinged with the arc connecting plate, and the other end of the arc connecting plate is respectively hinged on the upper sides of the left air bag and the right air bag which are oppositely arranged.

Preferably, the net grating net is provided with a movable gap which is sleeved with a mounting bracket on the top surface of the floating platform.

Preferably, the floating platform bottom surface brushing device comprises an upper air bag, a lower air bag, an arc-shaped connecting plate and a grid net which is arranged on the floating platform bottom surface and is split up and down, wherein the two sides of the grid net are respectively hinged with the arc-shaped connecting plate, and the other end of the arc-shaped connecting plate is respectively hinged with the lower sides of the upper air bag and the lower air bag which are oppositely arranged.

Preferably, the net grating net is provided with a movable gap, and a positioning pull rope and a positioning compression bar are sleeved on the movable gap.

Preferably, the lower end of the positioning stay rope is connected with the fixing pile, the upper end of the positioning stay rope is connected with the floating platform through the elastic stringing roller and the shell type support, the elastic stringing roller is located inside the shell type support, the positioning stay rope penetrates out of the bottom of the shell type support, and the shell type support is internally arranged on the inner side of the floating platform.

Preferably, the mounting bracket comprises legs and a platform, and the platform is connected with the top surface of the floating platform through the legs.

Preferably, the positioning compression bar comprises a fixing bar and a counterweight ball, and the counterweight ball is connected with the bottom surface of the floating platform through the fixing bar.

Preferably, the floating platform is a hollow shell.

Compared with the prior art, the utility model discloses marine showy formula photovoltaic platform has following advantage: the air bags in the side edge directions are connected with the grid nets driven by the air bags through the arc-shaped connecting plates, and the air bags can drive the grid nets to move back and forth in the fixed area along with the fluctuation of sea waves, so that the adhesion of barnacles is disturbed.

The fixing holes on the four air bags around the adjacent floating platforms are flexibly connected through steel wire ropes, so that the impact of large storms on the large floating platforms can be resisted. The gravity center of the floating platform is pulled down by the counterweight balls on the positioning pressure rods through the fixed rods extending into the sea, so that the floating platform is not easy to turn on one side and split under the impact of wind waves. The positioning pull rope at the lower part of the sea surface can always keep a certain tension force under the action of the elastic stringing roller, so that the floating platform adapts to different water levels, the floating platform is prevented from drifting too far, and the floating body structure does not topple over depending on the stability of the floating body structure.

Drawings

Fig. 1 is a schematic view of the forward structure of the present invention;

FIG. 2 is a schematic sectional view of the present invention in the forward direction;

FIG. 3 is a schematic top view of the top grid of the present invention with the top grid removed;

FIG. 4 is a schematic view of the top net grille net driven by the upper and lower air bags according to the present invention;

FIG. 5 is a schematic structural view of the bottom net grid net driven by the left and right airbags of the present invention;

fig. 6 is a schematic structural view of the middle elastic stringing roller of the present invention.

In the description of the attached drawings, the reference numeral 1 is a solar panel, 2 is a mounting bracket, 3 is an arc-shaped connecting plate, 4 is an air bag, 5 is a fixing hole, 6 is a grid net, 9 is a positioning pressure rod, 10 is a sea surface, 11 is a grid net limiting groove, 12 is a floating platform, and 13 is a movable notch.

2-1 is a support leg, 2-2 is a platform; 7-1 is a connecting rod, 7-2 is a push rod, and 7-3 is a limiting block; 8-1 is a positioning pull rope, 8-2 is a fixing pile, and 8-3 is an elastic stringing roller; 9-1 is a fixing rod, and 9-2 is a counterweight ball.

Detailed Description

In order to make the technical solution of the present invention better understood, the technical solution of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts shall belong to the protection scope of the present invention.

The invention will be further explained with reference to the drawings and the detailed description below: as shown in the figure, the device comprises a floating platform 12, a mounting bracket 2, a positioning pressure rod 9, a positioning pull rope 8-1 and a floating platform brushing device, wherein the mounting bracket 2 is arranged on the upper surface of the floating platform 12, a solar cell panel 1 is arranged on the upper surface of the mounting bracket 2, the positioning pressure rod 9 and the positioning pull rope 8-1 are arranged on the lower surface of the floating platform 12, the floating platform brushing device comprises a floating platform side surface brushing device, a floating platform top surface brushing device and a floating platform bottom surface brushing device which are respectively and correspondingly arranged on the top surface, the side surface and the bottom surface of the floating platform 12, wherein the floating platform side surface brushing device comprises an air bag 4, a connecting rod 7-1, a push rod 7-2 and a grid net 6, the air bag 4 is fixedly connected with one end of the connecting rod 7-1, the other end of the connecting rod 7-1 is hinged with the lower end of the side surface of the floating platform 12, the middle part of the connecting rod 7-1 is hinged with one end of the push rod 7-2, and the other end of the push rod 7-2 is hinged with the grid net 6 on the side surface of the floating platform 12; the floating platform top surface brushing device comprises air bags 4, arc-shaped connecting plates 3 and split grid nets 6, wherein the two sides of each grid net 6 are respectively hinged with the arc-shaped connecting plates 3, and the other ends of the arc-shaped connecting plates 3 are respectively hinged to the upper sides of the two oppositely arranged air bags 4; the floating platform bottom surface brushing device comprises air bags 4, arc-shaped connecting plates 3 and split gridding grids 6, wherein the two sides of each gridding grid 6 are respectively hinged with the arc-shaped connecting plates 3, and the other ends of the arc-shaped connecting plates 3 are respectively hinged with the lower sides of the two air bags 4 which are oppositely arranged.

The mounting support 2 comprises supporting legs 2-1 and a platform 2-2, the platform 2-2 is connected with the top surface of a floating platform 12 through the supporting legs 2-1, and the floating platform 12 is a hollow shell. The floating platforms 12 are connected with the solar cell panels 1 through the mounting supports 2, the solar cell panels 1 distributed on the floating platforms 12 are connected through the conducting wires to form a solar cell panel array, and the solar cell panel array sequentially sends electric energy converted by solar energy to the controller, the storage battery and the inverter and finally supplies the electric energy to a load for use. Compared with an independent photovoltaic power generation system, the grid-connected photovoltaic power generation system is directly connected with a power grid, so that surplus electric quantity of the photovoltaic array can be complemented with the parallel power grid, energy storage elements such as a storage battery and the like in the independent photovoltaic power generation system are omitted, the system cost is reduced, and the reliability of the system is guaranteed. Meanwhile, the solar radiation intensity is high in summer, the power generation capacity of a photovoltaic system is large, and the peak load of a power grid in summer can be adjusted. In addition, the use scale of the storage battery can be determined according to the electric quantity of grid-connected transmission. The solar battery assembly and the storage battery are power systems, the controller and the inverter are control protection systems, and the load is a system terminal. The fixing holes 5 on the four air bags 4 around the adjacent floating platforms 12 are connected in series through steel wire ropes, so that the soft connection is realized, and the impact of large wind waves on the large floating platforms 12 can be resisted.

The floating platform 12 is square, the side scrubbing device comprises an upper air bag, a lower air bag, a left air bag, a right air bag, a connecting rod 7-1, a push rod 7-2 and a grid net 6, the outer side of each air bag 4 is provided with a fixing hole 5, the inner side of each air bag is fixedly connected with one end of the connecting rod 7-1, the other end of each connecting rod 7-1 is hinged to the lower end of the side of the floating platform 12, the middle of each connecting rod 7-1 is hinged to one end of the corresponding push rod 7-2, and the other end of each push rod 7-2 is hinged to the grid net 6 on the side of the floating platform 12.

The connecting rod 7-1 is a hinged part for fixing the air bag 4, the up-and-down movement of the air bag 4 is limited by the connecting rod 7-1 to be an arc-shaped movement surrounding the bottom edge of the floating platform 12, the arc-shaped movement surrounding the bottom edge of the floating platform 12 by the connecting rod 7-1 is converted into arc-shaped swing of the push rod 7-2 relative to the connecting rod 7-1, and one end of the push rod 7-2, which is hinged with the grid mesh 6, is changed into a reciprocating movement in the vertical direction under the action of the grid mesh limiting groove 11. The limiting blocks 7-3 can limit the movement distance of the mesh grid net 6 in the mesh grid net limiting grooves 11, prevent the jamming caused by excessive movement, and improve the cleaning efficiency.

The device for brushing the top surface of the floating platform comprises a left air bag, a right air bag, an arc-shaped connecting plate 3 and a grid net 6 which is arranged on the top surface of a left floating platform 12 and a right floating platform 12 in a left-right split mode, wherein the arc-shaped connecting plate 3 is hinged to two sides of the grid net 6 respectively, and the other end of the arc-shaped connecting plate 3 is hinged to the upper sides of the left air bag and the right air bag which are arranged oppositely; left gasbag and right gasbag pass through arc connecting plate 3 and connect net grid net 6 on the top surface of floating platform 12, and gasbag 4 is along with the fluctuation of wave, and it can form different fluctuation range in vertical direction, and it drives net grid net 6 motion, and net grid net 6 realizes the back and forth movement at fixed area under the effect of net grid net spacing groove 11, disturbs the adhesion of barnacle.

The net grating net 6 is provided with a movable gap 13 which is sleeved with the mounting bracket 2 on the top surface of the floating platform 12. The overlapped part of the net grating net 6 and the landing leg 2-1 needs to be provided with the movable notch 13, so that the smoothness of the net grating net 6 during working can be better kept, and the movable notch 13 arranged on the net grating net 6 still ensures that the surface of the floating platform 12 around the landing leg 2-1 can be washed.

The floating platform bottom surface scrubbing device comprises an upper air bag, a lower air bag, arc-shaped connecting plates 3 and grid nets 6 which are arranged on the bottom surface of a floating platform 12 in an up-down split mode, wherein the arc-shaped connecting plates 3 are hinged to two sides of each grid net 6 respectively, and the other ends of the arc-shaped connecting plates 3 are hinged to the lower sides of the upper air bag and the lower air bag which are arranged oppositely. In a similar way, go up gasbag and lower gasbag and pass through the net grid net 6 on the arc connecting plate 3 connection floating platform 12 bottom surface, gasbag 4 is along with the fluctuation of wave, it can form different fluctuation range in vertical direction, it drives the motion of net grid net 6, the size of net grid net 6 is far more than the individual size of barnacle, but is less than the swing range of net grid net 6, net grid net 6 is under the effect of net grid net spacing groove 11, realize the back and forth movement in fixed area, the adhesion of interference barnacle. The material of the net grating net 6 is plastic, stainless steel or iron.

If want to reduce the complexity of structure, go up gasbag and gasbag down, left gasbag and right gasbag all can drive simultaneously on the top surface of floating platform 12 and the net grid net 6 on the bottom surface, through setting up two gasbags 4 relatively, realize reducing the purpose of gasbag 4 quantity, just can adopt the great gasbag 4 of buoyancy this moment.

The net grating net 6 is provided with a movable gap 13 which is sleeved with a positioning pull rope 8-1 and a positioning pressure rod 9. The lower end of the positioning pull rope 8-1 is connected with a fixing pile 8-2, the upper end of the positioning pull rope is connected with a floating platform 12 through an elastic stringing roller 8-3 and a shell type support, the elastic stringing roller 8-3 is positioned in the shell type support, the positioning pull rope 8-1 penetrates out of the bottom of the shell type support, and the inner part of the shell type support is arranged in the inner side of the floating platform 12. The positioning pull rope 8-1 connected with the fixing pile 8-2 at the lower part of the sea surface 10 can always keep a certain tension under the action of the elastic stringing roller 8-3, so that the floating platform 12 adapts to different water levels, the floating platform 12 is prevented from drifting too far, and the floating body structure does not topple over depending on the stability of the floating body structure.

The positioning compression bar 9 comprises a fixing bar 9-1 and a counterweight ball 9-2, and the counterweight ball 9-2 is connected with the bottom surface of the floating platform 12 through the fixing bar 9-1. The gravity center of the floating platform 12 is pulled down by the counterweight balls 9-2 on the positioning pressure rods 9 through the fixing rods 9-1 extending into the sea surface 10, so that the floating platform is not easy to turn on one side and split under the impact of wind waves.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (10)

1. The utility model provides a marine formula photovoltaic platform that floats which characterized in that: the solar cell floating platform comprises a floating platform, an installation support, a positioning pressure rod, a positioning pull rope and a floating platform brushing device, wherein the installation support is arranged on the upper surface of the floating platform, a solar cell panel is arranged on the upper surface of the installation support, the positioning pressure rod and the positioning pull rope are arranged on the lower surface of the floating platform, the floating platform brushing device comprises a floating platform side surface brushing device, a floating platform top surface brushing device and a floating platform bottom surface brushing device which are respectively and correspondingly arranged on the top surface, the side surface and the bottom surface of the floating platform, the floating platform side surface brushing device comprises an air bag, a connecting rod, a push rod and a grid net, the air bag is fixedly connected with one end of the connecting rod, the other end of the connecting rod is hinged at the lower end of the side surface of the floating platform, the middle part of the connecting rod is hinged at one end of the push rod, and the other end of the push rod is hinged at the grid net on the side surface of the floating platform; the floating platform top surface brushing device comprises air bags, arc-shaped connecting plates and split grid nets, wherein the two sides of each grid net are respectively hinged with the arc-shaped connecting plates, and the other ends of the arc-shaped connecting plates are respectively hinged to the upper sides of the two oppositely arranged air bags; the floating platform bottom surface brushing device comprises air bags, arc-shaped connecting plates and split grid nets, wherein the two sides of each grid net are respectively hinged with the arc-shaped connecting plates, and the other ends of the arc-shaped connecting plates are respectively hinged to the lower sides of the two air bags which are oppositely arranged.

2. The offshore floating photovoltaic platform of claim 1, wherein: the floating platform is square, the side scrubbing device comprises an upper air bag, a lower air bag, a left air bag, a right air bag, a connecting rod, a push rod and a grid net, the outer side of each air bag is provided with a fixing hole, the inner side of each air bag is fixedly connected with one end of the connecting rod, the other end of each connecting rod is hinged to the lower end of the side of the floating platform, the middle of each connecting rod is hinged to one end of the corresponding push rod, and the other end of each push rod is hinged to the grid net of the side of the floating platform.

3. The offshore floating photovoltaic platform of claim 2, wherein: the floating platform top surface brushing device comprises a left air bag, a right air bag, an arc-shaped connecting plate and a left and right oppositely-opened floating platform top surface net grating net, wherein the two sides of the net grating net are respectively hinged with the arc-shaped connecting plate, and the other end of the arc-shaped connecting plate is respectively hinged on the upper sides of the left air bag and the right air bag which are oppositely arranged.

4. The offshore floating photovoltaic platform of claim 3, wherein: the grid mesh is provided with a movable gap which is sleeved with an installation support on the top surface of the floating platform.

5. The offshore floating photovoltaic platform of claim 2, wherein: the floating platform bottom surface scrubbing device comprises an upper air bag, a lower air bag, an arc-shaped connecting plate and a grid net which is arranged on the bottom surface of the floating platform and is split up from top to bottom, wherein the two sides of the grid net are respectively hinged with the arc-shaped connecting plate, and the other end of the arc-shaped connecting plate is respectively hinged with the lower sides of the upper air bag and the lower air bag which are oppositely arranged.

6. The offshore floating photovoltaic platform of claim 5, wherein: the grid mesh is provided with movable openings, and positioning pull ropes and positioning pressure rods are sleeved on the movable openings.

7. The offshore floating photovoltaic platform of claim 1, wherein: the lower end of the positioning stay cord is connected with the fixing pile, the upper end of the positioning stay cord is connected with the floating platform through the elastic stringing roller and the shell type support, the elastic stringing roller is located inside the shell type support, the positioning stay cord penetrates out of the bottom of the shell type support, and the inner side of the floating platform is arranged inside the shell type support.

8. The offshore floating photovoltaic platform of claim 1, wherein: the mounting support contains landing leg and platform, and the top surface of floating platform is connected through the landing leg to the platform.

9. The offshore floating photovoltaic platform of claim 1, wherein: the positioning pressure lever comprises a fixed lever and a counterweight ball, the counterweight ball is connected with the bottom surface of the floating platform through a fixed rod.

10. The offshore floating photovoltaic platform of claim 1, wherein: the floating platform is a hollow shell.

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