CN115664315A - Photovoltaic support on water - Google Patents

Abstract

The application relates to the technical field of photovoltaic power generation, and provides a waterborne photovoltaic support which comprises a floating body, a support main body, a connecting assembly, a sliding assembly, a bearing assembly and a switching assembly; the floating body is connected with the supporting main body; the connecting assembly is movably connected with the supporting main body and is used for being externally connected with the photovoltaic panel; the receiving assembly is arranged on the supporting main body and is used for receiving rainwater; the sliding component is arranged on the connecting component; one end of the switching component is connected with the sliding component, and the other end of the switching component is connected with the bearing component; the bearing component drives the switching component to move by gravity brought by bearing rainwater, and the switching component changes the position of the connecting component through the sliding component. This application has the effect of photovoltaic support more stability under the influence of wind and rain.

Description

Photovoltaic support on water

Technical Field

The application relates to the photovoltaic power generation technology, in particular to a waterborne photovoltaic support.

Background

The photovoltaic power generation system is a power generation system which directly converts solar radiation energy into electric energy by using a photovoltaic effect of a photovoltaic cell. Current photovoltaic power generation system can adopt the photovoltaic board to carry out the conversion of light energy, and photovoltaic board self needs great area to carry out the receipt and the conversion of light energy, install on ground or land, can occupy a large amount of space resources, consequently, set up one kind and can install the photovoltaic support at waterborne with the photovoltaic board, ordinary photovoltaic support on water need install on the surface of water, and can incline certain angle adaptation light's irradiation, when meetting the weather of stormy weather, the stormy weather is chaotic along with the air current, the photovoltaic support stationarity that the slope set up receives environmental impact, make the mounted position of photovoltaic support skew easily.

With respect to the related art in the above, the inventors consider that there is a defect that the stability of the photovoltaic support is insufficient due to the influence of wind and rain.

Disclosure of Invention

The photovoltaic support on water is provided by the application in order to improve the problem that the influence of wind and rain makes the stability of the photovoltaic support insufficient.

The application provides a photovoltaic support on water adopts following technical scheme:

a waterborne photovoltaic support comprises a floating body, a support main body, a connecting assembly, a sliding assembly, a bearing assembly and a switching assembly; the floating body is connected with the supporting main body; the connecting assembly is movably connected with the supporting main body and is used for being externally connected with a photovoltaic panel; the receiving assembly is arranged on the supporting main body and is used for receiving rainwater; the sliding component is arranged on the connecting component; one end of the switching component is connected with the sliding component, and the other end of the switching component is connected with the bearing component; the accepting component drives the switching component to move through gravity brought by the accepted rainwater, and the switching component changes the position of the connecting component through the sliding component.

Through adopting above-mentioned technical scheme, when the weather at the stormy rain and storm, the rainwater is piled up and is being accepted the subassembly, the end of accepting the subassembly can receive the gravity action removal after the rainwater is piled up, and drive the switching module and remove, the switching module removes the in-process and slides along coupling assembling through the subassembly that slides, change coupling assembling along the tie point inclination of supporting the main part, when accepting the end of accepting the subassembly and remove to when contacting with the supporting the main part, the photovoltaic board of the installation on coupling assembling and its surface is close to the supporting the main part surface gradually, thereby reduce the bank height of coupling assembling and photovoltaic board, in order to avoid the stormy rain to accompany the air current chaotic, make the mounted position of photovoltaic support take place the skew along with the air current.

Optionally, the connecting assembly comprises a connecting portion and a first hinge portion; the connecting part is movably connected with the supporting main body through a hinge part; the sliding component is arranged on the connecting part.

Through adopting above-mentioned technical scheme, connecting portion are articulated with first articulated portion, and external photovoltaic board is installed in connecting portion and is kept away from the one side of supporting the main part to make connecting portion and photovoltaic board all can follow first articulated portion slope, and another tip of connecting portion through the subassembly that slides, switching components with accept the subassembly and be connected, make the slope of whole link obtain supporting.

Optionally, the sliding component comprises a fixed part and a sliding part; the fixing part is arranged on the connecting component; the sliding part is connected with the fixed part in a sliding way; the switching component is connected with the fixing part.

Through adopting above-mentioned technical scheme, switching mechanism accessible slider removes along the spout, and the effect of the subassembly that slides lies in can adapting to the removal orbit of switching the subassembly, avoids switching the subassembly and is blocked at the removal in-process, leads to unable cooperation to realize the effect of adjustment coupling assembling and photovoltaic board gradient.

Optionally, the receiving assembly includes a bearing part, a receiving part and a resetting part; the bearing part is arranged on the support main body; the bearing part is connected with the bearing part in a sliding way, a storage cavity and a through hole are arranged in the bearing part, and the storage cavity is communicated with the outside through the through hole; one end part of the reset part is connected with the support main body, and the other end part of the reset part is connected with the outer wall of the bearing part.

Through adopting above-mentioned technical scheme, the accepting is along with constantly saving the rainwater, accepting moves along bearing part downstream, drive the switching module downstream and extrude the portion of resetting in the time of the downstream, thereby make the switching module through the subassembly drop-down coupling assembling that slides, coupling assembling receives the pulling force and uses and support the main part tie point as the axle center, to supporting the main part direction slope, until accepting the portion contact support the main part, coupling assembling presses close to with the support main part, thereby reduce the inclination of coupling assembling and photovoltaic board, make under the condition of torrential rain and fierce wind, make link and photovoltaic board more press close to the surface of water, reduce the windage, make photovoltaic support and photovoltaic board can be more steady at the surface of water, after the wind and rain, the through-hole flows the rainwater, it resets to lose gravity extrusion and drives and lifts on the accepting to reset.

Optionally, the portion that resets twines the setting of bearing part.

Through adopting above-mentioned technical scheme, the effect that the portion that resets twines bearing part is when the portion that resets receives the extrusion, through the limiting displacement of bearing part, prevents the portion that resets and buckles the skew, and the protection portion that resets avoids the compression damage.

Optionally, at least one through hole is arranged in number, and an adjusting piece is arranged on each through hole.

Through adopting above-mentioned technical scheme, the speed that the rainwater spilled is decided to the quantity of through-hole, and the regulating part can be according to the flow demand with one or more of them through-hole stopper tight seal, the play water velocity of flow of control rainwater.

Optionally, the switching assembly comprises a pushing portion and a second hinge portion; one end part of the pushing part is connected with the bearing component, and the other end part is connected with the sliding component in a sliding way through a second hinge part.

Through adopting above-mentioned technical scheme, when the bolster rises or descends along bearing part, drive promotion portion and rise or descend to make promotion portion remove through second articulated portion and sliding assembly, and lift coupling assembling or drop-down coupling assembling, with the inclination of adjustment coupling assembling, adapt to different environment.

Optionally, a stabilizing component is also included; the stabilizing component is arranged on the floating body.

Through adopting above-mentioned technical scheme, in the weather of high wind stormy rain, rivers change obviously, set up firm subassembly, stabilize the support, further avoid the support on water to break away from original position.

Optionally, the stabilizing assembly comprises a stabilizing part, a pulling part and a clamping part; the stabilizing parts are arranged on the floating body, and at least one stabilizing part is arranged; the pulling part is wound on the stabilizing part; the clamping part is connected with the pulling part.

Through adopting above-mentioned technical scheme, the card-tight part with drag the portion and be connected, the stay cord twines in firm portion, with the card-tight part lost in the water, card-tight part and submarine contact to through dragging the portion and regard as the fulcrum with firm portion, when the support on water received the effect of rivers and will waft away, fix through card-tight part and submarine contact, with the firm effect that reaches the support on water.

Optionally, the stabilizing assembly further comprises a winding part; the winding part is arranged on the stabilizing part, and the pulling part is wound on the winding part.

Through adopting above-mentioned technical scheme, set up the portion of winding after, pull the portion and connect through the portion of winding to conveniently withdraw the chucking part of being connected with the portion of winding through the portion of winding.

In summary, the present application includes at least one of the following beneficial technical effects:

1. when rainwater is accumulated on the bearing assembly in stormy and gusty weather, the bearing end of the bearing assembly can move under the action of gravity after rainwater is accumulated and drive the switching assembly to move, the sliding assembly slides along the connecting assembly in the moving process of the switching assembly, the inclination angle of the connecting assembly along the connecting point of the supporting main body is changed, and the inclination heights of the connecting assembly and the photovoltaic panel are reduced, so that the stormy weather is prevented from being disordered along with airflow, and the mounting position of the photovoltaic support is prevented from being deviated along with the airflow;

2. the adapting part continuously stores rainwater, the adapting part drives the switching assembly to move downwards and extrude the resetting part, so that the switching assembly pulls down the connecting assembly, the connecting assembly is inclined towards the direction of the supporting main body by taking a connecting point with the supporting main body as an axis under the action of pulling force, the inclination angle of the connecting assembly and the photovoltaic panel is reduced, the connecting frame and the photovoltaic panel are closer to the water surface under the condition of rainstorm and gusty wind, the wind resistance is reduced, the photovoltaic support and the photovoltaic panel can be more stable on the water surface, after the wind and the rain are over, the rainwater flows out from the through hole, and the resetting part loses gravity to extrude and drive the adapting part to lift and reset;

3. firm subassembly can stabilize the support, further avoids support on water to break away from the original position, through will dragging a winding in firm portion, is connected the card-tight part again with dragging the portion other end, connects to accomplish and puts into the card-tight part submarine carry out the chucking to stabilize the position of support on water, reduce the rivers change and the condition of skew.

Drawings

FIG. 1 is a schematic view of a first three-dimensional structure of a water support in the embodiment 1 of the application;

fig. 2 is a first perspective structural view of the support body in embodiment 1 of the present application;

fig. 3 is a second perspective structural view of the support body in embodiment 1 of the present application;

fig. 4 is a third perspective structural view of the support body in embodiment 1 of the present application;

figure 5 is a schematic diagram of a second perspective view of the water support in example 2 of the present application;

the symbols in the drawings are: 1. the floating body comprises a floating body, 2, a supporting main body, 3, a connecting component, 31, a connecting part, 32, a first hinge part, 4, a sliding component, 41, a fixing part, 42, a sliding part, 5, a bearing component, 51, a bearing part, 52, a bearing part, 53, a resetting part, 54, a storage cavity, 55, a through hole, 56, an adjusting part, 6, a switching component, 61, a pushing part, 62, a second hinge part, 7, a stabilizing component, 71, a stabilizing part, 72, a pulling part, 73 and a clamping part.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses photovoltaic support on water.

Example 1:

a photovoltaic support on water refers to fig. 1 and comprises a floating body 1, a supporting main body 2, a connecting assembly 3, a sliding assembly 4, a receiving assembly 5 and a switching assembly 6; the floating body 1 is connected with the supporting body 2; the connecting assembly 3 is movably connected with the supporting main body 2, and the connecting assembly 3 is used for being externally connected with a photovoltaic panel; the bearing component 5 is arranged on the supporting body 2, and the bearing component 5 is used for bearing rainwater; the sliding component 4 is arranged on the connecting component 3; one end of the switching component 6 is connected with the sliding component 4, and the other end is connected with the receiving component 5; the bearing component 5 drives the switching component 6 to move through gravity brought by bearing rainwater, and the switching component 6 changes the position of the connecting component 3 through the sliding component 4. Specifically, the floating body 1 may be a plastic cylinder, a foam cylinder, a sealing cylinder, etc. and is applicable to all products with buoyancy, and the number of the floating body 1 may be several, and the specific number is determined according to the size of the floating body 1, and is not limited herein, the supporting main body 2 may be a supporting frame or a supporting plate, the supporting main body 2 and the floating body 1 may be connected by a pin, the supporting main body 2 is divided into two horizontal planes, one of which is in contact with the water surface, the connecting assembly 3 is installed on the horizontal plane of the supporting main body 2 away from the water surface, and the connecting assembly 3 is movably connected with the supporting main body 2, in this embodiment, the connecting assembly is hinged, one side of the connecting assembly 3 away from the supporting main body 2 is used for an external photovoltaic panel, the photovoltaic panel is installed on the connecting assembly 3, the connecting assembly 3 may be inclined along the connection point with the supporting main body 2 to adapt to the irradiation of light, the receiving assembly 5 is installed on the supporting main body 2, and is in the same horizontal plane with the coupling assembling 3, the receiving assembly 5 is used for receiving rainwater, when in the weather of heavy rain and heavy wind, rainwater is accumulated in the receiving assembly 5, the receiving end of the receiving assembly 5 can move under the action of gravity after rainwater is accumulated, and the switching assembly 6 is installed at the receiving end of the receiving assembly 5, therefore, when the receiving end of the receiving assembly 5 moves, the switching assembly 6 is driven to move, the switching assembly 6 slides through the sliding assembly 4 in the moving process, the inclination angle of the connecting point of the coupling assembling 3 along the supporting main body 2 is changed, when the receiving end of the receiving assembly 5 moves to be in contact with the supporting main body 2, the coupling assembling 3 and the photovoltaic panel installed on the surface of the coupling assembling 3 gradually approach the surface of the supporting main body 2, thereby reducing the inclination height of the coupling assembling 3 and the photovoltaic panel, avoiding the chaos of airflow accompanying the heavy rain, and the stability of the photovoltaic support which is obliquely arranged is influenced by the environment, the installation position of the photovoltaic bracket is deviated.

Referring to fig. 2, wherein the connecting assembly 3 includes a connecting portion 31 and a first hinge portion 32; the connecting part 31 is movably connected with the supporting body 2 through a hinge part; the sliding component 4 is arranged on the connecting part 31; the connecting portion 31 can adopt a connecting frame, the first hinge portion 32 can adopt a first hinge frame, the first hinge frame is installed on the horizontal plane far away from the water surface of the support main body 2, the connecting frame is hinged to the first hinge frame, the external photovoltaic panel is installed on the one surface far away from the support main body 2, therefore, the connecting frame and the photovoltaic panel can incline along the first hinge frame, the other end portion of the connecting frame is connected with the bearing assembly 5 through the sliding assembly 4 and the switching assembly 6, and the inclination of the whole connecting frame is supported.

Referring to fig. 3, the sliding component 4 includes a fixed portion 41 and a sliding portion 42; the fixing part 41 is mounted on the connection assembly 3; the sliding part 42 is connected with the fixed part 41 in a sliding way; the switching unit 6 is connected to the fixing unit 41; fixed part 41 can adopt slide rail or spout, and the mode of spout is adopted to this embodiment, sets up the spout on connecting portion 31, and the portion of sliding 42 can adopt the slider, and the slider can slide along the spout, switching module 6 and slider sliding connection, therefore switching mechanism accessible slider moves along the spout, and the effect of sliding module 4 lies in the removal orbit that can adapt to switching module 6, avoids switching module 6 to be blocked at the removal in-process, leads to unable cooperation to realize the effect of adjustment coupling assembling 3 and photovoltaic board gradient.

Wherein the switching assembly 6 comprises a pushing portion 61 and a second hinge portion 62; one end of the pushing part 61 is connected with the receiving component 5, and the other end is connected with the sliding component 4 in a sliding way through a second hinge part 62; the pushing part 61 can adopt a push rod, the second hinge part 62 can adopt a second hinge frame, the second hinge frame is installed on the sliding block, one end part of the push rod is hinged with the second hinge frame, the other end part is connected with the bearing box, the connection mode can be fixed connection or movable connection, the embodiment adopts fixed connection, when the bearing box ascends or descends along the bearing rod, the push rod is driven to ascend or descend, thereby the push rod passes through the second hinge frame, the sliding block moves along the sliding groove, and the connecting frame or the pull-down connecting frame is lifted, so as to adjust the inclination angle of the connecting frame, and adapt to different environments.

Referring to fig. 3 and 4, the receiving assembly 5 includes a bearing portion 51, a receiving portion 52 and a restoring portion 53; the bearing part 51 is mounted on the support body 2; the bearing part 52 is connected with the bearing part 51 in a sliding way, a storage cavity 54 and a through hole 55 are arranged in the bearing part 52, and the storage cavity 54 is communicated with the outside through the through hole 55; one end of the reset part 53 is connected to the support body 2, and the other end receiving part 52 is connected to the outer wall; bearing part 51 can adopt the bearing bar, bearing part 52 can adopt the bearing box, and install the sleeve in the bearing box, through sleeve and bearing bar socket joint, make the bearing box can reciprocate along the bearing bar, bearing box embeds storage chamber 54 and through-hole 55, and through-hole 55 and storage chamber 54 intercommunication, storage chamber 54 is used for accepting rainwater, through-hole 55 is used for flowing out the rainwater, switching module 6 installs at the bearing box outer wall, the piece that resets adopts the spring, a spring tip is fixed in bearing box outer bottom surface, another tip is installed on supporting body 2 surface, when torrential rain crazy wind, need protect photovoltaic support and photovoltaic board in fact, torrential rain falls from the sky, drip on bearing box, bearing box is along with constantly saving rainwater, the weight of bearing box is heavier and heavier, thereby make bearing box pass through the sleeve and more along bearing bar downstream, drive switching module 6 and move down and extrude the spring when the downstream, thereby make switching module 6 pass through the slider along the pull-down link, photovoltaic board on the link all inclines to supporting body 2 direction along first hinge frame, make the smooth contact with supporting body 2, thereby the steady connection frame and the photovoltaic board connection frame and the photovoltaic connection frame that reduces, thereby make the photovoltaic board connection frame and the photovoltaic board that reduces more the storm wind and the condition that the storm reduces.

When the bearing box continuously enters rainwater, the rainwater can be discharged through the through hole 55, the continuous overflow of the water of the bearing box is avoided, meanwhile, after the storm stops, the rainwater stops gathering in the bearing box, the through hole 55 in the bearing box discharges the residual rainwater, after the drainage is completed, the weight of the bearing box is reduced, so that the reset piece generates resilience force to lift the bearing box along the bearing rod, the switching assembly 6 moves together to lift the connecting frame along the sliding groove through the sliding block, and the other end of the connecting frame restores to an inclined state along the first hinged frame.

Bearing part 51 is kept away from support body 2 one end and is provided with joint spare, and chucking spare can adopt the screw cap, through in bearing part 51, the external screw thread is seted up at the bearing bar top promptly, covers the screw cap again, can prevent to reset the great accepting part 52 of dynamics of restoring to the throne and pop out, and break away from bearing part 51.

Reset portion 53 winding bearing portion 51 sets up, and another tip connection support body 2 of box is held in a spring end connection promptly to the installation of winding bearing bar, the winding effect is avoided the spring when receiving the extrusion, through the limiting displacement of bearing bar, prevents the spring skew of buckling, and the protection spring avoids the pressurized to damage.

At least one through hole 55 is arranged in number, and an adjusting piece 56 is arranged on the through hole 55; the quantity of the through holes 55 determines the rainwater leakage speed, when the size of the through holes 55 is large, the set quantity can be reduced as appropriate, the adjusting piece 56 can adopt a sealing plug, one or more through holes 55 can be tightly plugged and sealed according to the flow demand, and the rainwater outlet flow speed is controlled.

The surface of the floating body 1 is further provided with an anti-slip layer, and the anti-slip layer can be made of rubber particle pads and is used for improving safety of workers during installation or maintenance of the photovoltaic panel and the photovoltaic support.

The implementation principle of the embodiment 1 of the application comprises the following steps: when in the weather of stormy wind, the rainwater is piled up and is accepted subassembly 5, the end of accepting subassembly 5 can receive the action of gravity after the rainwater is piled up and remove, and drive switching module 6 and remove, switching module 6 removes the in-process and slides along coupling assembling 3 through sliding subassembly 4, change coupling assembling 3 along the tie point inclination of supporting main part 2, when accepting the end of accepting subassembly 5 and remove to contact with supporting main part 2, the photovoltaic board of the installation of coupling assembling 3 and its surface is close to supporting main part 2 surfaces gradually, thereby reduce the bank height of coupling assembling 3 and photovoltaic board, in order to avoid the stormy rain to accompany the air current chaotic, the photovoltaic support stationarity that leads to the slope to set up receives environmental impact, make the mounted position of photovoltaic support take place the skew.

Example 2:

referring to fig. 5, the present embodiment 2 is optimized based on embodiment 1, and the optimization includes the following contents: also comprises a stabilizing component 7; the stabilizing assembly 7 is arranged on the floating body 1; because support setting on water can receive the influence of rivers, especially in the weather of stormy weather, rivers change obviously, consequently set up firm subassembly 7, stabilize the support, further avoid support on water to break away from the original position.

Specifically, the stabilizing assembly 7 includes a stabilizing portion 71, a pulling portion 72, and a gripping portion 73; the stabilizing parts 71 are arranged on the floating body 1, and at least one stabilizing part 71 is arranged; the pulling part 72 is wound around the fixing part 71; the clamping part 73 is connected with the pulling part 72; firm portion 71 can adopt the spud pile, it can adopt the stay cord to drag portion 72, chucking portion 73 can adopt the anchor, the anchor is connected with the stay cord, the stay cord twines in the spud pile, throw the anchor into the aquatic, anchor and submarine contact, and regard as the fulcrum through stay cord and spud pile, when the support received the effect of rivers on water will waft away, fix through anchor and submarine contact, the spud pile setting can set up a plurality ofly, the anchor and the stay cord quantity that correspond are indefinite, but are not more than spud pile quantity.

The stabilizing assembly 7 further comprises a winding portion; the winding part is arranged on the stabilizing part 71, and the pulling part 72 is wound on the winding part; winding portion can adopt the reel, and the reel is installed at the spud pile top, and the stay cord winding makes things convenient for the reel to pull back the anchor, loses the fixed action of anchor, can change the position of support on water.

The stabilizing part 71 of the stabilizing component 7 can be a nut or a fixing plate with a threaded hole, the clamping part 73 can be a screw rod, and the screw rod is continuously rotated to the bottom through the nut until the screw rod drills into the bottom ground so as to stabilize the support on water, and the water stabilizing component is suitable for water sources with shallow water levels.

The implementation principle of embodiment 2 of the present application includes: firm subassembly 7 can stabilize the support, further avoids support on water to break away from the home position, through will dragging portion 72 and twine in firm portion 71, is connected chucking portion 73 with the other end of dragging portion 72 again, connects to accomplish and puts into chucking portion 73 submarine chucking to stabilize support on water's position, reduce rivers and change and the condition of skew.

The embodiments of the present disclosure are all preferred embodiments of the present disclosure, and the protection scope of the present disclosure is not limited thereby, wherein like parts are designated by like reference numerals. Therefore: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. A photovoltaic support on water is characterized by comprising a floating body (1), a supporting main body (2), a connecting assembly (3), a sliding assembly (4), a bearing assembly (5) and a switching assembly (6); the floating body (1) is connected with the supporting main body (2); the connecting assembly (3) is movably connected with the supporting main body (2), and the connecting assembly (3) is externally connected with a photovoltaic panel; the bearing component (5) is arranged on the supporting main body (2), and the bearing component (5) is used for bearing rainwater; the sliding component (4) is arranged on the connecting component (3); one end of the switching component (6) is connected with the sliding component (4), and the other end is connected with the bearing component (5); the bearing component (5) drives the switching component (6) to move through gravity brought by bearing rainwater, and the switching component (6) changes the position of the connecting component (3) through the sliding component (4).

2. The above-water photovoltaic support according to claim 1, characterized in that the connection assembly (3) comprises a connection portion (31) and a first articulation portion (32); the connecting part (31) is movably connected with the supporting main body (2) through a hinge part; the sliding assembly (4) is mounted on the connecting part (31).

3. The above-water photovoltaic support according to claim 1, characterized in that the sliding assembly (4) comprises a fixed part (41) and a sliding part (42); the fixing part (41) is mounted on the connecting component (3); the sliding part (42) is connected with the fixed part (41) in a sliding way; the switching unit (6) is connected to the fixing unit (41).

4. The above-water photovoltaic support according to claim 1, characterized in that the receiving assembly (5) comprises a bearing part (51), a receiving part (52) and a restoring part (53); a load bearing part (51) mounted on the support body (2); the bearing part (52) is connected with the bearing part (51) in a sliding way, a storage cavity (54) and a through hole (55) are formed in the bearing part (52), and the storage cavity (54) is communicated with the outside through the through hole (55); one end of the restoring part (53) is connected with the support main body (2), and the other end is connected with the outer wall of the bearing part (52).

5. The above-water photovoltaic support according to claim 4, characterized in that the restoring portion (53) is arranged wound around the load-bearing portion (51).

6. The waterborne photovoltaic support according to claim 4, wherein at least one through hole (55) is provided, and the through hole (55) is provided with an adjusting piece (56).

7. The above-water photovoltaic support according to claim 1, characterized in that the switching assembly (6) comprises a push portion (61) and a second articulated portion (62); one end of the pushing part (61) is connected with the receiving component (5), and the other end is connected with the sliding component (4) in a sliding way through a second hinge part (62).

8. The waterborne photovoltaic support of claim 1, further comprising a stabilizing assembly (7); the stabilizing component (7) is arranged on the floating body (1).

9. The above-water photovoltaic support according to claim 8, characterized in that the stabilizing assembly (7) comprises a stabilizing portion (71), a pulling portion (72) and a gripping portion (73); the stabilizing parts (71) are arranged on the floating body (1), and at least one stabilizing part (71) is arranged; the pulling part (72) is wound on the stable part (71); the gripping part (73) is connected to the pulling part (72).

10. The above-water photovoltaic support according to claim 9, characterized in that the stabilizing assembly (7) further comprises a winding portion; the winding part is mounted on the stabilizing part (71), and the pulling part (72) is wound on the winding part.

Images