CN212627768U - Novel photovoltaic platform on water - Google Patents

Abstract

The utility model discloses a novel waterborne photovoltaic platform, which comprises a fixed platform and an annular channel arranged around the fixed platform; the fixed platform comprises a plurality of main floating bodies which are arranged in a horizontal row and a longitudinal row, a supporting assembly is arranged on each main floating body, and a photovoltaic panel is arranged at the top of each supporting assembly; the annular channel is formed by splicing a transverse channel and a longitudinal channel; the transverse channels comprise a plurality of first aisle floating bodies and second aisle floating bodies with replaceable sizes, at least one row of main floating bodies are arranged between the adjacent transverse channels, the front ends and the rear ends of the main floating bodies are connected to the first aisle floating bodies arranged in the same row, and the second aisle floating bodies are arranged between the two adjacent first aisle floating bodies connected with the main floating bodies and used for adjusting the row spacing of the main floating bodies; the longitudinal channels comprise equipment floating bodies arranged in parallel with the main floating bodies, and at least two rows of main floating bodies are arranged between the adjacent longitudinal channels. The utility model discloses only need to replace not unidimensional second passageway body just can realize the structural adjustment, convenient operation realizes the commonality.

Description

Novel photovoltaic platform on water

Technical Field

The utility model relates to a photovoltaic installation technical field especially indicates a novel photovoltaic platform on water.

Background

Photovoltaic power generation is a technology for directly converting light energy into electric energy by utilizing the photovoltaic effect of a semiconductor interface. The photovoltaic power generation has wide application field, can generate power by light, and has good development prospect due to the characteristics of high safety performance, environmental protection, no limitation of regional conditions and the like. The photovoltaic power generation has small capacity distribution density, so that the occupied area is large. The existing floating type water photovoltaic is a floating type photovoltaic power station built on water surfaces of ponds, small lakes, reservoirs, water storage lakes and the like so as to solve the problem of large occupied area of the traditional photovoltaic power generation.

The utility model discloses a photovoltaic platform on water and mounting method thereof as CN108820149A discloses, aim at provides a photovoltaic platform on water that stability is good, easy dismounting, has adopted the configuration mode of passageway with main body, makes the last part of overall structure less, and arranges simply, but along with the continuous grow of size of photovoltaic module on the market, the commonality to different subassembly sizes can not be accomplished to this structure, can not provide the position that supplies equipment fixing such as relevant dc-to-ac converter, cable crane span structure, collection flow box simultaneously.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a novel photovoltaic platform on water, the photovoltaic board size of convenience according to the difference is adjusted, improves the commonality of structure.

In order to achieve the above purpose, the solution of the present invention is:

a novel overwater photovoltaic platform comprises a fixed platform and an annular channel arranged around the fixed platform; the fixed platform comprises a plurality of main floating bodies which are arranged in a horizontal row and a longitudinal row, a supporting component is arranged on each main floating body, and a photovoltaic panel is arranged at the top of each supporting component; the annular channel is formed by splicing a transverse channel and a longitudinal channel; the transverse channels comprise a plurality of first aisle floating bodies and second aisle floating bodies with replaceable sizes, at least one row of main floating bodies are arranged between the adjacent transverse channels, the front ends and the rear ends of the main floating bodies are connected to the first aisle floating bodies arranged in the same row, and the second aisle floating bodies are arranged between the two adjacent first aisle floating bodies connected with the main floating bodies and used for adjusting the row spacing of the main floating bodies; the longitudinal channels comprise equipment floating bodies arranged in parallel with the main floating bodies, and at least two rows of main floating bodies are arranged between the adjacent longitudinal channels.

The second aisle floating body is a replaceable part which can be changed along with the size or space requirement change of the photovoltaic panel.

When the main floating bodies between the adjacent transverse channels exceed one row, the longitudinal channel also comprises a first aisle floating body for connecting the adjacent equipment floating bodies.

A gap is reserved between the equipment floating body and the main floating body, and the width of the gap is equal to the length of the first aisle floating body.

The sum of the lengths of the second aisle floating body and the first aisle floating body is not less than the length of the photovoltaic panel; the length of the first aisle buoy is equal to the width of the main buoy; the length of the device float is equal to the length of the main float.

The second aisle float has a length greater than the first aisle float.

The middle part of the main floating body is hollowed and provided with an X-shaped connecting part for connecting the opposite angles of the main floating body.

The support assembly comprises a front support leg and a rear support leg which are respectively arranged at two ends of the main floating body, and the front support leg and the rear support leg are plastic pieces.

The supporting height of the rear supporting leg is greater than that of the front supporting leg, so that the photovoltaic panel is obliquely arranged.

The inclination angle of the photovoltaic panel is set to be 5 degrees, 10 degrees, 12 degrees or 15 degrees.

After the technical scheme is adopted, the utility model adopts the floating body arrangement design which is different from the prior structure, in practical application, according to the change of the size or the spacing requirement of the photovoltaic panel, the structure adjustment can be realized rapidly only by replacing the second passage floating body with different sizes, the operation is convenient, and the universality and the adjustability of the utility model are higher; meanwhile, the floating body arrangement design can meet design requirements of homodromous, symmetry, half-paving, full-paving and the like, and the application area is wider.

In addition, the equipment body can provide the mounted position with the relevant equipment of photovoltaic board, and structural design is more reasonable.

Drawings

FIG. 1 is a perspective view of an embodiment of the present invention;

FIG. 2 is a top view of an embodiment of the present invention;

FIG. 3 is a front view of an embodiment of the present invention;

fig. 4 is a side view of an embodiment of the present invention;

the reference numbers illustrate: a main floating body 1; an X-shaped connecting part 11; a photovoltaic panel 2; a first aisle float 3; a second aisle buoy 4; a device float 5; a space 6; a front supporting leg 7; and a rear supporting leg 8.

Detailed Description

In order to further explain the technical solution of the present invention, the present invention is explained in detail by the following embodiments.

The utility model relates to a novel photovoltaic platform on water, include fixed platform and encircle the annular channel that fixed platform set up.

The fixed platform comprises a plurality of main floating bodies 1 which are arranged in transverse rows and longitudinal columns, a supporting component is installed on each main floating body 1, and a photovoltaic panel 2 is installed at the top of each supporting component.

The annular channel is formed by splicing a transverse channel and a longitudinal channel; the transverse channels comprise a plurality of first passage floating bodies 3 and second passage floating bodies 4 with replaceable sizes, at least one row of main floating bodies 1 are arranged between the adjacent transverse channels, the front end and the rear end of each main floating body 1 are connected to the first passage floating bodies 3 arranged in the same row, and the second passage floating bodies 4 are arranged between the two adjacent first passage floating bodies 3 connected with the main floating bodies 1 and used for adjusting the row spacing of the main floating bodies 1; the longitudinal channels comprise equipment floats 5 arranged in parallel with the main floats 1, and at least two rows of main floats 1 are arranged between adjacent longitudinal channels.

Referring to fig. 1-4, a specific embodiment of the present invention is shown.

The second aisle floating body 4 is a replaceable part which can be changed along with the size or space requirement change of the photovoltaic panel 2.

When the main floats 1 between adjacent transverse channels exceed one row, the longitudinal channels also comprise a first gangway float 3' for connecting adjacent equipment floats 5.

Above-mentioned equipment body 5 leaves interval 6 with main body 1 between, the width of interval 6 equals the length of first passageway body 3, leaves interval 6 and can avoid extending to equipment body 5's top after the installation of photovoltaic board 2 for photovoltaic board 2 does not contact or interfere with each other with other relevant equipment of installing on equipment body 5.

In this embodiment, the sum of the lengths of the second aisle floating body 4 and the first aisle floating body 3 is not less than the length of the photovoltaic panel 2; the length of the first aisle buoy 3 is equal to the width of the main buoy 1; the length of the device float 5 is equal to the length of the main float 1; the second passage float 4 is longer than the first passage float 3. In order to satisfy main body 1 and photovoltaic board 2's installation demand.

The middle part of the main floating body 1 is hollowed and provided with the X-shaped connecting part 11, so that the weight and the cost of the main floating body 1 are reduced, and the tensile strength of opposite angles and opposite sides of the main floating body 1 is guaranteed.

The support assembly comprises a front support leg 7 and a rear support leg 8 which are respectively arranged at two ends of the main floating body 1, and the front support leg 7 and the rear support leg 8 are plastic pieces.

The support height of the rear support leg 8 is greater than that of the front support leg 7, so that the design of the inclination angle of the photovoltaic panel 2 is realized. In this embodiment, the inclination angle of the photovoltaic panel 2 is set to 5 °, 10 °, 12 °, or 15 °.

The main floating body 1 is provided with position marks of the installation positions of the front supporting legs 7 and the rear supporting legs 8, which are convenient for recognition during assembly, such as 'FL, FR, RL, RR'.

The corners of the main floating body 1, the first aisle floating body 3, the second aisle floating body 4 and the equipment floating body 5 are all provided with connecting lugs, and the connecting lugs are fixed relatively through bolt and nut structures.

Through the scheme, the utility model adopts the floating body arrangement design different from the existing structure, in practical application, according to the change of the size or the spacing requirement of the photovoltaic panel 2, the structure adjustment can be realized quickly only by replacing the second passage floating body 4 with different sizes, the operation is convenient, and the universality and the adjustability of the utility model are higher; meanwhile, the floating body arrangement design can meet design requirements of homodromous, symmetry, half-paving, full-paving and the like, and the application area is wider.

In addition, equipment body 5 can provide the mounted position with the relevant equipment of photovoltaic board 2, and structural design is more reasonable.

The above embodiments and drawings are not intended to limit the form and style of the present invention, and any suitable changes or modifications made by those skilled in the art should not be construed as departing from the scope of the present invention.

Claims (10)

1. The utility model provides a novel photovoltaic platform on water which characterized in that:

comprises a fixed platform and an annular channel arranged around the fixed platform;

the fixed platform comprises a plurality of main floating bodies which are arranged in a horizontal row and a longitudinal row, a supporting component is arranged on each main floating body, and a photovoltaic panel is arranged at the top of each supporting component;

the annular channel is formed by splicing a transverse channel and a longitudinal channel; the transverse channels comprise a plurality of first aisle floating bodies and second aisle floating bodies with replaceable sizes, at least one row of main floating bodies are arranged between the adjacent transverse channels, the front ends and the rear ends of the main floating bodies are connected to the first aisle floating bodies arranged in the same row, and the second aisle floating bodies are arranged between the two adjacent first aisle floating bodies connected with the main floating bodies and used for adjusting the row spacing of the main floating bodies; the longitudinal channels comprise equipment floating bodies arranged in parallel with the main floating bodies, and at least two rows of main floating bodies are arranged between the adjacent longitudinal channels.

2. A novel photovoltaic platform on water as claimed in claim 1 wherein:

the second aisle floating body is a replaceable part which can be changed along with the size or space requirement change of the photovoltaic panel.

3. A novel photovoltaic platform on water as claimed in claim 1 wherein:

when the main floating bodies between the adjacent transverse channels exceed one row, the longitudinal channel also comprises a first aisle floating body for connecting the adjacent equipment floating bodies.

4. A novel photovoltaic platform on water as claimed in claim 1 wherein:

a gap is reserved between the equipment floating body and the main floating body, and the width of the gap is equal to the length of the first aisle floating body.

5. A novel photovoltaic platform on water as claimed in claim 1 wherein:

the sum of the lengths of the second aisle floating body and the first aisle floating body is not less than the length of the photovoltaic panel;

the length of the first aisle buoy is equal to the width of the main buoy;

the length of the device float is equal to the length of the main float.

6. A novel photovoltaic platform on water as claimed in claim 1 or 5 wherein:

the second aisle float has a length greater than the first aisle float.

7. A novel photovoltaic platform on water as claimed in claim 1 wherein:

the middle part of the main floating body is hollowed and provided with an X-shaped connecting part for connecting the opposite angles of the main floating body.

8. A novel photovoltaic platform on water as claimed in claim 1 wherein:

the support assembly comprises a front support leg and a rear support leg which are respectively arranged at two ends of the main floating body, and the front support leg and the rear support leg are plastic pieces.

9. A novel photovoltaic platform on water as claimed in claim 8 wherein:

the supporting height of the rear supporting leg is greater than that of the front supporting leg, so that the photovoltaic panel is obliquely arranged.

10. A novel photovoltaic platform on water as claimed in claim 9 wherein:

the inclination angle of the photovoltaic panel is set to be 5 degrees, 10 degrees, 12 degrees or 15 degrees.

Images