CN220535912U - Cultivation floating platform and floating type fishing light complementary system - Google Patents

Abstract

The utility model discloses a cultivation floating platform and a floating type fishing light complementary system, which comprises at least one cultivation unit window, a cultivation net cage and a first pulling component, wherein an operation and maintenance walkway is arranged in the window of the cultivation unit window, the operation and maintenance walkway divides the cultivation unit window into a first window and a second window which are adjacently arranged, and a photovoltaic power generation system is arranged above the first window; the culture net cage is arranged below the culture unit window; the first pulling component is used for pulling the culture net cage so that the bottom of the culture net cage inclines to the side of the second window. This breed floating platform, through first pulling subassembly pulling aquaculture net case to make the bottom of aquaculture net case incline to the second window side, thereby can breed in the net case originally be located photovoltaic power generation system's breed organism is driven to the second window in, fishermen can carry out the fishery aquaculture operation in second window department this moment, has promoted the convenience of fishery aquaculture operation greatly.

Description

Cultivation floating platform and floating type fishing light complementary system

Technical Field

The utility model relates to the technical field of overwater photovoltaics, in particular to a cultivation floating platform and a floating type fishing light complementary system.

Background

The conventional fishing light complementary system in the current market generally adopts a pile foundation type combined pond culture mode, a photovoltaic power generation system is installed on an original culture pond in a mode of piling and adding a metal bracket, and the pond still maintains a traditional culture mode to carry out combined culture. Under the cultivation mode, the problems that the recovery of precast piles is difficult, the environment is influenced, the pile foundation interferes with a fishing net to catch fish, the fishing efficiency is low and the like exist; meanwhile, pile foundation type fishing light complementation is not suitable for deep water region culture, shell sea water culture and the like.

In order to eliminate the negative effects caused by precast piles, a floating type fish light complementary system is generally arranged on the market, the structure of the floating type fish light complementary system comprises a cultivation floating platform, a photovoltaic power generation system is arranged above the cultivation floating platform, a fishery cultivation device is arranged below the cultivation floating platform, and the fishery cultivation device needs to have enough fishery cultivation operation space for performing fishery cultivation operation, so that the problem that operation is difficult exists in the area, which is located under the photovoltaic power generation system, of the fishery cultivation device in the existing floating type fish light complementary system.

In summary, how to solve the problem of difficulty in operation of the fishery culture device in the floating type fishing light complementary system has become a technical problem to be solved urgently by those skilled in the art.

Disclosure of Invention

In view of the above, the utility model provides a cultivation floating platform and a floating type fishing light complementary system, so as to solve the problem of difficult operation of a fishery cultivation device in the floating type fishing light complementary system.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

a farmed floating platform comprising:

at least one breeding unit window is internally provided with an operation and maintenance pavement, the operation and maintenance pavement divides the breeding unit window into a first window and a second window which are adjacently arranged, and a photovoltaic power generation system is arranged above the first window;

the culture net cage is arranged below the culture unit window;

and the first pulling component is used for pulling the culture net cage so that the bottom of the culture net cage inclines to the side of the second window.

Optionally, the first pulling assembly comprises a first pulling mechanism for pulling the bottom of the aquaculture net cage to incline towards the second window side once.

Optionally, the first traction mechanism includes a first fixed end and a first traction end, the first fixed end is connected to one side of the bottom of the cultivation net cage corresponding to the first window side beam, and the first traction end extends to the upper side of the cultivation unit window;

the first window edge beam is configured as a window edge beam which is opposite to the operation and maintenance walkway on the first window.

Optionally, the first traction end is disposed on the first window edge beam.

Optionally, the first traction mechanism includes a plurality of first traction cables sequentially arranged at intervals along the first window edge beam.

Optionally, the first pulling assembly further comprises a second pulling mechanism for pulling the bottom of the cultivation net cage to incline towards the second window side for the second time.

Optionally, the second traction mechanism comprises a second fixed end and a second traction end, wherein the second fixed end is connected to the middle part of the bottom of the cultivation net cage, and the second traction end extends to the upper part of the cultivation unit window.

Optionally, the middle part of the bottom of the cultivation net cage is configured as a position where the bottom of the cultivation net cage is right opposite to the operation and maintenance pavement, and the second traction end is arranged on the operation and maintenance pavement.

Optionally, the second traction mechanism comprises a plurality of second traction cables which are sequentially and alternately distributed along the operation and maintenance walkway.

Optionally, the device further comprises a second pulling component, wherein the second pulling component is used for pulling one side, corresponding to the second window edge beam, of the bottom of the culture net cage, and the second window edge beam is configured as a window edge beam, opposite to the operation and maintenance pavement, on the second window.

Optionally, the breeding unit window is formed by assembling and connecting a plurality of pavement floating bodies; and/or the operation and maintenance walkway is formed by splicing and connecting a plurality of walkway floating bodies;

the cultivation unit window and the operation and maintenance walkway are provided with grooves which are matched with the corresponding traction ends in a positioning mode, wherein the traction ends of the first traction components and/or the walkway floating bodies led out from the traction ends of the second traction components are arranged on the cultivation unit window and the operation and maintenance walkway.

Optionally, the photovoltaic power generation system further comprises a floating body unit which is spanned on the first window, and the photovoltaic power generation system is arranged on the floating body unit.

Optionally, the floating body units are sequentially arranged at intervals in the first window; and/or the floating body unit is formed by sequentially connecting a plurality of component supporting floating bodies end to end.

Compared with the introduction of the background technology, the cultivation floating platform comprises at least one cultivation unit window, a cultivation net cage and a first pulling assembly, wherein an operation and maintenance pavement is arranged in the window of the cultivation unit window, the operation and maintenance pavement divides the cultivation unit window into a first window and a second window which are adjacently arranged, and a photovoltaic power generation system is arranged above the first window; the culture net cage is arranged below the culture unit window; the first pulling component is used for pulling the culture net cage so that the bottom of the culture net cage inclines to the side of the second window. According to the cultivation floating platform, in the practical application process, the cultivation net cage is positioned below the cultivation unit window, so that the arrangement area of fishery cultivation can be ensured, and meanwhile, the photovoltaic power generation can be ensured by installing the photovoltaic power generation system above the first window, and then the complementary effect of fishing light is realized; due to the fact that the maintenance walkway is arranged between the first window and the second window, when the cultured organisms in the culture net box need to be fed, fishermen can throw fish food around the operation and maintenance walkway where the second window is located, fish shoals are attracted to the fish shouldered, the fish shouldered is concentrated to be fed, when the fishery culture operation such as fishing is needed, the first pulling component pulls the culture net box to enable the bottom of the culture net box to incline to the side of the second window, and accordingly the cultured organisms in the culture net box, which are originally located under the photovoltaic power generation system, can be driven into the second window, and at the moment, fishermen can carry out the fishery culture operation at the position of the second window, so that convenience of the fishery culture operation is greatly improved.

In addition, the utility model also provides a floating type fishing light complementary system, which comprises a cultivation floating platform, wherein the cultivation floating platform is the cultivation floating platform described in any scheme. Because the cultivation floating platform has the technical effects, the floating type fishing light complementary system with the cultivation floating platform has the corresponding technical effects.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of the axial structure of a floating fishing light complementary system according to an embodiment of the present utility model;

FIG. 2 is a schematic top view of a floating fishing light complementary system according to an embodiment of the present utility model;

FIG. 3 is a schematic side view of a floating fishing light complementary system according to an embodiment of the present utility model;

FIG. 4 is a schematic structural view of a window of a cultivation unit according to an embodiment of the present utility model;

FIG. 5 is a schematic diagram of a structure of a cultivation cage arranged below a cultivation unit window according to an embodiment of the present utility model;

FIG. 6 is a schematic view of a structure of an assembly support float according to an embodiment of the present utility model;

fig. 7 is a schematic structural view of a first pavement floating body according to an embodiment of the present utility model;

FIG. 8 is a schematic structural view of a second type of pavement floating body according to an embodiment of the present utility model;

FIG. 9 is a schematic diagram of the same axial side structure of the walkway floats used in the floating type complementary fish-light system according to the embodiment of the present utility model.

Wherein, in fig. 1-9:

the cultivation unit window 1, the pavement floating body 10, the groove 101, the first window 11, the first window edge beam 111, the second window 12, the second window edge beam 121, the floating body unit 13, the component supporting floating body 130 and the mounting part 131;

an operation and maintenance walkway 2;

a photovoltaic power generation system 3;

a cultivation net cage 4;

a first traction mechanism 51, a second traction mechanism 52;

a second pulling assembly 6.

Detailed Description

The utility model aims at providing a cultivation floating platform and a floating type fishing light complementary system so as to solve the problem that a fishery cultivation device in the floating type fishing light complementary system is difficult to operate.

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to figures 1 to 9, the present utility model provides in particular a farmed floating platform comprising at least one farmed cell window 1, a farming net cage 4 and a first pulling assembly.

Wherein, a cultivation unit window 1 can be arranged on one cultivation floating platform, a plurality of cultivation unit windows 1 can be designed, and in the actual application process, the configuration can be selected according to the actual requirements; the operation and maintenance walkway 2 is arranged in the window of the breeding unit window 1, the operation and maintenance walkway 2 can be formed by splicing and connecting the walkway floating bodies 10 end to end, and can also be a non-floating body walkway bracket which is arranged on the breeding unit window 1 in a crossing way, the operation and maintenance walkway 2 divides the breeding unit window 1 into a first window 11 and a second window 12 which are adjacently arranged, the photovoltaic power generation system 3 is arranged above the first window 11, the photovoltaic power generation system 3 can comprise a component bracket and a photovoltaic component arranged on the component bracket, and the second window 12 provides a space required by fishery breeding operation for breeding operators.

The culture net box 4 is arranged below the culture unit window 1, the culture net box 4 is mainly used for realizing the containment culture of fishery culture organisms, can be fish or shellfish, can be made of a fishing net, has certain flexibility, can generate certain deformation when being pulled, for example, the bottom of the culture net box is of a rigid structure with certain rigidity, the surrounding net box walls of the culture net box are flexible net walls, or are integrally made of flexible net, and can be configured according to actual requirements in the practical application process, so long as the culture net box can be lifted and inclined.

The first pulling assembly is used for pulling the aquaculture net case 4 so that the bottom of the aquaculture net case 4 is inclined towards the side of the second window 12, i.e. the aquaculture net case 4 under the corresponding first window 11 is inclined towards the side of the second window 12 (aquaculture operation area).

According to the cultivation floating platform, in the practical application process, the cultivation net cage 4 is positioned below the cultivation unit window 1, so that the arrangement area of fishery cultivation can be ensured, and meanwhile, the photovoltaic power generation can be ensured by installing the photovoltaic power generation system 3 above the first window 11, and then the complementary fishing light is realized; due to the fact that the maintenance walkway 2 is arranged between the first window 11 and the second window 12, when the cultured organisms in the culture net cage 4 need to be fed, fishermen can throw fish food around the operation and maintenance walkway 2 where the second window 12 is located, fish shoves are attracted to the fish shoves and are fed intensively, when fishery culture operations such as fishing are needed, the first pulling assembly pulls the culture net cage 4 to enable the bottom of the culture net cage 4 to incline to the side of the second window 12, and accordingly the cultured organisms which are originally located under the photovoltaic power generation system 3 in the culture net cage 4 can be driven into the second window 12, and at the moment, fishermen can perform fishery culture operations at the position of the second window 12, so that convenience of the fishery culture operations is greatly improved.

It should be noted that, the arrangement of the first window 11 and the second window 12 may be designed as shown in fig. 1-5, and the two rectangular windows, that is, the "sun" structure, may be also designed as other shapes, for example, when the cultivation unit window 1 is circular or oblate, the first window 11 and the second window 12 are respectively semicircular and semi-oblate.

In some embodiments, referring to fig. 1, the first pulling assembly may specifically include a first pulling mechanism 51 for pulling the bottom of the aquaculture net case 4 once inclined to the side of the second window 12. Specifically, the first traction mechanism 51 may include a first fixed end and a first traction end, where the first fixed end is connected to one side of the bottom of the cultivation net cage 4 corresponding to the first window side beam 111, and the first traction end extends above the cultivation unit window 1; wherein the first window sill 111 is configured as a window sill opposite to the operation and maintenance walkway 2 on the first window 11. The bottom of the cultivation net cage 4 can be pulled to incline to the side of the second window 12 once by manually or mechanically driving the first pulling end to move, so that cultivation organisms which are originally positioned under the photovoltaic power generation system 3 in the cultivation net cage 4 are driven into the second window 12, and fishermen can perform fishery cultivation operation at the second window 12.

It should be noted that, the first traction end may be specifically disposed on the first window edge beam 111, and since the first fixing end is connected to one side of the bottom of the cultivation net cage 4 corresponding to the first window edge beam 111, the design manner may make the first traction mechanism 51 more labor-saving when traction is performed on the bottom of the cultivation net cage 4. It will of course be appreciated that the first traction end may also be designed on other window sills of the breeding unit window 1 when the effort saving problem is not considered and other arrangement requirements are present.

In addition, it should be noted that, the first traction mechanism 51 may specifically include a plurality of first traction cables, such as traction ropes or traction chains, that are sequentially arranged at intervals along the first window edge beam 111, where when the first traction end is manually pulled, the first traction end may be selectively designed to be fixed on the first window edge beam 111 in a manner of crossing the first window edge beam 111, and a corresponding traction rope positioning structure may be designed on the first window edge beam 111, such as when the first window edge beam 111 is the walk floating body 10, the traction rope positioning structure may be designed as the groove 101 on the walk floating body 10; when the first traction end adopts mechanical traction, the first traction inhaul cable can be retracted by adopting a motor to match with the winding mechanism so as to realize the traction function. It will be understood, of course, that the first traction mechanism 51 is not limited to a traction cable structure, and a telescopic rod mechanism may be used in combination with a corresponding telescopic rod driving mechanism, so long as the function of the first traction mechanism 51 for towing the bottom of the aquaculture net cage 4 can be achieved, and the present utility model is not limited in any way.

In some more specific embodiments, the first pulling assembly may further include a second pulling mechanism 52 for pulling the bottom of the cultivation net cage 4 to incline secondarily toward the second window 12 side, and by designing the second pulling mechanism 52, the bottom of the cultivation net cage 4 may be pulled further toward the second window 12 side on the basis of the first pulling mechanism 51 pulling the bottom of the cultivation net cage 4 to incline primarily toward the second window 12 side, thereby increasing the inclination amount of the bottom of the cultivation net cage 4 toward the second window 12 side, and simultaneously distributing the pulling more stably and reliably.

In a further embodiment, the second traction mechanism 52 may specifically include a second fixed end and a second traction end, where the second fixed end is connected to the middle of the bottom of the cultivation cage 4, and the second traction end extends above the cultivation unit window 1. By designing the second traction mechanism 52 into such a structural form, the bottom of the cultivation net cage 4 can be drawn to incline secondarily towards the second window 12 side by manually or mechanically driving the second traction end to move, and particularly when the cultivation net cage 4 is relatively large, the cultivation net cage 4 can be distributed and drawn, so that the traction operation is more convenient and more reliable.

In a further embodiment, the middle part of the bottom of the cultivation net cage 4 may be specifically configured to be a position where the bottom of the cultivation net cage 4 is opposite to the operation and maintenance pavement 2, and the second traction end is disposed on the operation and maintenance pavement 2. By designing the structure, the arrangement of the second traction mechanism 52 is more convenient, and the second traction mechanism 52 is equivalent to vertical force application and saves more labor. It will of course be appreciated that the second pulling end may also be designed on other window sills of the breeding unit window 1 when the effort saving problem is not considered and when there is a need for other arrangements.

It should be noted that, the second traction mechanism 52 may specifically include a plurality of second traction cables, such as traction ropes or traction chains, sequentially arranged at intervals along the operation and maintenance walkway 2, where when the second traction end is manually pulled, the second traction end may be selectively designed to be fixed on the operation and maintenance walkway 2 in a manner of crossing the operation and maintenance walkway 2, and a corresponding traction rope positioning structure may be designed on the operation and maintenance walkway 2, such as when the operation and maintenance walkway 2 is the walkway floating body 10, the traction rope positioning structure may be designed as the groove 101 on the walkway floating body 10; when the second traction end adopts mechanical traction, the second traction inhaul cable can be retracted by adopting a motor to match with the winding mechanism so as to realize the traction function. It will be understood, of course, that the second traction mechanism 52 is not limited to a traction cable structure, and a telescopic rod mechanism may be used in combination with a corresponding telescopic rod driving mechanism, so long as the function of the second traction mechanism 52 for towing the aquaculture net case 4 can be achieved, and the present utility model is not limited in any way.

In some more specific embodiments, the above-mentioned cultivation floating platform may further comprise a second pulling assembly 6, wherein the second pulling assembly 6 is configured to pull the bottom of the cultivation net cage 4 to a side corresponding to the second window edge beam 121, and wherein the second window edge beam 121 is configured as a window edge beam on the second window 12 opposite to the operation and maintenance walkway 2. Through designing this second pulling subassembly 6, when needing to carry out fishery cultivation operations such as fishing, can accomplish the basis of pulling at first pulling subassembly, the bottom that the rethread second pulling subassembly 6 was pulled and is bred cage 4 corresponds one side of second window boundary beam 121 to make and breed the living beings and drag to the top position that is close to second window 12, make things convenient for the landing net of breeding living beings (such as fish) to catch the operation more.

It should be noted that, the second pulling assembly 6 may also specifically adopt a plurality of third traction cables sequentially arranged at intervals along the extending direction of the second window side beam 121, one end of the third traction cable is fixedly connected with one side of the bottom of the aquaculture net cage 4 corresponding to the second window side beam 121, and the other end of the third traction cable extends onto the second window side beam 121, specifically, the corresponding groove 101 is formed in the pavement floating body 10 corresponding to the second window side beam 121 to fix the third traction cable, or other manners of fixing the third traction cable may be adopted. And the third traction cable can be manually pulled to realize traction, and can also be realized through a mechanical structure, such as a structural form of a motor-driven winch. Of course, the second pulling assembly 6 may take a structure form of a plurality of third pulling cables, or may take a structure form of other pulling mechanisms, for example, a structure form of a telescopic rod matched with a telescopic driving mechanism, etc., which is not limited in detail herein.

In some specific embodiments, referring to fig. 1-5, the breeding unit window 1 may be specifically formed by assembling and connecting a plurality of pavement floating bodies 10, and the assembling and connecting mode between adjacent pavement floating bodies 10 may be flexible connection or rigid connection. In addition, the floating walkways 10 used in the window 1 of the cultivation unit can be the same or different, for example, referring to fig. 7 and 9, the floating walkways 10 used in the window 1 of the cultivation unit are the same, which is beneficial to easy processing and assembly; for example, referring to fig. 1 to 5, fig. 7 and 8, the walkway floating bodies 10 adopted in the cultivation unit window 1 are different, specifically, the walkway floating bodies 10 shown in fig. 8 may be adopted as the window side beams at both ends corresponding to the maintenance walkway 2, the walkway floating bodies shown in fig. 9 may be adopted as the window side beams arranged opposite to the maintenance walkway 2, and naturally, other structures of the walkway floating bodies and the collocation manner may also be adopted, and the method is not limited in detail. The floating body 10 of the walkway, which is led out by the traction end of the first traction component and/or the traction end of the second traction component 6 corresponding to the window 1 of the culturing unit and the operation and maintenance walkway 2, can be provided with a groove 101 which is positioned and matched with the corresponding traction end. Through this recess 101 of design for draw the drawing of end and can be better location, draw drawing in-process operation more convenient then.

In addition, it should be noted that the operation and maintenance walkway 2 can be formed by assembling and connecting a plurality of walkway floating bodies 10, and the design of the operation and maintenance walkway is beneficial to improving the bearing capacity of the whole cultivation floating platform. Naturally, the buoyancy bearing capacity is not required to be considered, and the operation and maintenance walkway 2 can be assembled by a bracket structure which is designed to be a non-floating body structure.

It should be further noted that, the corresponding assembled position on the walk floating body 10 may be designed with a connection structure, for example, the adjacent walk floating bodies 10 are connected through a through hole bolt fastening at the ear holding position by designing an ear holding position, so as to form a floating square matrix, the connection structure may be flexibly connected or rigidly connected, and in the practical application process, the connection structure may be configured according to the requirements.

In other specific embodiments, as shown with reference to fig. 1-5, the above-described floating cultivation platform may further include a floating body unit 13 straddling the first window 11, and the photovoltaic power generation system 3 is disposed on the floating body unit 13. By designing the floating body unit 13, the floating capacity of the cultivation floating platform can be improved, and the bearing capacity of the first window 11 for installing the photovoltaic power generation system 3 can be improved. It will be understood, of course, that in the practical application process, the component support of the photovoltaic power generation system 3 may be directly installed at the first window 11, which is not beneficial to realizing the overall stability of the cultivation floating platform.

In a further embodiment, referring to fig. 1 to 5 in combination with fig. 6, the photovoltaic power generation system 3 may specifically include a module bracket and a photovoltaic module disposed on the module bracket, and the outer edge of the floating body unit 13 is provided with a mounting portion 131, where the mounting portion 131 is used to fix the module bracket. Through design into this kind of structural style for the installation of photovoltaic power generation system 3 is more convenient.

In some specific embodiments, referring to fig. 1 and 2, the floating body units 13 may be specifically configured in a manner of sequentially and alternately arranged in the first window 11, and this design manner further reduces the number of configuration of the floating body units 13, which helps to save costs.

It should be noted that, referring to fig. 1 and 2 in combination with fig. 6, the floating body unit 13 may be specifically formed by sequentially connecting a plurality of component support floating bodies 130 end to end. Through designing into this kind of structural style for the processing preparation of body unit 13 is more convenient, and can select the concatenation quantity of subassembly support body 130 according to the demand, the body unit of various length of adaptation of being convenient for. It should be noted that, the two adjacent component support floating bodies 130 may be specifically connected by adopting a mode of fastening bolts in a locking lug matching manner, or may be connected by adopting other modes, and may also be connected by adopting a flexible connection mode capable of swinging in a practical application process, and in the practical application process, configuration may be selected according to practical requirements, which is not limited in more detail herein.

In addition, the utility model provides a floating type fishing light complementary system, which comprises a cultivation floating platform, wherein the cultivation floating platform is described in any scheme. Because the cultivation floating platform has the technical effects, the floating type fishing light complementary system with the cultivation floating platform has corresponding technical effects, and the description is omitted here.

It should be noted that the floating type fishing light complementary system can be formed by assembling and combining a plurality of cultivation floating platforms, and the connection mode between two adjacent cultivation floating platforms can be flexible connection, so that the floating type fishing light complementary system can be better adapted to stormy waves.

It should be further noted that, in the present specification, each embodiment is described in a progressive manner, and each embodiment is mainly described as different from other embodiments, and identical and similar parts between the embodiments are referred to each other.

It should be appreciated that the terms "system," "apparatus," "unit," and/or "module," if used herein, are merely one method for distinguishing between different components, elements, parts, portions, or assemblies at different levels. However, if other words can achieve the same purpose, the word can be replaced by other expressions.

As used in this application and in the claims, the terms "a," "an," "the," and/or "the" are not specific to the singular, but may include the plural, unless the context clearly dictates otherwise. In general, the terms "comprises" and "comprising" merely indicate that the steps and elements are explicitly identified, and they do not constitute an exclusive list, as other steps or elements may be included in a method or apparatus. The inclusion of an element defined by the phrase "comprising one … …" does not exclude the presence of additional identical elements in a process, method, article, or apparatus that comprises an element.

Wherein, in the description of the embodiments of the present application, "/" means or is meant unless otherwise indicated, for example, a/B may represent a or B; "and/or" herein is merely an association relationship describing an association object, and means that three relationships may exist, for example, a and/or B may mean: a exists alone, A and B exist together, and B exists alone. In addition, in the description of the embodiments of the present application, "plurality" means two or more than two.

In addition, the terms "first," "second," are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature.

If a flowchart is used in the present application, the flowchart is used to describe the operations performed by the system according to embodiments of the present application. It should be appreciated that the preceding or following operations are not necessarily performed in order precisely. Rather, the steps may be processed in reverse order or simultaneously. Also, other operations may be added to or removed from these processes.

The principles and embodiments of the present utility model have been described herein with reference to specific examples, the description of which is intended only to facilitate an understanding of the core concepts of the utility model. It should be noted that it will be apparent to those skilled in the art that various modifications and adaptations of the utility model can be made without departing from the principles of the utility model and these modifications and adaptations are intended to be within the scope of the utility model as defined in the following claims.

Claims (14)

1. A farmed floating platform, comprising:

at least one breeding unit window (1), wherein an operation and maintenance pavement (2) is arranged in the window, the operation and maintenance pavement (2) divides the breeding unit window (1) into a first window (11) and a second window (12) which are adjacently arranged, and the photovoltaic power generation system (3) is arranged above the first window (11);

the culture net cage (4) is arranged below the culture unit window (1);

and the first pulling component is used for pulling the culture net cage (4) so that the bottom of the culture net cage (4) is inclined to the side of the second window (12).

2. A farmed floating platform as claimed in claim 1, characterised in that the first pulling assembly comprises a first pulling mechanism (51) for pulling the bottom of the farming net cage (4) once inclined towards the side of the second window (12).

3. A farming flotation platform according to claim 2, wherein the first traction means (51) comprises a first fixed end and a first traction end, the first fixed end being connected to one side of the bottom of the farming box (4) corresponding to a first window sill (111), the first traction end extending above the farming unit window (1);

the first window edge beam (111) is configured as a window edge beam opposite to the operation and maintenance pavement (2) on the first window (11).

4. A farmed floating platform as claimed in claim 3, characterised in that the first traction end is provided on the first window sill (111).

5. The farmed floating platform according to claim 4, wherein the first traction mechanism (51) includes a plurality of first traction cables sequentially spaced along the first window sill (111).

6. A farmed floating platform as claimed in claim 2, characterised in that the first pulling assembly further comprises a second pulling mechanism (52) for pulling the bottom of the farming net cage (4) to tilt secondarily towards the side of the second window (12).

7. A farmed floating platform as claimed in claim 6, characterised in that the second traction means (52) comprises a second fixed end and a second traction end, the second fixed end being connected to the middle of the bottom of the farmed net cage (4), the second traction end extending above the farmed unit window (1).

8. A farming flotation platform according to claim 7, wherein the middle of the bottom of the farming box (4) is arranged in a position where the bottom of the farming box (4) is facing the operation and maintenance walkway (2), and the second traction end is arranged on the operation and maintenance walkway (2).

9. A farmed floating platform as claimed in claim 8, characterised in that the second traction means (52) comprises a plurality of second traction cables spaced in sequence along the operation and maintenance walkway (2).

10. A farmed floating platform as claimed in any one of claims 1 to 9, further comprising a second pulling assembly (6), the second pulling assembly (6) being adapted to pull a side of the bottom of the farming box (4) corresponding to a second window sill (121), the second window sill (121) being configured as a window sill on the second window (12) opposite the operation and maintenance walkway (2).

11. A farmed floating platform as claimed in claim 10, characterised in that the farmed cell window (1) is surrounded by a plurality of walkway floats (10) spliced together; and/or the operation and maintenance walkway (2) is formed by splicing and connecting a plurality of walkway floating bodies (10);

the cultivation unit window (1) and the operation and maintenance pavement (2) are correspondingly provided with traction ends of the first traction components and/or the pavement floating bodies (10) led out from the traction ends of the second traction components (6), and grooves (101) matched with the corresponding traction ends in positioning mode are formed in the pavement floating bodies (10).

12. A farmed floating platform as claimed in claim 1, further comprising a floating body unit (13) straddling the first window (11), the photovoltaic power generation system (3) being arranged to the floating body unit (13).

13. A farmed floating platform as claimed in claim 12, characterised in that the floating elements (13) are arranged at intervals in sequence within the first window (11); and/or the floating body unit (13) is formed by sequentially connecting a plurality of component support floating bodies (130) end to end.

14. A floating fishing light complementation system comprising a cultivation floating platform, wherein the cultivation floating platform is the cultivation floating platform according to any one of claims 1-13.