CN220786083U - 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 a floating unit, a movable bearing device and a hanging and raising device, wherein a cultivation unit window is arranged on the floating unit, and a photovoltaic laying area and a cultivation operation area which are sequentially arranged along a first direction are arranged in a window inner area of the cultivation unit window; the movable bearing device is connected to two opposite ends of the window of the culture unit along the first direction; the lifting device is lifted below the movable bearing device and can do translational motion along the first direction relative to the movable bearing device. According to the cultivation floating platform, the cultivation operation area is only required to be arranged in the limited area of the cultivation unit window, so that the arrangement area of the cultivation operation area is greatly reduced, the arrangement area of the photovoltaic laying area is increased, and the installed capacity of a photovoltaic power generation system of the cultivation floating platform is increased; in addition, when the fishermen performs the cultivation operation, the movement frequency of the fishermen can be reduced, and the work efficiency and the operation convenience of the fishery operation can be improved.

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 effect brought by precast piles, a floating type fishing light complementary system appears on the market, the structure of the floating type fishing light complementary system generally comprises a cultivation floating platform, the upper part of the cultivation floating platform is used for loading a photovoltaic power generation system, and the lower part of the cultivation floating platform is used for loading a fishery cultivation device, but because the fishery cultivation device needs to reserve space required by fishery cultivation operation, the laying area of a photovoltaic module is limited, namely the installation capacity of the photovoltaic power generation system is limited, and operation is required to be carried out in each fishery cultivation area during the fishery operation, so that the operation is very inconvenient.

In summary, how to solve the problems of limited installed capacity and inconvenient fishery cultivation operation of the photovoltaic power generation system on 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 problems of limited installed capacity of a photovoltaic power generation system on the floating type fishing light complementary system and inconvenient fishery cultivation operation.

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

a farmed floating platform comprising:

the floating unit is provided with a breeding unit window, and the window inner area of the breeding unit window comprises a photovoltaic laying area and a breeding operation area which are sequentially arranged along a first direction;

the movable bearing device is connected to two opposite sides of the culture unit window along the first direction;

and the lifting device is lifted below the movable bearing device and can do translational motion along the first direction relative to the movable bearing device.

Optionally, the number of the mobile bearing devices is at least one, and when the number of the mobile bearing devices is a plurality of the mobile bearing devices, the mobile bearing devices are sequentially arranged at intervals along a second direction, wherein the second direction is configured to be arranged at an included angle with the first direction in a plane where the cultivation unit window is located.

Optionally, the mobile carrier means is configured as a flexible member or bar connected to two opposite sides of the window of the growing unit.

Optionally, the lifting device is lifted by the lifting connecting piece in the mobile bearing device, a first end of the lifting connecting piece is connected with the lifting device, and a second end of the lifting connecting piece can make translational motion along the first direction relative to the mobile bearing device.

Optionally, the second end of the hoisting connecting piece is provided with a sliding part, and the sliding part is in sliding fit with the movable bearing device along the first direction.

Optionally, the sliding part is configured to be sleeved on a slip ring of the mobile bearing device;

or, the sliding part is configured as a sliding block or a pulley which is in sliding fit with the movable bearing device.

Optionally, the second ends of the hoisting connectors hoisted on the same mobile bearing device are fixed on a traction cable in a mode of sequentially arranging at preset intervals.

Optionally, the traction cable comprises a first traction end and a second traction end, wherein the first traction end is used for dragging the hanging and raising devices to move from the photovoltaic laying area to the raising operation area so as to gather the hanging and raising devices in the raising operation area; the second traction end is used for traction the hanging and raising devices to move from the raising operation area to the photovoltaic laying area so that the hanging and raising devices can be unfolded to a preset distance.

Optionally, the first traction end is located at one end of the mobile bearing device corresponding to the side where the cultivation operation area is located, and the second traction end is located at one end of the mobile bearing device corresponding to the side where the photovoltaic laying area is located.

Optionally, the first traction end is located at one end of the side of the mobile bearing device corresponding to the cultivation operation area, a first rope turning member is disposed at one end of the side of the mobile bearing device corresponding to the photovoltaic laying area, and the first rope turning member is used for turning the traction rope, so that the second traction end is located at one end of the side of the mobile bearing device corresponding to the cultivation operation area.

Optionally, a first rope turning component is arranged at one end of the movable bearing device corresponding to the side of the photovoltaic laying area, and a second rope turning component is arranged at one end of the movable bearing device corresponding to the side of the cultivation operation area;

the traction cable comprises a first traction end and a second traction end, and the first traction end is positioned at one end of the movable bearing device corresponding to the side where the cultivation operation area is positioned; the second traction end is fixed on one side, close to the first rope diversion component, of the fixed cable section of the traction cable after being sequentially changed by the first rope diversion component and the second rope diversion component;

the fixed cable section is a cable section extending from the first traction end to the first rope turning component, and the second ends of the hoisting connecting pieces are fixedly arranged on the fixed cable section.

Optionally, the device further comprises a gathering stay rope, wherein the gathering stay rope is used for pulling the hanging and raising devices to move from the photovoltaic laying area to the raising operation area so as to gather the hanging and raising devices in the raising operation area; one end of the gathering inhaul cable is located at one end of the movable bearing device corresponding to the side where the cultivation operation area is located, and the other end of the gathering inhaul cable is fixed at a connection node position of the traction inhaul cable and the second end of the hoisting connecting piece at the side where the photovoltaic paving area is located.

Optionally, the traction cable includes a first traction end and a second traction end, where the first traction end is located at an end of the mobile bearing device corresponding to the side where the cultivation operation area is located, and a first rope turning member is provided at an end of the mobile bearing device corresponding to the side where the photovoltaic laying area is located, and the first rope turning member is used for turning the traction rope, so that the second traction end is located at an end of the mobile bearing device corresponding to the side where the cultivation operation area is located;

the second traction end is used for traction the hanging and raising devices to move from the raising operation area to the photovoltaic laying area so that the hanging and raising devices can be unfolded to a preset distance.

Optionally, the device further comprises a driving mechanism, wherein the driving mechanism is used for driving the lifting device to do translational motion along the first direction relative to the mobile bearing device.

Compared with the background technology, the cultivation floating platform comprises a floating unit, a movable bearing device and a hanging and raising device, wherein a cultivation unit window is arranged on the floating unit, and a photovoltaic laying area and a cultivation operation area which are sequentially arranged along a first direction are arranged in a window inner area of the cultivation unit window; the movable bearing device is connected to two opposite edges of the window of the culture unit along the first direction; the lifting device is lifted below the movable bearing device and can do translational motion along the first direction relative to the movable bearing device. According to the cultivation floating platform, in the practical application process, when the cultivation organisms in the hanging and raising device are required to be fed, the hanging and raising device is required to be maintained and the like, the hanging and raising device can be driven by manpower or machinery to move relatively to the carrying device in a translational motion along the first direction, so that the hanging and raising device in the photovoltaic laying area moves to the cultivation operation area, and then a worker can carry out fishery cultivation operations such as feeding, fishing and replacing fishing nets on the hanging and raising device in the cultivation operation area; in addition, due to the fact that the arrangement area of the cultivation operation area is reduced, when a fishermen executes cultivation operation, the movement frequency of the fishermen can be reduced, and the work efficiency of fishery operation and the convenience of operation can be improved.

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 the cultivation floating platform according to any scheme. Because the above-mentioned cultivation floating platform has the above-mentioned technical effects, therefore have this cultivation floating platform's complementary system of floating fishing light, should also have corresponding technical effects, and will not be repeated here.

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 an axial side structure of a cultivation floating platform according to an embodiment of the present utility model;

FIG. 2 is a schematic top view of a floating platform according to an embodiment of the present utility model;

fig. 3 is a schematic structural view of a hanging and raising device of the raising and floating platform provided by the embodiment of the utility model in an unfolded state under a first direction view angle;

FIG. 4 is a schematic structural view of a hanging and raising device of the raising and floating platform provided by the embodiment of the utility model in a gathering manner in a raising operation area under a first direction view angle;

fig. 5 is a schematic structural diagram of a hanging device fixed on a traction cable at a preset interval according to an embodiment of the present utility model;

fig. 6 is a schematic structural diagram of a mobile carrying device, a traction cable and a hanging device according to an embodiment of the present utility model;

fig. 7 is a schematic structural view of a traction cable diverted by a first rope diversion member according to an embodiment of the present utility model;

fig. 8 is a schematic structural view of a traction cable sequentially turned by a first rope turning member and a second rope turning member according to an embodiment of the present utility model;

fig. 9 is a schematic diagram of a first structure of a traction cable matched with a gathering cable according to an embodiment of the present utility model;

fig. 10 is a schematic diagram of a second structure of a traction cable matched with a gathering cable according to an embodiment of the present utility model.

Wherein, in fig. 1-10:

a floating unit 1, a breeding unit window 10, a floating framework 101, a floating body 102, a photovoltaic laying area 11 and a breeding operation area 12;

a mobile carrying device 2;

a hanging and raising device 3;

hoisting the connecting piece 4 and the sliding part 41;

traction cable 5, fixed cable segment 50, first traction end 51, second traction end 52;

a photovoltaic module 6;

a first rope redirecting member 7;

a second rope redirecting member 8;

gathering the inhaul cables 9;

a first direction a;

a second direction B.

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 problems that the installed capacity of a photovoltaic power generation system on the floating type fishing light complementary system is limited and the fishery cultivation operation is inconvenient.

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 fig. 1-10, the utility model provides a cultivation floating platform, which comprises a floating unit 1, a movable bearing device 2 and a hanging and raising device 3.

The floating unit 1 specifically may include a floating skeleton 101 and a floating body 102 mounted on the floating skeleton 101, where the floating skeleton 101 encloses a window formed to form a culturing unit window, and the floating body 102 is used to provide buoyancy for the floating skeleton 101; the floating frame 101 may be a connecting frame formed by assembling and connecting multiple pedals, or a connecting frame formed by other manners, such as a floating frame formed by assembling a frame structure, and the floating frame is preferably made of some light materials, such as materials with a certain buoyancy, the floating body 102 is used for providing the floating frame 101 with the buoyancy, the specific structure of the floating frame may be a floating ball structure, the floating balls are uniformly distributed in the circumferential direction of the floating frame 101, and the floating body of other structures may be adopted. The floating unit 1 is provided with a breeding unit window 10, and the floating unit 1 can be provided with one breeding unit window 10 or a plurality of breeding unit windows 10, and can be configured according to actual requirements in the actual application process; the intra-window area of the cultivation unit window 10 may specifically include a photovoltaic paving area 11 and a cultivation operation area 12 sequentially arranged along the first direction a, where the photovoltaic paving area 11 is mainly used for arranging the photovoltaic modules 6 of the photovoltaic power generation system, specifically, a photovoltaic bearing support is provided above the cultivation unit window 10 corresponding to the photovoltaic paving area 11, the photovoltaic bearing support is used for installing the photovoltaic modules 6, and the cultivation operation area 12 provides an operation space for workers to perform operations such as feeding and maintenance.

In addition, the movable carrying device 2 is connected to two opposite sides of the cultivation unit window 10 along the first direction a, and the movable carrying device 2 may specifically be a flexible member or a rod member connected to two opposite sides of the cultivation unit window 10, such as a hollow circular tube, etc., where the hanging device 3 is hung below the movable carrying device 2, and is capable of performing a translational motion along the first direction a relative to the movable carrying device 2. The hanging device can specifically comprise a hanging net, and the structure is mainly suitable for shellfish cultivation.

According to the cultivation floating platform, in the practical application process, when the cultivation organisms in the hanging and raising device 3 are required to be fed, the hanging and raising device 3 is required to be maintained and the like, the hanging and raising device 3 can be driven to move horizontally along the first direction A by manual or mechanical driving relative to the hanging and raising device 3, so that the hanging and raising device 3 positioned in the photovoltaic laying area 11 moves to the cultivation operation area 12, and then a worker can perform fishery cultivation operations such as feeding, fishing and replacing fishing nets on the hanging and raising device 3 in the cultivation operation area 12, and the cultivation floating platform is designed into the structural form, so that the arrangement area of the cultivation operation area 12 is greatly reduced, the arrangement area of the photovoltaic laying area 11 is increased, and the installation capacity of a photovoltaic power generation system of the cultivation floating platform is improved; in addition, due to the arrangement area reduction of the cultivation operation area 12, when the fishermen execute cultivation operation, the movement frequency of the fishermen can be reduced, and the work efficiency and the operation convenience of fishery operation can be improved.

It should be noted that, in some embodiments, as shown in fig. 1 and fig. 2, the number of the mobile carrying devices 2 is preferably configured to be plural, and when the number of the mobile carrying devices 2 is plural, the mobile carrying devices are preferably configured to be sequentially arranged at intervals along a second direction B, where the second direction B is configured to be disposed at an angle with respect to the first direction a in a plane of the cultivation unit window 10, for example, the second direction B is perpendicular to the first direction a in a plane of the cultivation unit window 10. Through designing into this kind of structural style for can arrange more hanging and support device 3 in the breeding unit window 10, be favorable to promoting fishery cultivation income.

In other specific embodiments, referring to fig. 1 in combination with fig. 3 to fig. 6, the lifting device 3 may be lifted from the mobile bearing device 2 by a lifting connector 4, where a first end of the lifting connector 4 is connected to the lifting device 3, and a second end of the lifting connector 4 may perform a translational motion along the first direction a relative to the mobile bearing device 2. By designing the hoisting connection 4, it is more convenient for the hoisting device 3 to be mounted to the mobile carrier device 2 in a translatable manner, and for a sufficient distance between adjacent hoisting devices 3.

In a further embodiment, the second end of the lifting connection 4 may be provided with a sliding portion 41, the sliding portion 41 being in sliding engagement with the mobile carrier 2 along the first direction a. By designing the sliding part 41 at the second end, the second end of the hanging and raising connecting piece 4 can move in a translational manner relative to the movable bearing device 2, and the structure is simple and the processing is convenient. It will be understood that, in practical application, the sliding portion 41 may be replaced by a roller member, so that the sliding fit may be changed into rolling fit, and the translational movement may be smoother.

In a further embodiment, the sliding portion 41 may be specifically configured as a slip ring sleeved on the mobile carrier 2, and the sliding portion 41 is more concise in structure by means of sliding fit between the slip ring and the mobile carrier 2. It will be understood that, of course, the sliding portion 41 may also be configured as a sliding block or a pulley that is slidably engaged with the mobile carrier 2, for example, the sliding block or the pulley and the mobile carrier 2 form a sliding pair, which may be specifically configured according to actual requirements in the practical application process, and is not limited in this way.

In other specific embodiments, the hoisting connection 4 may be designed as a rigid structure, or may be designed such that part of the connection section is a flexible connection end, or the whole connection section is a flexible connection section. In the utility model, at least part of the connecting sections of the hoisting connecting pieces 4 are preferably designed into flexible connecting sections, and the hoisting connecting pieces 4 are designed into the structure form with the flexible connecting sections, so that the hoisting device 3 can move more flexibly, and the later hoisting device 3 can be more conveniently extracted and pulled up.

In a further embodiment, when the whole connecting section of the hoisting connecting piece 4 is a flexible connecting section, the hoisting connecting piece 4 can be specifically configured as a flexible rope, as the hoisting device 3 is connected by the flexible rope, and the space below the water area is large enough, when the same row of hoisting devices 3 move to the culture operation area 12, under the action of the flexible rope, the hoisting devices 3 can be distributed around the culture operation area 12, so that the excessive hoisting devices 3 in the same area are avoided, and mutual interference is avoided. In addition, a rope ring buckle formed by binding flexible ropes is formed at the second end of the hoisting connecting piece 4, and the rope ring buckle is sleeved on the movable bearing device 2 in a sliding fit manner. Through designing into this kind of structural style for the second end of hoist and mount connecting piece 4 can directly realize through the ligature with remove the sliding fit who bears device 2, compare in the structure that the sliding part 41 was arranged to the extra design, the structure is simpler, has saved the arrangement of sliding part, helps practicing thrift the cost.

In some embodiments, referring to fig. 5 to 10, the second ends of the hoisting connectors 4 hoisted to the same mobile carrier 2 are preferably fixed to one traction cable 5 in a sequential arrangement at a predetermined interval. Through designing into this kind of structural style, can guarantee to hang when raising the device 3 and remove and raise the device 3's connected node interval unchangeably to it is even and avoid each to hang the problem of raising the device 3 mutual interference to cultivate the density in the same region. In addition, at the time except for the cultivation operation, the two ends of the traction cable 5 are in a straightening and binding state, and the movable bearing device 2 provides supporting force to provide double protection for the hanging and cultivating device 3, so that the risk of economic loss caused by falling of the hanging and cultivating device 3 is reduced.

Specifically, referring to fig. 6 and 7, the traction cable 5 has a first traction end 51 and a second traction end 52, where the first traction end 51 is used to draw the hanging and raising devices 3 from the photovoltaic laying area 11 to the raising operation area 12 so as to gather the hanging and raising devices 3 in the raising operation area 12; the second traction end 52 is used for traction of the hanging and raising devices 3 from the raising operation area 12 to the photovoltaic laying area 11 so that the hanging and raising devices 3 are unfolded to a preset distance. In the practical application process, when the cultivation floating platform is in a non-working condition, the first traction end 51 and the second traction end 52 can be tensioned and fixed, and each hanging and raising device 3 fixed on the traction cable 5 can be stably and uniformly distributed; when the fishery cultivation operation is required, the hanging and cultivation device 3 can be moved to the cultivation operation area 12 by pulling the first traction end 51 and gradually pulling the traction cable 5 close to the first traction end; after the cultivation related operation is completed, the hanging and cultivating devices 3 on the traction cable 5 can be stably and uniformly distributed by fixing the first traction end 51, pulling the second traction end 52 and tensioning the traction cable 5.

It should be noted that, the first traction end 51 may be designed to be located at an end of the mobile carrying device 2 corresponding to the side of the cultivation area 12, and the second traction end 52 is located at an end of the mobile carrying device 2 corresponding to the side of the photovoltaic installation area 11, as shown in fig. 6. The arrangement has the advantage of simple structure.

It will be understood that, in order to make the fishery cultivation operation more convenient, the first traction end 51 and the second traction end 52 may also be located at one end of the mobile bearing device 2 corresponding to the side of the cultivation operation area 12, as shown in fig. 7, the initial installation position of the first traction end 51 is located at one end of the mobile bearing device 2 corresponding to the side of the cultivation operation area 12, one end of the mobile bearing device 2 corresponding to the side of the photovoltaic laying area 11 is provided with a first rope redirecting member 7, the first rope redirecting member 7 is used for redirecting the traction rope 5, and after the second traction end 52 of the traction rope 5 is redirected by the first rope redirecting member 7, the second traction end 52 is finally located at one end of the mobile bearing device 2 corresponding to the side of the cultivation operation area 12. Through designing into this kind of structural style for the operation personnel can stand and control the reciprocating motion of hanging the device 3 of raising in the side of breeding operation district 12 place, and the operation is more convenient.

In other specific embodiments, referring to fig. 8, one end of the mobile carrying device 2 corresponding to the side of the photovoltaic laying area 11 may be provided with a first rope redirecting member 7, and one end of the mobile carrying device 2 corresponding to the side of the cultivation work area 12 may be provided with a second rope redirecting member 8; the traction cable 5 specifically may include a first traction end 51 and a second traction end 52, where the first traction end 51 is located at one end of the mobile bearing device 2 corresponding to the side of the cultivation work area 12; the second traction end 52 extends backwards to the second rope diversion component 8 through the first rope diversion component 7 in a primary change, and is subjected to secondary diversion through the second rope diversion component 8, namely, the second rope diversion component 8 and the first rope diversion component 7 are sequentially diverted, and then the second traction end is fixed on one side, close to the first rope diversion component 7, of the fixed cable section 50 of the traction cable 5; the fixed cable segment 50 is specifically a cable segment in which the traction cable 5 extends from the first traction end 51 to the first rope diversion component 7, and the second ends of the hoisting connecting pieces 4 are fixedly arranged on the fixed cable segment 50. In the actual use process, the first traction end 51 of the traction cable 5 mainly plays a role in fixing the traction cable 5 under the non-cultivation working condition; when the cultivation operation is required, the hanging and raising device 3 can be moved to the cultivation operation area 12 by pulling the rope part which is formed by extending the traction rope 5 to the second traction end 52 after being changed in direction by the second rope direction changing component 8 when the cultivation operation is required; after the relevant cultivation operation is completed, the traction rope 5 can be pulled to be turned by the first rope turning component 7 and then extend to the rope part between the turning positions of the second rope turning component 8 by standing on the side where the cultivation operation area 12 is located, so that the traction rope 5 can be tensioned to restore the stable and uniform distribution of the hanging and raising devices 3 on the traction rope 5. The connection node between the second traction end 52 and the fixed cable segment 50 is preferably designed as a connection node position between the second end of the hoisting connector 4 on the side of the photovoltaic installation area 11 and the fixed cable segment 50, for example, a connection node position between the second end of the hoisting connector 4 of the hoisting device 3 closest to the end of the mobile bearing device 2 on the side of the photovoltaic installation area 11 and the fixed cable segment 50. Through designing into this kind of structural style, gather together and hang and support the operation of device 3 simpler, only need pull the rope segment that corresponds of traction rope 5 can, compare in pulling first traction end 51 and second traction end 52, need not to make extra mark to first traction end 51 and second traction end 52 distinguish, the rope segment before the diversion of required pulling second rope diversion component 8 under the different operating modes and after the diversion rope segment can, more easily distinguish.

In other specific embodiments, referring to fig. 9, the cultivation floating platform may further include gathering cables 9, where the gathering cables 9 are used to draw the hanging and raising devices 3 from the photovoltaic laying area 11 to the cultivation work area 12, so as to gather the respective hanging and raising devices 3 in the cultivation work area 12; one end of the gathering cable 9 is located at one end of the movable bearing device 2 corresponding to the side of the cultivation operation area 12, and the other end of the gathering cable 9 is fixed at a connection node position of the traction cable 5 and the second end of the hoisting connecting piece 4 at the side of the photovoltaic laying area 11. Through the design extra cable 9 that gathers together to select to gather together the fixed end of cable 9 and fix the connected node position at traction cable 5 and the second end of the hoist and mount connecting piece 4 of photovoltaic district 11 place side, for example the second end and the connected node position of traction cable 5 of the hoist and mount connecting piece 4 of the hoist and mount device 3 of the one end of the corresponding photovoltaic district 11 place side of device 2 that bears the weight of in the closest movement, make hoist and mount device 3 from photovoltaic district 11 to breed operation district 12 removal operation more convenient. Specifically, the traction cable 5 has a first traction end 51 and a second traction end 52, which are respectively fixed at one end of the mobile bearing device 2 corresponding to the side of the cultivation operation area 12 and one end of the mobile bearing device corresponding to the side of the photovoltaic laying area 11, when the gathering operation of the hanging device 3 is required, only the second traction end 52 is required to be loosened, and then the gathering cable 9 is pulled; when the hanging and raising device 3 needs to be dispersed, the first traction end 51 is kept fixed, and the second traction end 52 is pulled to enable the traction cable 5 to be kept in a tensioning state.

In a further embodiment, referring to fig. 10, the traction cable 5 may specifically include a first traction end 51 and a second traction end 52, where the first traction end 51 is located at an end of the mobile carrying device 2 corresponding to the side of the cultivation operation area 12, and the end of the mobile carrying device 2 corresponding to the side of the photovoltaic laying area 11 is provided with a first rope redirecting member 7, where the first rope redirecting member 7 is used for redirecting the traction cable 5, so that the second traction end 52 is located at an end of the mobile carrying device 2 corresponding to the side of the cultivation operation area 12; the second traction end 52 is used for traction of the hanging and raising devices 3 from the raising operation area 12 to the photovoltaic laying area 11 so as to enable the hanging and raising devices 3 to be unfolded to a preset distance. Through designing into this kind of structural style, not only can satisfy and hang and support the device 3 gather together easy operation to make first traction end 51, second traction end 52 and gather together the operation end that the cable 9 all be located the one end that removes the corresponding cultivation operation district 12 of carrying device 2 place side, make the operating personnel can stand and control the reciprocating motion who hangs and support device 3 at the side of cultivation operation district 12 place, the operation is more convenient.

It should be noted that, the traction cable 5 and the gathering cable 9 are not limited to one integrally formed cable, and may be formed by connecting multiple segments of cables, for example, the preset segments of the traction cable 5 corresponding to the first traction end 51 and/or the second traction end 52 are designed as additional connected cable segments. In the practical application process, the configuration can be selected according to the practical requirement, and the configuration is not particularly limited herein.

In some specific embodiments, the cultivation floating platform may further include a driving mechanism, where the driving mechanism is used to drive the hanging and raising device 3 to make a translational motion along the first direction a relative to the moving carrying device 2, and the structural form of the cultivation floating platform may specifically be a special tool, for example, a hook is provided at the end of the long rod member, the hook is manually hooked on the corresponding hanging and raising device 3, and then the hanging and raising device 3 may be pulled to a required area by pulling the long rod member; or additionally arranging a pulling mechanism to be driven mechanically, wherein the configuration can be selected according to actual requirements in the actual application process, and the method is not limited in detail.

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 the cultivation floating platform according to any scheme. Because the above-mentioned cultivation floating platform has the above-mentioned technical effects, therefore have this cultivation floating platform's complementary system of floating fishing light, should also have corresponding technical effects, and will not be repeated here.

It should be 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 all enough to be referred to each other.

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.

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 (15)

1. A farmed floating platform, comprising:

a floating unit (1) on which a cultivation unit window (10) is arranged, wherein the window interior region of the cultivation unit window (10) comprises a photovoltaic laying region (11) and a cultivation operation region (12) which are sequentially arranged along a first direction (A);

-a mobile carrying device (2) connected to two opposite sides of said breeding unit window (10) along said first direction (a);

and the lifting device (3) is lifted below the movable bearing device (2) and can do translational motion along the first direction (A) relative to the movable bearing device (2).

2. A farmed floating platform as claimed in claim 1, characterised in that the number of mobile carriers (2) is at least one and, when the number of mobile carriers (2) is plural, are sequentially spaced apart along a second direction (B), wherein the second direction (B) is configured to be arranged at an angle to the first direction (a) in the plane of the farmed cell window (10).

3. A farmed floating platform according to claim 1, characterized in that the mobile carrier means (2) are configured as flexible members or bars connected to two opposite sides of the farmed unit window (10).

4. A farming flotation platform according to claim 1, wherein the lifting means (3) is lifted to the mobile carrying means (2) by means of a lifting connection (4), a first end of the lifting connection (4) being connected to the lifting means (3), and a second end of the lifting connection (4) being capable of translational movement along the first direction (a) with respect to the mobile carrying means (2).

5. -the farmed floating platform according to claim 4, characterized in that the second end of the hoisting connection (4) is provided with a sliding portion (41), said sliding portion (41) being in sliding engagement with the mobile carrier means (2) along the first direction (a).

6. -the farmed floating platform according to claim 5, characterized in that the sliding portion (41) is configured to be sleeved on a slip ring of the mobile carrying means (2);

or, the sliding part (41) is configured as a sliding block or a pulley which is in sliding fit with the movable carrying device (2).

7. A farmed floating platform according to any one of claims 4-6, characterized in that the second ends of the hoisting connectors (4) hoisted to the same mobile carrier (2) are fixed to one traction cable (5) in a sequential arrangement at a predetermined distance.

8. -the farming flotation platform of claim 7, wherein the traction cables (5) comprise a first traction end (51) and a second traction end (52), wherein the first traction end (51) is used to draw the lifting device (3) from the photovoltaic laying area (11) towards the farming operation area (12) to bring together the respective lifting device (3) at the farming operation area (12); the second traction end (52) is used for traction of the hanging and raising devices (3) to move from the cultivation operation area (12) to the photovoltaic laying area (11) so that the hanging and raising devices (3) can be unfolded to a preset distance.

9. -the floating platform according to claim 8, characterized in that said first traction end (51) is located at an end of said mobile carrying means (2) corresponding to the side of said cultivation work area (12) and said second traction end (52) is located at an end of said mobile carrying means (2) corresponding to the side of said photovoltaic laying area (11).

10. A farmed floating platform as claimed in claim 8, characterised in that the first traction end (51) is located at an end of the mobile load-bearing device (2) corresponding to the side of the farmed work area (12), the end of the mobile load-bearing device (2) corresponding to the side of the photovoltaic laying area (11) is provided with a first rope redirecting member (7), the first rope redirecting member (7) being used to redirect the traction cable (5) such that the second traction end (52) is located at an end of the mobile load-bearing device (2) corresponding to the side of the farmed work area (12).

11. The cultivation floating platform as claimed in claim 7, characterized in that the movable bearing device (2) is provided with a first rope diversion member (7) at one end corresponding to the side of the photovoltaic laying area (11), and the movable bearing device (2) is provided with a second rope diversion member (8) at one end corresponding to the side of the cultivation operation area (12);

the traction cable (5) comprises a first traction end (51) and a second traction end (52), and the first traction end (51) is positioned at one end of the movable bearing device (2) corresponding to the side of the cultivation operation area (12); the second traction end (52) is fixed on the fixed cable section (50) of the traction cable (5) close to one side of the first rope diversion component (7) after being diverted sequentially by the first rope diversion component (7) and the second rope diversion component (8);

the fixed cable section (50) is a cable section extending from the first traction end (51) to the first rope diversion component (7) of the traction cable (5), and the second ends of the hoisting connecting pieces (4) are fixedly arranged on the fixed cable section (50).

12. A farming flotation platform according to claim 7, further comprising a gathering cable (9), the gathering cable (9) being used to draw the lifting device (3) from the photovoltaic laying area (11) towards the farming operation area (12) to gather the respective lifting device (3) in the farming operation area (12); one end of the gathering stay rope (9) is located at one end of the movable bearing device (2) corresponding to the side where the cultivation operation area (12) is located, and the other end of the gathering stay rope (9) is fixed at a connecting node position of the second end of the hoisting connecting piece (4) at the side where the traction stay rope (5) and the photovoltaic paving area (11) are located.

13. A farming floating platform according to claim 12, wherein the traction cable (5) comprises a first traction end (51) and a second traction end (52), the first traction end (51) being located at an end of the mobile carrying device (2) corresponding to the side of the farming operation area (12), the mobile carrying device (2) being provided with a first cable diverting member (7) at an end of the mobile carrying device (2) corresponding to the side of the photovoltaic laying area (11), the first cable diverting member (7) being adapted to divert the traction cable (5) such that the second traction end (52) is located at an end of the mobile carrying device (2) corresponding to the side of the farming operation area (12);

the second traction end (52) is used for traction of the hanging and raising devices (3) to move from the cultivation operation area (12) to the photovoltaic laying area (11) so that the hanging and raising devices (3) can be unfolded to a preset distance.

14. A farming flotation platform according to claim 1, further comprising a drive mechanism for driving the lifting device (3) in a translational movement relative to the mobile carrier device (2) in the first direction (a).

15. 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 1-14.