Disclosure of Invention
The invention mainly aims to provide a charging and discharging type floating body and aims to solve the problems that a cement column supporting a photovoltaic module in the prior art has large destructiveness on a fishpond, hinders fishing operation and is not beneficial to fishery culture.
In order to achieve the above object, the present invention provides a charge-discharge type floating body applied to a fishing light complementary system, the charge-discharge type floating body comprising: the floating body is provided with a charging and discharging hole which is selectively opened and closed; the first bracket component is arranged at the top of the floating body and used for placing a photovoltaic component of the fishing light complementary system.
Further, the floating body is in a shape of a circular truncated cone.
Further, it is characterized in that the floating body is made of at least one material selected from rubber, plastic and plastic.
Further, the first bracket assembly includes: a first base disposed at a top of the floating body; the first support is arranged on the first base and used for placing the photovoltaic assembly; first through holes for the guys of the fishing light complementary system to penetrate through are formed between the first base and the first support, and the number of the first through holes corresponds to the number of the guys penetrating through the first support component.
Furthermore, a first groove corresponding to the number of the inhaul cables penetrating through the first support assembly is formed in the first base, and the first support is covered on the first groove to form a first through hole for the inhaul cables to penetrate through.
Further, the first bracket includes: the first fixing plate is covered on the first groove to form the first through hole; the first plug connector is obliquely arranged on the surface, deviating from the first base, of the first fixing plate, and a first plug connector groove for inserting the bottom of the photovoltaic module is formed in the first plug connector.
Further, the charge-discharge type floating body further comprises: a suspension member in a closed loop shape; at least one connecting piece, the suspension part is suspended on the first base through at least one connecting piece.
The invention provides a fishing light complementary system, which comprises at least one charging and discharging type floating body as above, and further comprises: the plurality of inhaul cables at least comprise a plurality of first inhaul cables arranged in parallel and a plurality of second inhaul cables arranged in parallel, the first inhaul cables and the second inhaul cables are arranged in a crossed mode, at least part of the floating main body is arranged below the crossed position of the first inhaul cables and the second inhaul cables, and the first inhaul cables and the second inhaul cables penetrate through the first support assembly to be fixed; and at least part of the photovoltaic assembly is arranged on the first bracket assembly.
Further, the crossing position of first cable with the second cable is the array and arranges, the cable still includes: a third cable connecting the plurality of intersecting positions at diagonal positions.
Furthermore, the floating main body is arranged below the intersection position of the first inhaul cable and the second inhaul cable, and the first inhaul cable, the second inhaul cable and the third inhaul cable are fixedly arranged in the first support assembly in a penetrating mode.
Further, the part below the crossing position of the first cable and the second cable is provided with the floating body, and the fishing light complementation system further comprises: the second bracket component is arranged below the first inhaul cable and the second inhaul cable, the crossing position of the floating main body is not arranged, the first inhaul cable and the second inhaul cable are arranged in the second bracket component in a penetrating mode and fixed, and the second bracket component is used for placing a photovoltaic component of the fishing light complementary system.
Further, the second bracket assembly includes: the second base is provided with a second groove; the second fixing plate is covered on the second groove to form a second through hole for the first pull cable and the second pull cable to pass through; the second plug connector is obliquely arranged on the surface, deviating from the second base, of the second fixing plate, and a second plug connector groove for inserting the bottom of the photovoltaic module is formed in the second plug connector.
Further, the fishing light complementary system further comprises: the cable buckle is arranged on the second base and used for locking the first cable and/or the second cable on the second base at the tail end of the second groove; and/or the screw thread is arranged on the second base and used for locking the first pull cable and/or the second pull cable on the second base at the tail end of the second groove.
Further, the fishing light complementary system further comprises: the supporting assembly is arranged at the intersection position of the first inhaul cable and the second inhaul cable, wherein a floating main body is not arranged below the first inhaul cable and the second inhaul cable, and the first inhaul cable and the second inhaul cable are fixedly arranged in the supporting assembly in a penetrating mode; the first bracket component is used for placing the bottom of the photovoltaic component, the supporting component is used for supporting the back and/or the top of the photovoltaic component, or the second bracket component is used for placing the bottom of the photovoltaic component, and the supporting component is used for supporting the back and/or the top of the photovoltaic component.
Further, the support assembly includes: the first inhaul cable and the second inhaul cable are fixedly arranged in the supporting base in a penetrating mode; a support disposed on the support base to support a back and/or a top of the photovoltaic assembly.
According to the technical scheme, the floating body is arranged, the charging hole is formed in the floating body, when fishing operation is not needed, liquid and/or gas is charged into the floating body, so that the floating body floats on the water surface like a tumbler, buoyancy is provided for the first support assembly and the photovoltaic assembly, the photovoltaic assembly is maintained on the water surface to perform photovoltaic power generation, and the photovoltaic assembly can be further matched with the inhaul cable, on one hand, the photovoltaic assembly is further maintained on the water surface through the tension of the inhaul cable, and on the other hand, the floating body and the photovoltaic assembly cannot change positions due to wind due to the tension of the inhaul cable; when the operation is catched to needs, the blowdown liquid and/or gas in the showy main part make showy main part become shrivelled and can not occupy the surface of water space, and the fisherman can conveniently catch the operation, consequently, for prior art, need not construct the cement column array in the pond, can not lead to the fact the destruction to the pond, and because the showy main part can fill and discharge liquid and gaseous, both can provide required buoyancy for photovoltaic module, also can become shrivelled and make things convenient for the fisherman to catch the operation, do benefit to fishery and breed.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
It should be noted that all the directional indicators (such as up, down, left, right, front, and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the movement situation, etc. in a specific posture (as shown in the drawing), and if the specific posture is changed, the directional indicator is changed accordingly.
In addition, the descriptions related to "first", "second", etc. in the present invention are 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 defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.
Referring to fig. 1 to 3, the present invention provides a charge-discharge type floating body 10 applied to a fishing light complementary system 100, wherein the charge-discharge type floating body 10 comprises: the floating body 11 is provided with a charging and discharging hole 12 which is selectively opened and closed; a first bracket assembly 13, wherein the first bracket assembly 13 is arranged on the top of the floating body 11, and the first bracket assembly 13 is used for placing the photovoltaic assembly 20 of the fishing light complementation system 100.
In this embodiment, the floating body 11 is made of at least one material selected from rubber, plastic and plastic, it is understood that the floating body 11 may be made of other materials, the floating body 11 is a hollow structure, and the liquid and/or gas can be filled into the floating body 11 through the filling holes 12, preferably, as shown in fig. 1, the floating body 11 is in a truncated cone shape, it is understood that the floating body 11 may be in other shapes such as a cube shape, a prism shape, etc., during practical application, a part of the liquid such as water can be filled into the floating body 11 according to the buoyancy required by the floating body 11, the rest of the floating body 11 is gas, the center of gravity of the whole floating body 11 is moved downward, and after the floating body 11 is placed in a fish pond, the floating body 11 is partially immersed in the water, partially exposed to the water surface, the floating body 11 floats in the fishpond in a tumbler-like principle to provide an upward buoyancy.
In this embodiment, the top of the floating body 11 is exposed from the water surface, the first bracket assembly 13 is disposed on the top of the floating body 11, the first bracket assembly 13 may be embedded in the floating body 11 for fixing, the first bracket assembly 13 may also be fixed on the top of the floating body 11 by adhering an adhesive, the first bracket assembly 13 is used for placing the photovoltaic module 20 of the fishing light complementation system 100, that is, the floating body 11 is used for providing an upward buoyancy for the first bracket assembly 13 and the photovoltaic module 20, so that at least the photovoltaic module 20 floats on the water surface for photovoltaic power generation. Specifically, the photovoltaic module 20 is generally rectangular, and two angular positions of the bottom of the photovoltaic module 20 can be fixed in two adjacent first bracket assemblies 13, respectively, so as to support the same photovoltaic module 20 through the two first bracket assemblies 13.
Further, the floating body 11 can be used in cooperation with a guy cable 30, the guy cable 30 can be a steel guy cable, the guy cable 30 can be fixed on a cement pier (see fig. 7)40 at the periphery of the fish pond, and the guy cable 30 is transversely pulled on the water surface and penetrates through the first bracket component 13, so that the photovoltaic module 20 is maintained on the water surface by the buoyancy of the floating body 11 and the pulling force of the guy cable 30.
In summary, in the embodiment, by providing the floating body 11, providing the charging hole 12 on the floating body 11, when the fishing operation is not required, filling liquid and/or gas into the floating body 11, so that the floating body 11 floats on the water surface like a tumbler, providing buoyancy to the first bracket assembly 13 and the photovoltaic module 20, so that the photovoltaic module 20 is maintained on the water surface for photovoltaic power generation, and further cooperating with the cable 30, on one hand, the photovoltaic module 20 is further maintained on the water surface by the tension of the cable 30, and on the other hand, the floating body 11 and the photovoltaic module 20 do not change positions due to wind due to the tension of the cable 30; when the operation of catching needs to be carried out, the liquid and/or gas in the floating main body 11 are emptied, so that the floating main body 11 becomes shrivelled and can not occupy the space of the water surface, and fishermen can conveniently carry out the operation of catching, therefore, compared with the prior art, the embodiment does not need to build a cement column array in a fishpond, and can not damage the fishpond, and because the floating main body 11 can be filled and emptied with liquid and gas, the required buoyancy can be provided for the photovoltaic module 20, and also can become shriveled to facilitate the operation of catching by fishermen, thereby being beneficial to fishery culture.
Referring to fig. 1-6, further, the first frame assembly 13 includes: a first base 131, the first base 131 being disposed on the top of the floating body 11; a first bracket 132, wherein the first bracket 132 is disposed on the first base 131, and the first bracket 132 is used for placing the photovoltaic module 20; first through holes (not shown) for the guy cables 30 of the fishing light complementary system 100 to pass through are formed between the first base 131 and the first bracket 132, and the number of the first through holes corresponds to the number of the guy cables 30 passing through the first bracket component 13.
In this embodiment, the first base 131 may be embedded in the floating body 11 for fixing, the first base 131 may also be fixed on the top of the floating body 11 by adhering an adhesive, the first base 131 may be in a metal plate shape, the first bracket 132 is disposed on the first base 131 for fixing the photovoltaic module 20, and the first base 131 and the first bracket 132 may be fixed by screws, wherein a first through hole is disposed between the first base 131 and the first bracket 132, the first through hole penetrates through the first base 131 in a penetrating direction of the cable 30, the number of the first through hole corresponds to the number of the cables 30 penetrating through the first base 131, for example, when the number of the cables 30 penetrating through the first base 131 is two, the number of the first through hole is also two, two of the first through holes are intersected to form a cross-shaped through hole in the first base 131, and for example, when the number of the pulling cables 30 passing through the first base 131 is three, the number of the first through holes is also three, and the three first through holes are intersected to form a cross-shaped through hole in the first base 131.
Referring to fig. 2, further, the first base 131 is provided with first grooves 1311 corresponding to the number of the cables 30 passing through the first bracket assembly 13, and the first bracket 132 is covered on the first grooves 1311 to form first through holes for the cables 30 to pass through.
In this embodiment, first grooves 1311 corresponding to the number of the cables 30 are pre-formed in the first base 131, for example, when the number of the cables 30 passing through the first base 131 is two, the number of the first grooves 1311 is also two, the two first grooves 1311 are arranged in an intersecting manner, a cross-shaped groove is formed in the first base 131, and the first bracket 132 is fixed to the first base 131 to form the cross-shaped through hole; for another example, when the number of the pulling cables 30 passing through the first base 131 is three, the number of the first grooves 1311 is also three, the three first grooves 1311 are arranged to intersect each other, a through hole shaped like a Chinese character 'mi' is formed in the first base 131, and the through hole shaped like a Chinese character 'mi' is formed by fixing the first bracket 132 to the first base 131.
Further, in order to increase the friction force between the cable 30 and the groove wall of the first groove 1311 and increase the combining stability between the cable 30 and the first base 131, the inner wall of the first groove 1311 is processed to prevent slipping, for example, threads, concave points and/or convex points are disposed on the groove wall of the first groove 1311, and it can be understood that the width and depth of the first groove 1311 can be adjusted according to the actual requirement according to the width and number of the cable 30.
Referring to fig. 3-5, further, the first bracket 132 includes: a first fixing plate 1311, the first fixing plate 1311 being disposed on the first groove 1311 to form the first through hole; the first plug piece 1322 is obliquely arranged on a surface of the first fixing plate 1311, which faces away from the first base 131, and the first plug piece 1322 is formed with a first plug groove into which the bottom of the photovoltaic module 20 is inserted.
In this embodiment, the first fixing plate 1311 may be a metal plate, the first fixing plate 1311 may be fixedly connected to the first base 131 by screws, the first fixing plate 1311 covers the first groove 1311 to form the first through hole, the first fixing plate 1311 may include a corresponding number of metal plates according to the number of the first grooves 1311 on the first base 131, each metal plate covers the corresponding first groove 1311, and a plurality of metal plates may rotate relatively through a rotating shaft; meanwhile, the first plug-in connector 1322 and the first fixing plate 1311 may also be fixedly connected by a screw, and the first plug-in connector 1322 is obliquely disposed on the first fixing plate 1311 according to an inclination angle required by the photovoltaic module 20, so that after the two angular positions of the bottom of the photovoltaic module 20 are inserted into the first insertion groove, a better inclination angle is provided for photovoltaic power generation.
Referring to fig. 1-2, further, the charge-discharge type floating body 10 further includes: a suspension 14, the suspension 14 being in a closed loop shape; at least one connecting member 15, wherein the hanging member 14 is hung on the first base 131 through the at least one connecting member 15.
In this embodiment, the suspension member 14 is in a closed loop shape, for example, the suspension member 14 may be in a circular ring shape, a square frame, etc., the connecting member 15 may be a lifting rope, preferably, the number of the connecting members 15 may be multiple, the suspension member 14 is suspended on the first base 131 through multiple connecting members 15, so that the suspension member 14 is uniformly suspended by the suspension force of the first base 131 and is kept on the water surface without being inclined, when fishing operation is required, a fisherman can discharge the liquid and gas in the floating body 11, so that the floating body 11 is in a dry-shriveled state, and hang the floating body 11 on the suspension member 14 in the dry-shriveled state, thereby yielding the water surface occupied by the floating body 11 before, facilitating fishing operation by the fisherman, and recycling the water surface in real time. Specifically, the first base 131 is further provided with a plurality of fixing portions 1312 for fixing the connection member 15.
Referring to fig. 3 and 7, in the fishing light complementary system 100 according to the present invention, the fishing light complementary system 100 includes at least one above-mentioned charge-discharge type floating body 10, and the fishing light complementary system 100 further includes: the suspension device comprises a plurality of cables 30, wherein the cables 30 at least comprise a plurality of first cables 31 arranged in parallel and a plurality of second cables 32 arranged in parallel, the first cables 31 and the second cables 32 are arranged in a crossed manner, at least part of the floating main body 11 is arranged below the crossed position of the first cables 31 and the second cables 32, and the first cables 31 and the second cables 32 are fixedly arranged in the first bracket component 13 in a penetrating manner; and the photovoltaic module 20, at least part of the photovoltaic module 20 is arranged on the first bracket component 13.
In this embodiment, the cable 30 may be a steel cable, or may be another type of cable 30, the cable 30 is tensioned by a cement pier 40 (see fig. 7) around the fish pond and spans over the water surface of the fish pond, the cable 30 includes a plurality of first cables 31 extending in a first direction and a plurality of second cables 32 extending in a second direction, the plurality of first cables 31 and the plurality of second cables 32 are arranged in an intersecting manner, so that a plurality of intersecting positions are formed between the first cables 31 and the second cables 32, the floating body 11 is arranged below at least a part of the intersecting positions, the first cables 31 and the second cables 32 are inserted into first through holes of the first base 131 of the first bracket assembly 13, and then the first fixing plate 1311 is pressed on the first groove 1311, so that the first pulling rope 31 and the second pulling rope 32 are fixed in the first through hole, and the bottom of the photovoltaic module 20 is placed in the first inserting groove of the first inserting piece 1322, so that the photovoltaic module 20 is maintained on the water surface of the fish pond by the buoyancy of the floating body 11 and the pulling force of the first pulling rope 31 and the second pulling rope 32 to perform photovoltaic power generation.
When fishing operation is needed, a fisherman can discharge liquid and gas in the floating body 11, so that the floating body 11 is in a shriveled state, and the floating body 11 in the shriveled state is hung on the hanging piece 14, and at this time, because the first guy cable 31 and the second guy cable 32 are fixed with the first base 131, the first base 131 is maintained on the water surface of the fish pond, the hanging piece 14 hung on the first base 131 is also maintained on the water surface of the fish pond, and the shriveled floating body 11 hung on the hanging piece 14 is also maintained on the water surface of the fish pond, so that the water surface occupied by the floating body 11 before yielding is released, the fishing operation is convenient for the fisherman, and the water surface is recycled in real time. It can be understood that, in order to avoid that too much liquid and gas in the floating body 11 are discharged at one time to reduce the overall buoyancy of the whole floating body, when the fishing operation is performed, the floating body 11 in the fishing operation area is emptied, after the fishing operation is completed, the floating body 11 in the fishing operation area is refilled with liquid and gas, and then the floating bodies 11 in other fishing operation areas are emptied to perform the fishing operation, so that the stability of the whole fishing light complementation system 100 is improved.
Referring to fig. 7, further, the intersecting positions of the first cable 31 and the second cable 32 are arranged in an array, and the cable 30 further includes: a third cable 33, the third cable 33 connecting a plurality of the crossing positions at diagonal positions.
In this embodiment, the first cables 31 may be arranged in parallel at intervals in a row direction (i.e., a first direction), the second cables 32 may be arranged in parallel at intervals in a column direction (i.e., a second direction), so that intersecting positions of the first cables 31 and the second cables 32 are arranged in an array, the intersecting positions in the array have two diagonal lines, and the two third cables 33 connect the intersecting positions in the diagonal positions, so that the tension of the cables 30 on the photovoltaic module 20 and the first bracket assembly 13 is further increased by the third cables 33, and the photovoltaic module 20 is more stable on the water surface of the fish pond.
It can be understood that cement piers 40 may be respectively disposed at four corners of the fish pond to fix the first cable 31, the second cable 32, and the third cable 33, the cement piers 40 may be additionally disposed at the side of the fish pond to fix the first cable 31 and the second cable 32, or cement columns may be appropriately added in the fish pond to fix the first cable 31, the second cable 32, and the third cable 33, so as to enhance the stability of the overall structure of the cable 30.
Further, the floating body 11 is disposed below the intersection position of the first cable 31 and the second cable 32, and the first cable 31, the second cable 32 and the third cable 33 are all fixed in the first bracket assembly 13.
In this embodiment, by providing the floating bodies 11 below the intersecting positions of the first cables 31 and the second cables 32, more floating bodies 11 can be used to provide larger buoyancy for the photovoltaic module 20, and the first cables 31, the second cables 32, and the third cables 33 are all fixed in the first bracket assembly 13, so that the connection stability between the cables 30 and the first bracket assembly 13 can be further enhanced.
Referring to fig. 7-8, further, the floating body 11 is disposed below the intersection position of the first cable 31 and the second cable 32, and the fishing light complementation system 100 further includes: the second bracket assembly 50 is disposed at an intersection position where the floating body 11 is not disposed below the first cable 31 and the second cable 32, the first cable 31 and the second cable 32 are fixedly inserted into the second bracket assembly 50, and the second bracket assembly 50 is used for placing the photovoltaic module 20 of the fishing light complementation system 100.
In this embodiment, the floating body 11 is disposed only below the intersection position of a portion of the first cable 31 and the second cable 32, so as to reduce the usage of the floating body 11, further expand the space for fishing, and support the photovoltaic module 20 by adding a second bracket assembly 50 at the intersection position, that is, the second bracket assembly 50 is disposed below the first cable 31 and the second cable 32 at the intersection position where the floating body 11 is not disposed, the first cable 31 and the second cable 32 are fixed in the second bracket assembly 50 in a penetrating manner, so as to achieve the mutual fixation of the second bracket assembly 50 and the cable 30, and the second bracket assembly 50 is used for placing the photovoltaic module 20 of the fishing light complementation system 100.
Referring to fig. 8-11, further, the second bracket assembly 50 includes: the second base 51, the second base 51 is provided with a second groove 511; the second fixing plate 52 is covered on the second groove 511 to form a second through hole for the first cable 31 and the second cable 32 to pass through; the second plug connector 53 is obliquely arranged on the surface, deviating from the second base 51, of the second fixing plate 52, and a second plug connector 53 is formed with a second plug-in groove for inserting the bottom of the photovoltaic module 20.
In this embodiment, the second bracket assembly 50 has substantially the same structure as the first bracket assembly 13, except that: the second bracket assembly 50 is not disposed on the top of the floating body 11, and the first bracket assembly 13 is disposed on the top of the floating body 11.
Specifically, the second base 51 is provided with the second grooves 511 corresponding to the number of the cables 30 in advance, for example, when the number of the cables 30 passing through the second base 51 is two (i.e., the first cable 31 and the second cable 32), the number of the second grooves 511 is also two, the two second grooves 511 are arranged in an intersecting manner, a cross-shaped groove is formed in the second base 51, and the second fixing plate 52 is fixed on the second base 51 to form the cross-shaped through hole; for another example, when the number of the cables 30 passing through the second base 51 is three (i.e., the first cable 31, the second cable 32, and the third cable 33), the number of the second grooves 511 is also three, the three second grooves 511 are intersected, a "m" shaped groove is formed in the second base 51, and the second fixing plate 52 is fixed to the second base 51 to form the "m" shaped through hole. Further, in order to increase the friction force between the cable 30 and the groove wall of the second groove 511 and increase the combining stability between the cable 30 and the second base 51, the inner wall of the second groove 511 is processed with anti-slip treatment, for example, a thread, a concave point and/or a convex point are provided on the groove wall of the second groove 511, and it can be understood that the width and the depth of the second groove 511 can be adjusted according to the actual requirement according to the width and the number of the cable 30.
In this embodiment, the second fixing plate 52 may be a metal plate, the second fixing plate 52 may be fixedly connected to the second base 51 by screws, the second fixing plate 52 is covered on the second groove 511 to form the second through hole, meanwhile, the second plug connector 53 may also be fixedly connected to the second fixing plate 52 by screws, and the second plug connector 53 is obliquely disposed on the second fixing plate 52 according to an inclination angle required by the photovoltaic module 20, so that after the two angular positions of the bottom of the photovoltaic module 20 are inserted into the second insertion groove, the second fixing plate 52 has a better inclination angle for photovoltaic power generation.
Referring to fig. 11, further, the fishing light complementation system 100 further includes: a cable buckle (not shown) disposed on the second base 51, the cable buckle being used for locking the first cable 31 and/or the second cable 32 to the second base 51 at the end of the second groove 511; and/or a screw thread 60, wherein the screw thread 60 is arranged on the second base 51, and the screw thread 60 is used for locking the first cable 31 and/or the second cable 32 on the second base 51 at the tail end of the second groove 511.
In this embodiment, in order to enhance the connection stability between the cable 30 and the second base 51, at the end of the second groove 511, the first cable 31 and/or the second cable 32 are further locked on the second base 51 by the buckle, a screw hole matched with the buckle is provided on the second base 51, the buckle is inserted through the screw hole, and at the same time, the cable 30 is pressed into the second groove 511 and locked by the buckle; or, at the end of the second groove 511, the cable 330 is further locked on the second base 51 by the screw thread 60, the screw thread 60 is disposed on the end surface of the second groove 511 penetrating the second base 51, the screw thread 60 is partially fixed on the second base 51, the cable 30 is pressed into the second groove 511, and passes through the screw thread 60, and when the screw on the screw thread 60 is tightened, the cable 30 is locked on the second base 51.
Referring to fig. 3, 7 and 8, further, the fishing light complementation system 100 further includes: the supporting component 70 is arranged at the intersecting position of the first pulling rope 31 and the second pulling rope 32 without the floating body 11, and the first pulling rope 31 and the second pulling rope 32 are fixedly arranged in the supporting component 70 in a penetrating way; wherein, the first rack assembly 13 is used for placing the bottom of the photovoltaic module 20, and the support assembly 70 is used for supporting the back and/or the top of the photovoltaic module 20, or the second rack assembly 50 is used for placing the bottom of the photovoltaic module 20, and the support assembly 70 is used for supporting the back and/or the top of the photovoltaic module 20.
In the present embodiment, the support assembly 70 is disposed at the intersecting position where the floating body 11 is not disposed below the first cable 31 and the second cable 32, and the first cable 31 and the second cable 32 are inserted into the support assembly 70, so that the cables 30 and the support assembly 70 are fixed to each other. In this embodiment, there are two support ways for the photovoltaic module 20, the first: the first bracket component 13 is used for placing the bottom of the photovoltaic module 20, and the support component 70 is used for supporting the back and/or the top of the photovoltaic module 20, so as to realize the fixation of the photovoltaic module 20 which is obliquely arranged; secondly, the second support assembly 50 is used for placing the bottom of the photovoltaic module 20, and the support assembly 70 is used for supporting the back and/or the top of the photovoltaic module 20, so as to fix the photovoltaic module 20 which is arranged obliquely; in this embodiment, the support assembly 70 further supports the back and/or the top of the photovoltaic module 20, so as to ensure the structural stability of the photovoltaic module 20 on the cable 30.
Referring to fig. 12-13, further, the support assembly 70 includes: the first cable 31 and the second cable 32 are fixedly arranged in the supporting base 71 in a penetrating way; a support 72, wherein the support 72 is disposed on the support base 71 to support the back and/or the top of the photovoltaic module 20.
In this embodiment, the first cable 31 and the second cable 32 are inserted into the support base 71 and fixed, specifically, a through hole may be formed in the support base 71, the first cable 31 and the second cable 32 are pressed into the through hole, and the first cable 31 and the second cable 32 are fixed on the support base 71 through a cable fastener and/or a screw fastener 60; the supporting pieces 72 specifically include supporting bars 721 extending from the supporting base 71 and supporting pieces 722 located at ends of the supporting bars 721, the supporting pieces 722 are bent relative to the supporting bars 721 to be attached to the frames of the photovoltaic modules 20, and the supporting pieces 722 and the frames of the photovoltaic modules 20 are fixed through holes formed in the supporting pieces 722 and the frames of the photovoltaic modules 20 and screws passing through the holes.
The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention, and all modifications and equivalents of the present invention, which are made by the contents of the present specification and the accompanying drawings, or directly/indirectly applied to other related technical fields, are included in the scope of the present invention.