CN219304735U - Photovoltaic flexible support and photovoltaic power generation system - Google Patents
Photovoltaic flexible support and photovoltaic power generation system Download PDFInfo
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- CN219304735U CN219304735U CN202320279060.6U CN202320279060U CN219304735U CN 219304735 U CN219304735 U CN 219304735U CN 202320279060 U CN202320279060 U CN 202320279060U CN 219304735 U CN219304735 U CN 219304735U
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- 238000010248 power generation Methods 0.000 title claims abstract description 11
- 230000000087 stabilizing effect Effects 0.000 claims description 43
- 238000000034 method Methods 0.000 claims description 3
- 230000009286 beneficial effect Effects 0.000 description 2
- 230000006978 adaptation Effects 0.000 description 1
- 238000010276 construction Methods 0.000 description 1
- 230000008094 contradictory effect Effects 0.000 description 1
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/50—Photovoltaic [PV] energy
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Abstract
The utility model discloses a photovoltaic flexible support and a photovoltaic power generation system, wherein the photovoltaic flexible support comprises a vertical frame and a bearing assembly cable, two ends of the bearing assembly cable in the length direction are connected with the vertical frame, the bearing assembly cable is used for bearing a photovoltaic assembly, the length direction of the bearing assembly cable is a first direction, and an included angle is formed between the photovoltaic assembly and the first direction. According to the technical scheme, the photovoltaic module and the length direction of the bearing module cable form an included angle, so that the photovoltaic flexible support can be suitable for special scenes needing to arrange the photovoltaic flexible support in the north-south direction, such as the upper part of a factory building running in the north-south direction, the two sides of a highway running in the south-north direction, the two sides of a river running in the north-south direction and the like, and can be arranged into multiple spans or multiple rows according to the requirements; in addition, the photovoltaic module installed on the photovoltaic flexible support is enabled to bear smaller wind and snow load, stability of the support is improved, the integral structure of the support is simplified, and the support is convenient to install.
Description
Technical Field
The utility model relates to the technical field of photovoltaic power generation systems, in particular to a photovoltaic flexible support and a photovoltaic power generation system.
Background
The current photovoltaic industry generally refers to photovoltaic brackets with rigging mechanisms as the primary load-bearing structures as flexible brackets; the flexible support has the advantages of large span and flexible and adjustable span range, so that the application range of the flexible support is wider.
The prestressing force cable in the prior art photovoltaic flexible support is divided into according to the function difference: the bearing ropes, the stabilizing ropes, the cable ropes and the like are vertically arranged along the east-west direction, then an installation surface with an angle is formed by adjusting the height drop of the bearing ropes, and after the assembly is installed, the assembly faces south (north). The mounting surface of the flexible support faces the extending direction of the rigging, when the mounting surface faces the south (north), the rigging can only be distributed in the east-west direction, and the flexible support is not applicable to special scenes which only allow the arrangement in the north-south direction, such as the upper part of a factory building in the north-south direction, the two sides of a highway in the north-south direction, the two sides of a river in the north-south direction and the like; in addition, because the wind load direction that the subassembly received is perpendicular to the axial of prestressing force cable for prestressing force cable's load is great, consequently the tie rod quantity between arranging is many, and is loaded down with trivial details in the work progress, still adds the side cable in support both sides or bottom simultaneously, has reduced the land utilization below the support.
The foregoing is merely provided to facilitate an understanding of the principles of the utility model and is not admitted to be prior art.
Disclosure of Invention
The utility model mainly aims to provide a photovoltaic flexible support, which aims to solve at least one of the technical problems.
In order to achieve the above object, the photovoltaic flexible support provided by the present utility model includes:
a vertical frame;
the two ends of the length direction of the bearing assembly rope are connected with the vertical frame, the bearing assembly rope is used for bearing a photovoltaic assembly, the length direction of the bearing assembly rope is in a first direction, and an included angle is formed between the photovoltaic assembly and the first direction.
In an embodiment, the load bearing assembly cable includes a plurality of first load bearing cables and a plurality of second load bearing cables, the second load bearing cables are disposed below the first load bearing cables, and the plurality of first load bearing cables and the plurality of second load bearing cables extend along the first direction and are used together to bear the photovoltaic assembly.
In an embodiment, the light Fu Rouxing support further comprises a component mounting member mounted on the first load-bearing cable and the second load-bearing cable, the component mounting member comprises a plurality of mounting plates, the plurality of mounting plates are sequentially arranged along a second direction and assembled together through connecting members, the second direction is perpendicular to the first direction, the mounting plates and the first direction have an included angle, and the mounting plates are used for mounting the photovoltaic component.
In an embodiment, the connecting piece includes upper connecting portion and lower connecting portion, upper connecting portion is with two that the adjacent setting is in the same place the mounting panel, the bottom of upper connecting portion is equipped with and is used for holding first bearing cable and/or the draw-in groove of second bearing cable, lower connecting portion with upper connecting portion looks adaptation is used for with first bearing cable and/or second bearing cable is fixed in the draw-in groove.
In an embodiment, the light Fu Rouxing support further includes a plurality of first connecting rods, and the first connecting rods connect the first load-bearing cable and the second load-bearing cable disposed corresponding thereto together, so as to maintain a height difference between the first load-bearing cable and the second load-bearing cable disposed corresponding thereto within a preset range.
In an embodiment, the light Fu Rouxing bracket further includes a plurality of second connecting rods connecting the plurality of first connecting rods arranged along a second direction, the second direction being perpendicular to the first direction, to form a stable structure comprising a triangular structure.
In an embodiment, the light Fu Rouxing support further comprises a first stabilizing rope extending along the first direction, the first stabilizing rope is arranged below the second bearing rope, two ends of the first stabilizing rope are connected with the vertical frame, the first stabilizing rope arches towards the vertical direction, and the arch point of the first stabilizing rope is connected with the first bearing rope and the second bearing rope which are correspondingly arranged through connecting rods.
In an embodiment, the light Fu Rouxing bracket further comprises a second stabilizing cable extending along the first direction, the second stabilizing cable is arranged below the second bearing cable, two ends of the second stabilizing cable are connected with the vertical frame, the arch direction of the second stabilizing cable is opposite to the arch direction of the first stabilizing cable, and the arch point of the second stabilizing cable is connected with the first stabilizing cable correspondingly arranged by the connecting rod.
In an embodiment, the load bearing assembly cable includes a first load bearing cable extending in the first direction and a support structure mounted on the first load bearing cable, the support structure including a first stay, a lower end of the first stay being connected to the first load bearing cable, the first stay being used with a plurality of the first load bearing cables to support the photovoltaic assembly; or alternatively, the process may be performed,
the supporting structure comprises a first supporting rod and a second supporting rod, the first supporting rod and the second supporting rod are arranged along the first direction at intervals, the lower ends of the first supporting rod and the second supporting rod are connected with the first bearing rope, the first supporting rod is higher than the second supporting rod, and the first supporting rod and the second supporting rod are used for supporting the photovoltaic module together.
The utility model also provides a photovoltaic power generation system which is characterized by comprising the photovoltaic flexible support and a plurality of rows of photovoltaic modules, wherein the photovoltaic modules are sequentially arranged on the photovoltaic flexible support along the first direction, and an included angle is formed between each photovoltaic module and the first direction.
According to the technical scheme, the photovoltaic module and the length direction of the bearing module cable form an included angle, so that the photovoltaic flexible support can be suitable for special scenes in which the photovoltaic flexible support needs to be arranged in the north-south direction. When the rigging of the bearing assembly cable is arranged in a extending manner along the north-south direction, the transverse direction of the panel surface of the photovoltaic assembly arranged on the bearing assembly cable points to the south-north direction, and the photovoltaic flexible support can be suitable for special scenes arranged in the north-south direction, such as the upper part of a factory building in the north-south direction, the two sides of a highway in the north-south direction, the two sides of a river in the north-south direction and the like, and can be arranged into multiple spans or multiple rows according to the requirements; in addition, because the wind load direction of the photovoltaic module installed on the photovoltaic flexible support is mainly along the vertical direction and the axial direction of the bearing module cable and other prestressed rigging, and the horizontal force perpendicular to the axial direction of the bearing module cable and other prestressed rigging is small, a cable wind rope and other stabilizing systems are not required to be additionally applied in the east-west direction, the whole structure is simple, the occupied area of the photovoltaic flexible support can be saved, the related support components are not required to be additionally arranged below and on the two sides of the photovoltaic flexible support, and the land utilization rate below the photovoltaic flexible support can be improved.
Drawings
In order to more clearly illustrate the embodiments of the present 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, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and other drawings may be obtained according to the structures shown in these drawings without inventive effort for a person skilled in the art.
FIG. 1 is a schematic view of the structure of a photovoltaic flexible support of this utility model in one embodiment;
fig. 2 is an enlarged view of a portion a of fig. 1;
FIG. 3 is a front view of FIG. 1;
fig. 4 is an enlarged view of a portion B of fig. 3;
FIG. 5 is a bottom view of a partial schematic of the component mount of FIG. 4;
fig. 6 is an enlarged view of a portion C of fig. 5;
FIG. 7 is a schematic view of the structure of the photovoltaic flexible support of this utility model in another embodiment;
fig. 8 is an enlarged view of a portion D of fig. 7;
FIG. 9 is a schematic view of the structure of the photovoltaic flexible support of this utility model in yet another embodiment;
fig. 10 is an enlarged view of the portion E in fig. 9;
FIG. 11 is a schematic view of the structure of the photovoltaic flexible support of this utility model in yet another embodiment;
fig. 12 is a front view of fig. 11;
fig. 13 is an enlarged view of the portion F of fig. 12.
Reference numerals illustrate:
| reference numerals | Name of the name | Reference numerals | Name of the |
| 100 | Photovoltaic |
10 | |
| 11 | Upright post | 12 | |
| 13 | Side pull rod/ |
14 | Midspan |
| 20 | |
20a | Support |
| 211 | First load-bearing |
213 | |
| 231 | |
233 | |
| 31 | First connecting |
33 | Second connecting |
| 40 | |
41 | |
| 43 | Connecting |
43a | Clamping |
| 431 | Upper connecting |
433 | Lower connecting |
| 51 | First stabilizing |
53 | Second stabilizing rope |
The achievement of the objects, functional features and advantages of the present utility model will be further described with reference to the accompanying drawings, in conjunction with the embodiments.
Detailed Description
The following description of the embodiments of the present utility model will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the utility model. 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.
It should be noted that, if directional indications (such as up, down, left, right, front, and rear … …) are included in the embodiments of the present utility model, the directional indications are merely used to explain the relative positional relationship, movement conditions, etc. between the components in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indications are correspondingly changed.
In addition, if there is a description of "first", "second", etc. in the embodiments of the present utility model, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying a 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 at least one such feature. In addition, if the meaning of "and/or" is presented throughout this document, it is intended to include three schemes in parallel, taking "a and/or B" as an example, including a scheme, or B scheme, or a scheme where a and B meet simultaneously. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not within the scope of protection claimed in the present utility model.
If the existing light Fu Rouxing bracket is arranged in the north-south direction, the components mounted on the bracket face east or west, the light is not well received, and the generated energy is low. If the photovoltaic flexible support is forcedly arranged in the east-west direction, the photovoltaic flexible support is shorter due to the insufficient width in the east-west direction, and the cost is high. For example, the available width of two sides of a highway running in the north-south direction is only tens of meters to tens of meters, and the photovoltaic flexible support can only be used for one span, so that the cost is not reduced; or, the factory buildings of some companies are arranged in a long and narrow way from north to south, and the land of other enterprises can not be arranged on the two sides of the factory buildings.
The present utility model proposes a photovoltaic flexible support 100, which solves the above-mentioned technical problems.
Referring to fig. 1, 9 and 11, in an embodiment of the present utility model, the photovoltaic flexible support 100 includes a vertical frame 10 and a load-bearing assembly cable 20, two ends of the load-bearing assembly cable 20 in a length direction are connected to the vertical frame 10, the load-bearing assembly cable 20 is used for carrying a photovoltaic assembly, the length direction of the load-bearing assembly cable 20 is a first direction, and an included angle is formed between the photovoltaic assembly and the first direction.
Referring to fig. 1, in an embodiment, the first direction is a north-south direction. The photovoltaic flexible support 100 is integrally arranged in the north-south direction (i.e., the length direction of the photovoltaic flexible support 100 is the north-south direction), and the panel of the photovoltaic module mounted on the photovoltaic flexible support 100 faces south or north. Specifically, the stand 10 includes a plurality of columns 11, two side cross beams 12, a middle cross beam 14 and two side pull rods/side pull cables 13, two side cross beams 12 are sequentially and horizontally arranged along the north-south direction, the middle cross beam 14 is arranged between the two side cross beams 12, the columns 11 are arranged below the side cross beams 12 and the middle cross beam 14 to support, and each side cross beam 12 is connected with one side pull rod/side pull cable 13. The two ends of the length of the load-bearing cable assembly cable 20 are respectively fixed on one side span beam 12, and the middle part is fixed on the middle span beam 14.
It should be noted that, the photovoltaic flexible support 100 in fig. 1 is configured in 2 spans 8 rows, which is only illustrative, and the number of spans and rows thereof can be adjusted by those skilled in the art as required, and correspondingly, the number of the middle spans and the number of the columns can be increased or decreased as required. In an exemplary embodiment, the light Fu Rouxing rack is arranged to be 2-10 spans, and each span length can be adjusted according to practical situations.
According to the technical scheme, the photovoltaic module and the length direction of the bearing module cable 20 form an included angle, so that the photovoltaic flexible support 100 can be suitable for special scenes in which the photovoltaic flexible support 100 needs to be arranged in the north-south direction. The photovoltaic flexible support 100 of the utility model can be suitable for special scenes arranged in the north-south direction, such as the upper part of a factory building running in the north-south direction, the two sides of a highway running in the south direction, the two sides of a river running in the north-south direction and the like, and can be arranged into multiple spans or multiple rows according to the needs; in addition, because the wind load direction of the photovoltaic module installed on the photovoltaic flexible support 100 is mainly along the vertical direction and the axial direction of the prestressed rigging such as the bearing module cable 20, and the horizontal force perpendicular to the axial direction of the prestressed rigging such as the bearing module cable 20 is smaller, a cable wind rope stabilizing system and the like are not required to be additionally applied in the east-west direction, the whole structure is simple, the occupied area of the photovoltaic flexible support 100 can be saved, the related support components are not required to be additionally arranged below and on two sides of the photovoltaic flexible support 100, and the land utilization rate below the photovoltaic flexible support 100 can be improved.
In an embodiment of the present utility model, the photovoltaic flexible support 100 further includes a component mounting member 40, where the component mounting member 40 is mounted on the load-bearing component cable 20, the component mounting member 40 includes a plurality of mounting plates 41, and the plurality of mounting plates 41 located in the same row are sequentially arranged along a second direction and assembled together by connecting members 43, the second direction is perpendicular to the first direction, the mounting plates 41 form an included angle with the first direction, and the mounting plates 41 are used for mounting the photovoltaic component. By adopting the connecting pieces 43 to connect the mounting plates 41 of each row/each line together, the rigidity of the whole photovoltaic flexible support 100 system is improved, hidden danger of hidden cracking of the photovoltaic module is reduced, the integral rigidity of the light Fu Rouxing support 200 is improved, and the structure of the photovoltaic flexible support 100 is simplified so as to facilitate construction.
Referring to fig. 3 and 4, in an embodiment, the load-bearing assembly cable 20 includes a plurality of first load-bearing cables 211 and a plurality of second load-bearing cables 213, wherein the first load-bearing cables 211 and the second load-bearing cables 213 extend along a first direction and are connected to the side cross beam 12 at two ends, and the second load-bearing cables 213 are disposed below the first load-bearing cables 211, and the plurality of first load-bearing cables 211 and the plurality of second load-bearing cables 213 extend along the first direction and are used together to carry the photovoltaic assembly.
In this embodiment, the connecting piece 43 is disposed below the mounting plate 41 and is connected to the first load-bearing cable 211 or the second load-bearing cable 213, and at least two adjacent first load-bearing cables 211, two second load-bearing cables 213 correspondingly disposed below the two load-bearing cables, and at least 4 connecting pieces 43 connected to the first load-bearing cable 211 and the second load-bearing cables 213 cooperate together to achieve the purpose of supporting the photovoltaic module.
Referring to fig. 5 and 6, in the present embodiment, the connecting member 43 includes an upper connecting portion 431 and a lower connecting portion 433, the upper connecting portion 431 connects two adjacent mounting plates 41 together, a clamping groove 43a for accommodating the first load-bearing cable 211 and/or the second load-bearing cable 213 is provided at the bottom of the upper connecting portion 431, and the lower connecting portion 433 is adapted to the upper connecting portion 431, so as to fix the first load-bearing cable 211 and/or the second load-bearing cable 213 in the clamping groove 43 a. The plurality of mounting plates 41 of each row/each line are connected together through the connecting pieces 43, so that the rigidity of the whole photovoltaic flexible support 100 system is improved, a plurality of first bearing ropes 211 and/or a plurality of second bearing ropes 213 are not required to be connected into a whole by a large number of inter-row tie bars, the rigidity is improved, and the structure of the photovoltaic flexible support 100 is simplified.
Referring to fig. 7 and 8, further, the photovoltaic flexible support 100 further includes a plurality of first connecting rods 31, the first connecting rods 31 are disposed corresponding to the first load-bearing cables 211 and the second load-bearing cables 213, the first connecting rods 31 connect the first load-bearing cables 211 and the second load-bearing cables 213 disposed corresponding to the first connecting rods together, so that a height difference between the first load-bearing cables 211 and the second load-bearing cables 213 disposed corresponding to the first load-bearing cables is maintained within a preset range, and a distance between the first load-bearing cables 211 and the second load-bearing cables 213 disposed corresponding to the lower side of the first load-bearing cables 211 in different groups is kept consistent all the time, which is beneficial for assembling the component mounting member 40 and the first load-bearing cables 211 and the second load-bearing cables 213.
Referring to fig. 2, the photovoltaic flexible support 100 further includes a plurality of second connecting rods 33, and the second connecting rods 33 connect the plurality of first connecting rods 31 arranged along the second direction together to form a stable structure with a triangle structure, so as to enhance the system rigidity of the photovoltaic flexible support 100.
Referring to fig. 11, 12 and 13, in one embodiment, the load bearing assembly cable 20 includes a first load bearing cable 211 and a support structure mounted on the first load bearing cable 211, the support structure includes a first support rod 231, a lower end of the first support rod 231 is connected to a plurality of the first load bearing cables 211, and the first support rod 231 is used to support the photovoltaic assembly together with a plurality of the first load bearing cables 211. In this embodiment, the lower end of the first supporting rod 231 is fixedly connected with the first load-bearing cable 211 through a connecting buckle, the component mounting member 40 is erected on the first supporting rod 231 and the first load-bearing cable 211, and the inclination angle of the mounting surface of the component mounting member 40 can be adjusted by adjusting the height of the first supporting rod 231, so as to adjust the mounting inclination angle of the photovoltaic module.
Referring to fig. 9 and 10, in another embodiment, the supporting structure includes a first supporting rod 231 and a second supporting rod 233, the first supporting rod 231 and the second supporting rod 233 are arranged at intervals along the first direction, the lower ends of the first supporting rod 231 and the second supporting rod 233 are connected with the first load-bearing cable 211, the first supporting rod 231 is higher than the second supporting rod 233, and the first supporting rod 231 and the second supporting rod 233 are together used for supporting the photovoltaic module. In this embodiment, the lower ends of the first supporting rod 231 and the second supporting rod 233 are fixedly connected with the first load-bearing cable 211 at corresponding positions through connection buckles, the component mounting member 40 is fixedly mounted on the first supporting rod 231 and the second supporting rod 233, and the inclination angle of the mounting surface of the component mounting member 40 can be adjusted by adjusting the height difference between the first supporting rod 231 and the second supporting rod 233, so as to adjust the mounting inclination angle of the photovoltaic component thereon.
Referring to fig. 9 and 11, the component mounting members 40 may be disposed along the first direction or along the second direction, that is, the length direction or the width direction of the component mounting members 40 is the second direction, and the proper arrangement manner may be specifically selected according to the actual situation, which is not particularly limited herein.
Referring to fig. 2 and 3, in an embodiment, the photovoltaic flexible support 100 further includes a first stabilizing cable 51 extending along the first direction, the first stabilizing cable 51 is disposed below the second load-bearing cable 213 and both ends thereof are connected to the stand 10, the first stabilizing cable 51 arches in a vertical direction, and the arch point thereof is connected to the first load-bearing cable 211 and the second load-bearing cable 213 disposed correspondingly thereto through connecting rods. The photovoltaic flexible support 100 further comprises a second stabilizing cable 53 extending along the first direction, the second stabilizing cable 53 is disposed below the second bearing cable 213, two ends of the second stabilizing cable are connected with the vertical frame 10, the direction in which the second stabilizing cable 53 arches is opposite to the direction in which the first stabilizing cable 51 arches, and the arch point of the second stabilizing cable 53 is connected with the first stabilizing cable 51 correspondingly disposed through the connecting rod. In one embodiment, the first stabilizing wire 51 is at least partially downwardly arched, and the second stabilizing wire 53 is at least partially upwardly arched; the first stabilizing cable 51 is configured to support the positive wind load, the snow load, and the dead weight of the photovoltaic module received by the first load-bearing cable 211 and the second load-bearing cable 213, so as to prevent the first load-bearing cable 211 and the second load-bearing cable 213 from being excessively bent down; the second stabilizing cable 53 is used to pull down the first load-bearing cable 211 and the second load-bearing cable 213 to counteract the upward force of the photovoltaic module mounted thereon due to the load, so as to prevent the photovoltaic module from vibrating up and down. The connecting rod in this embodiment and the first connecting rod 31 in the above embodiment may be the same connecting rod or different connecting rods, and preferably, the connecting rod in this embodiment is the first connecting rod 31 in the above embodiment.
Particularly, when the span of the photovoltaic flexible support 100 is larger, each span is provided with a plurality of first connecting rods 31 and a plurality of second connecting rods 33, and at least one first stabilizing cable 51 and/or one second stabilizing cable 53 are arranged below every other first bearing cable 211.
The utility model further provides a photovoltaic power generation system which comprises a photovoltaic flexible support 100 and a plurality of rows of photovoltaic modules, wherein the photovoltaic modules are sequentially arranged on the photovoltaic flexible support 100 along the first direction, and the plate surfaces of the photovoltaic modules have included angles in the first direction. In the photovoltaic power generation system, the specific structure of the photovoltaic flexible support 100 refers to the above embodiments, and since the photovoltaic power generation system adopts all the technical solutions of all the above embodiments, at least the photovoltaic power generation system has all the beneficial effects brought by the technical solutions of the above embodiments, and the detailed description thereof is omitted.
The foregoing examples are illustrative only and serve to explain some features of the method of the utility model. The appended claims are intended to claim the broadest possible scope and the embodiments presented herein are merely illustrative of selected implementations based on combinations of all possible embodiments. It is, therefore, not the intention of the applicant that the appended claims be limited by the choice of examples illustrating the features of the utility model. Some numerical ranges used in the claims also include sub-ranges within which variations in these ranges should also be construed as being covered by the appended claims where possible.
Claims (10)
1. A photovoltaic flexible support, comprising:
a vertical frame;
the two ends of the length direction of the bearing assembly rope are connected with the vertical frame, the bearing assembly rope is used for bearing a photovoltaic assembly, the length direction of the bearing assembly rope is in a first direction, and an included angle is formed between the photovoltaic assembly and the first direction.
2. The photovoltaic flexible support of claim 1, wherein the load bearing assembly cable comprises a plurality of first load bearing cables and a plurality of second load bearing cables, the second load bearing cables being disposed below the first load bearing cables, the plurality of first load bearing cables and the plurality of second load bearing cables each extending in the first direction and collectively carrying the photovoltaic assembly.
3. The photovoltaic flexible support of claim 2, wherein the light Fu Rouxing support further comprises a component mount mounted to the first and second load-bearing cables, the component mount comprising a plurality of mounting plates arranged in sequence along a second direction and assembled together by a connector, the second direction being perpendicular to the first direction, the mounting plates being angled with respect to the first direction, the mounting plates being configured to mount the photovoltaic component.
4. A photovoltaic flexible support according to claim 3, wherein the connecting member comprises an upper connecting portion and a lower connecting portion, the upper connecting portion connects two mounting plates arranged adjacently together, a clamping groove for accommodating the first load-bearing cable and/or the second load-bearing cable is formed in the bottom of the upper connecting portion, and the lower connecting portion is adapted to the upper connecting portion so as to fix the first load-bearing cable and/or the second load-bearing cable in the clamping groove.
5. The photovoltaic flexible support of claim 2, wherein the light Fu Rouxing support further comprises a plurality of first connecting rods connecting the first and second load-bearing cables disposed in correspondence thereto together such that a height difference between the first and second load-bearing cables disposed in correspondence thereto is maintained within a preset range.
6. The photovoltaic flexible rack of claim 5, wherein the light Fu Rouxing rack further comprises a plurality of second connecting rods connecting the plurality of first connecting rods arranged in a second direction, the second direction being perpendicular to the first direction, together to form a stable structure comprising a triangular structure.
7. The photovoltaic flexible support of claim 2, wherein the light Fu Rouxing support further comprises a first stabilizing cable extending along the first direction, the first stabilizing cable is arranged below the second bearing cable and is connected with the vertical frame at two ends, the first stabilizing cable arches towards the vertical direction, and the arch point of the first stabilizing cable is connected with the first bearing cable and the second bearing cable which are correspondingly arranged through connecting rods.
8. The photovoltaic flexible support of claim 7, wherein the light Fu Rouxing support further comprises a second stabilizing wire extending along the first direction, the second stabilizing wire being disposed below the second load-bearing wire and having two ends connected to the vertical frame, the second stabilizing wire arching in a direction opposite to the direction in which the first stabilizing wire arches, and the arch points of the second stabilizing wire being connected to the first stabilizing wire disposed in correspondence thereto by the connecting rods.
9. The photovoltaic flexible support of claim 1, wherein the load bearing assembly cable further comprises a first load bearing cable extending in the first direction and a support structure mounted to the first load bearing cable, the support structure comprising a first brace having a lower end connected to the first load bearing cable, the first brace being used with a plurality of the first load bearing cables to support the photovoltaic assembly; or alternatively, the process may be performed,
the supporting structure comprises a first supporting rod and a second supporting rod, the first supporting rod and the second supporting rod are arranged along the first direction at intervals, the lower ends of the first supporting rod and the second supporting rod are connected with the first bearing rope, the first supporting rod is higher than the second supporting rod, and the first supporting rod and the second supporting rod are used for supporting the photovoltaic module together.
10. A photovoltaic power generation system, comprising the photovoltaic flexible support of any one of claims 1 to 9 and a plurality of rows of photovoltaic modules, wherein the plurality of rows of photovoltaic modules are sequentially mounted on the photovoltaic flexible support along the first direction, and the photovoltaic modules have an included angle with the first direction.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202320279060.6U CN219304735U (en) | 2023-02-15 | 2023-02-15 | Photovoltaic flexible support and photovoltaic power generation system |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202320279060.6U CN219304735U (en) | 2023-02-15 | 2023-02-15 | Photovoltaic flexible support and photovoltaic power generation system |
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| Publication Number | Publication Date |
|---|---|
| CN219304735U true CN219304735U (en) | 2023-07-04 |
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| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN202320279060.6U Active CN219304735U (en) | 2023-02-15 | 2023-02-15 | Photovoltaic flexible support and photovoltaic power generation system |
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| Country | Link |
|---|---|
| CN (1) | CN219304735U (en) |
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2023
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