CN220935050U - Photovoltaic module fixed knot constructs and photovoltaic system - Google Patents
Photovoltaic module fixed knot constructs and photovoltaic system Download PDFInfo
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- CN220935050U CN220935050U CN202322253133.7U CN202322253133U CN220935050U CN 220935050 U CN220935050 U CN 220935050U CN 202322253133 U CN202322253133 U CN 202322253133U CN 220935050 U CN220935050 U CN 220935050U
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- 230000000712 assembly Effects 0.000 claims description 4
- 238000000429 assembly Methods 0.000 claims description 4
- 230000000149 penetrating effect Effects 0.000 claims 1
- 229910000831 Steel Inorganic materials 0.000 description 5
- 239000010959 steel Substances 0.000 description 5
- 238000009434 installation Methods 0.000 description 4
- 238000011900 installation process Methods 0.000 description 3
- 238000000034 method Methods 0.000 description 2
- 238000005452 bending Methods 0.000 description 1
- 230000009286 beneficial effect Effects 0.000 description 1
- 230000006835 compression Effects 0.000 description 1
- 238000007906 compression Methods 0.000 description 1
- 230000008094 contradictory effect Effects 0.000 description 1
- 238000005553 drilling Methods 0.000 description 1
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- 239000011159 matrix material Substances 0.000 description 1
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Abstract
The utility model discloses a photovoltaic module fixing structure and a photovoltaic system, wherein the photovoltaic module fixing structure is used for a flexible photovoltaic bracket and comprises a bearing rope and a fixing assembly, the fixing assembly is used for fixing a plurality of photovoltaic modules on the bearing rope, the fixing assembly comprises a plurality of first fixing pieces and a plurality of second fixing pieces, the photovoltaic modules are fixed together through the first fixing pieces and the second fixing pieces, and the first fixing pieces and the second fixing pieces are respectively provided with a perforation so as to be sleeved on the bearing rope. When the bearing rope is in a tensioning state, the perforation height of the first fixing piece is inconsistent with the perforation height of the second fixing piece, so that the bearing rope is bent to form a plurality of inflection points after being penetrated in the perforation. In the utility model, the fixing mode of the fixing component and the bearing rope is simple, and the fixing component can be fixed on the bearing rope without adopting parts such as bolts, hoops and the like.
Description
Technical Field
The utility model relates to the technical field of photovoltaic power generation systems, in particular to a photovoltaic module fixing structure and a photovoltaic system.
Background
Compared with the traditional photovoltaic support, the flexible photovoltaic support is mainly characterized in that a rigid purline in the traditional photovoltaic support is changed into a inhaul cable (steel strand), and the inhaul cable is prestressed, so that the inhaul cable has certain rigidity, and the photovoltaic module is installed.
In the existing photovoltaic flexible support, the photovoltaic component and the inhaul cable (steel strand) are fixed through node members, specifically, the node members are fixed with the photovoltaic component through bolts, and the inhaul cable (steel strand) is fixed on the node members through a mode similar to hoop or compression joint; the photovoltaic module and the inhaul cable (steel strand) are connected and fixed in a complex mode, the bolt fastening workload is large, and the steel consumption of the node is also large.
Disclosure of utility model
The utility model mainly aims to provide a photovoltaic module fixing structure which aims to solve the technical problems in the background technology.
In order to achieve the above object, the photovoltaic module fixing structure provided by the present utility model is used for a flexible photovoltaic bracket, and the photovoltaic module fixing structure includes:
a load-bearing cable;
The fixing assembly is used for fixing a plurality of photovoltaic assemblies on the bearing rope and comprises a plurality of first fixing pieces and a plurality of second fixing pieces, the photovoltaic assemblies are fixed together through the first fixing pieces and the second fixing pieces, and the first fixing pieces and the second fixing pieces are provided with perforations so as to be sleeved on the bearing rope;
When the bearing rope is in a tensioning state, the perforation height of the first fixing piece is inconsistent with the perforation height of the second fixing piece, so that the bearing rope is bent to form a plurality of inflection points after being penetrated through the perforation.
In an embodiment, the first fixing piece and/or the second fixing piece includes a sleeving part, a connecting part and a fixing part, the sleeving part is sleeved on the bearing cable, the fixing part is fixedly connected with the sleeving part through the connecting part, and the fixing part is used for fixing the photovoltaic module.
In an embodiment, the sleeve-connecting portion is a sleeve, the sleeve extends transversely, and the sleeve and the connecting portion are integrally formed.
In an embodiment, the vertical length of the connecting portion of the first fixing member is not identical to the vertical length of the connecting portion of the second fixing member.
In an embodiment, the photovoltaic modules are disposed above the fixing portions, and the fixing portions are used for fixing opposite ends of two adjacent photovoltaic modules together.
In an embodiment, the connecting portion includes first support column and second support column, first support column with the second support column all with cup joint portion fixed connection and both follow cup joint portion's axial arrangement sets up, fixed part with first support column with the upper end fixed connection of second support column, be fixed in two adjacent on the fixed part photovoltaic module's relative both ends correspond respectively and locate first support column with second support column top.
In an embodiment, the fixing portion includes a first fixing plate and a second fixing plate, the first fixing plate is formed by extending from an upper end of the first support column back to the second support column, the second fixing plate is formed by extending from an upper end of the second support column back to the first support column, and the first fixing plate and the second fixing plate are respectively used for fixing end portions of two adjacent photovoltaic modules.
In an embodiment, the fixing portion includes a first fixing plate and a second fixing plate, the first fixing plate is fixedly connected with the connecting portion, the second fixing plate is disposed above the first fixing plate and forms a clamping position with the first fixing plate, and two adjacent opposite ends of the photovoltaic module are clamped between the first fixing plate and the second fixing plate.
In an embodiment, the first fixing plate and the second fixing plate are connected through bolts, and the bolts fasten the first fixing plate and the second fixing plate together with the photovoltaic modules correspondingly arranged.
In an embodiment, the first fixing members and the second fixing members are alternately arranged along the extending direction of the load-bearing cable.
The utility model also provides a photovoltaic system comprising the photovoltaic module fixing structure.
According to the technical scheme, the first fixing piece and the second fixing piece are sleeved on the bearing rope, the perforation height of the first fixing piece is inconsistent with the perforation height of the second fixing piece, so that the bearing rope is bent to form a plurality of inflection points after being penetrated through the perforation holes of the first fixing piece and the second fixing piece, and the first fixing piece and the second fixing piece are fastened on the bearing rope and are not easy to slide on the bearing rope.
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 a photovoltaic module securing structure according to an embodiment of the present utility model;
FIG. 2 is a schematic view of the structure of the first and/or second fastening members of the present utility model in one embodiment;
FIG. 3 is a left side view of FIG. 2;
FIG. 4 is a schematic view of the structure of the first and/or second securing member of the present utility model in another embodiment;
fig. 5 is a schematic view of the structure of the first and/or second fastening members according to the present utility model in a further embodiment.
Reference numerals illustrate:
| Reference numerals | Name of the name | Reference numerals | Name of the name |
| 100 | Photovoltaic module fixing structure | 110 | Bearing rope |
| 110a | Inflection point | 131 | First fixing piece |
| 132 | Second fixing piece | 1321 | Socket joint |
| 13211 | Perforation | 1322 | Connecting part |
| 13221 | First support column | 13222 | Second support column |
| 1323 | Fixing part | 13231 | First fixing plate |
| 13232 | Second fixing plate | 1323a | Clamping position |
| 150 | Bolt | 200 | Photovoltaic module |
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.
The utility model provides a photovoltaic module fixing structure 100, which is suitable for a flexible photovoltaic bracket.
Referring to fig. 1, in the embodiment of the present utility model, the photovoltaic module fixing structure 100 includes a load-bearing cable 110 and a fixing component, the fixing component is configured to fix a plurality of photovoltaic modules 200 on the load-bearing cable 110, the fixing component includes a plurality of first fixing members 131 and a plurality of second fixing members 132, the plurality of photovoltaic modules 200 are fixed together by the plurality of first fixing members 131 and the plurality of second fixing members 132, and the fixing manners of the photovoltaic modules 200 and the fixing members (i.e. the first fixing members 131 and/or the second fixing members 132) include: screw holes are formed in the fixing members (i.e., the first fixing member 131 and/or the second fixing member 132) and the photovoltaic module 200, and the photovoltaic module 200 is fixed to the fixing members (i.e., the first fixing member 131 and/or the second fixing member 132) by bolts; the first fixing member 131 and the second fixing member 132 are respectively provided with a through hole 13211 for being sleeved on the load-bearing cable 110, and the diameter of the through hole 13211 is slightly larger than that of the load-bearing cable 110; the height of the through holes 13211 of the first fixing member 131 is not consistent with the height of the through holes 13211 of the second fixing member 132, so that the bearing cable 110 is bent to form a plurality of inflection points 110a after being inserted into the through holes 13211; more commonly, the through holes 13211 are disposed at the lower ends of the first fixing member 131 and the second fixing member 132, and the plurality of photovoltaic modules 200 are fixed at the upper ends of the first fixing member 131 and the second fixing member 132, in which "the height of the through holes 13211 of the first fixing member 131 is inconsistent with the height of the through holes 13211 of the second fixing member 132" means that the length of the first fixing member 131 is inconsistent with the length of the second fixing member 132 ".
In the embodiment of the present utility model, the plurality of first fixing members 131 and the plurality of second fixing members 132 may be arranged in various manners, and the number of the first fixing members 131 and the number of the second fixing members 132 may be the same or different. As shown in fig. 1, the number of the first fixing members 131 and the second fixing members 132 is 3, the first fixing members 131 and the second fixing members 132 are staggered, and the load-bearing cable 110 is formed with 4 inflection points; further or for example, the first fixing members 131 and the second fixing members 132 are denoted by a and B, and the number of the first fixing members 131 is 5 and the number of the second fixing members 132 is 4, which may be arranged in the following manner: ase:Sub>A-B-ase:Sub>A (7 inflection points 110 ase:Sub>A are formed), or ase:Sub>A-ase:Sub>A-B-ase:Sub>A (3 inflection points 110 ase:Sub>A are formed), or ase:Sub>A-B-ase:Sub>A-ase:Sub>A-B-ase:Sub>A (5 inflection points 110 ase:Sub>A are formed), or ase:Sub>A-ase:Sub>A-B-ase:Sub>A (5 inflection points 110 ase:Sub>A are formed), etc.
The more the inflection points 110a formed by bending the load-bearing cable 110 and the larger the turning amplitude of the inflection points 110a are, the more the friction between the load-bearing cable 110 and the fixing component is increased, so that the first fixing piece 131 and the second fixing piece 132 are prevented from sliding on the load-bearing cable 110, and the fixing of the photovoltaic component 200 is facilitated. The number of the inflection points 110a depends on the arrangement manner of the first fixing elements 131 and the second fixing elements 132, and as shown in the above example, when the first fixing elements 131 and the second fixing elements 132 are arranged in a staggered manner, the inflection points 110a formed by the load-bearing cable 110 are the largest, that is, preferably, the number of the first fixing elements 131 and the second fixing elements 132 is the same or different by one, the first fixing elements 131 and the second fixing elements 132 are arranged in a staggered manner along the extending direction of the load-bearing cable 110, and the number of the first fixing elements 131 and the second fixing elements 132 can be adjusted according to practical situations. The magnitude of the turning of the inflection point 110a is related to the height difference of the through holes 13211 of the first fixing member 131 and the second fixing member 132, and the greater the height difference of the through holes 13211 of the first fixing member 131 and the second fixing member 132, the greater the turning of the inflection point 110a, but the longer the length of the load-bearing cable 110, in the embodiment of the present utility model, the difference of the heights of the through holes 13211 of the first fixing member 131 and the second fixing member 132 is not limited, and the person skilled in the art can adjust according to the actual situation.
During the installation process of the photovoltaic module fixing structure 100, the first fixing member 131 and the second fixing member 132 are first sleeved on the load-bearing cable 110, and the load-bearing cable 110 is in a certain loose state; then fixing the plurality of photovoltaic modules 200 on the first fixing member 131 and the second fixing member 132, and sliding the first fixing member 131 and the second fixing member 132 to proper positions; and then tensioning the load-bearing cable 110 to make the load-bearing cable 110 in a tensioned state, wherein in the process, as the load-bearing cable 110 is tensioned, a large friction force is generated between the first fixing member 131 and the second fixing member 132 and the load-bearing cable 110, so that the first fixing member 131 and the second fixing member 132 are tightly sleeved on the load-bearing cable 110 and cannot slide on the load-bearing cable 110.
According to the technical scheme of the utility model, the first fixing piece 131 and the second fixing piece 132 are sleeved on the bearing rope 110, so that the bearing rope 110 is bent to form a plurality of inflection points 110a after being penetrated through the perforations 13211 of the first fixing piece 131 and the second fixing piece 132, and the first fixing piece 131 and the second fixing piece 132 are fastened on the bearing rope 110 so as not to easily slide on the bearing rope 110.
Referring to fig. 2 and 3, in an embodiment, the first fixing member 131 and/or the second fixing member 132 includes a sleeve portion 1321, a connecting portion 1322, and a fixing portion 1323, the sleeve portion 1321 is sleeved on the load cable 110, the fixing portion 1323 is fixedly connected with the sleeve portion 1321 through the connecting portion 1322, and the fixing portion 1323 is used for fixing the photovoltaic module 200; in detail, the lower end of the connection part 1322 is fixedly connected to the top of the socket part 1321, and the lower end of the fixing part 1323 is connected to the upper end of the connection part 1322. The shape of the socket 1321/connection 1322/fixing 1323 of the first fixing member 131 and the shape of the socket 1321/connection 1322/fixing 1323 of the second fixing member 132 may be the same or different. The socket 1321 and the connection 1322 of the first fixing member 131/the second fixing member 132 may be integrally formed or separately formed, and preferably, the socket 1321 and the connection 1322 of the first fixing member 131/the second fixing member 132 are integrally formed, so as to reduce the consumption of connecting parts such as bolts or simplify the installation steps.
The shape of the socket 1321 is various, for example: a sleeve shape or a hoop shape, preferably, the sleeve shape of the sleeve portion 1321, the installation procedure of the socket 1321 in the form of a sleeve is simpler than the socket 1321 in the form of a hoop, the socket 1321 can be fixed to the load cable 110 without connecting components with bolts, thereby reducing the consumption and installation workload of the components.
In a specific embodiment, the socket portion 1321 of the first fixing member 131 and the second fixing member 132 are cylindrical (i.e. sleeve-shaped) with openings at two ends and extending transversely, and the sizes of the socket portion 1321 and the sleeve-shaped cylindrical are the same, the connecting portions 1322 of the first fixing member 131 and the second fixing member 132 are rectangular plate-shaped structures that are vertically arranged, the vertical length of the connecting portion 1322 of the first fixing member 131 is greater than the vertical length of the connecting portion 1322 of the second fixing member 132, and the fixing portions 1323 of the first fixing member 131 and the second fixing member 132 are arranged at the same height. When the load-bearing cable 110 passes through one or more of the first fixing members 131 arranged between two of the second fixing members 132, the load-bearing cable 110 is bent to form an upper inflection point 110a; when the load-bearing cable 110 passes through one or more of the second fixing members 132 arranged between the two first fixing members 131, the load-bearing cable 110 is bent to form a lower inflection point 110a. In the photovoltaic module fixing structure 100 of the present utility model, the load-bearing cable 110 is formed with a plurality of upper inflection points 110a and a plurality of lower inflection points 110a.
With continued reference to fig. 2 and 3, in an embodiment, the fixing portion 1323 is a supporting plate, the photovoltaic modules 200 are disposed above the fixing portion 1323, and the fixing portion 1323 is configured to fix opposite ends of two adjacent photovoltaic modules 200 together, specifically, two sets of bolts are used to fix ends of two adjacent photovoltaic modules 200 on the fixing portion 1323 respectively. The fixing portion 1323 is integrally formed with the connecting portion 1322 or separately formed, and preferably, the fixing portion 1323 is integrally formed with the connecting portion 1322, so as to reduce the consumption of connecting components such as bolts or simplify the installation process.
Referring to fig. 5, in another embodiment, the fixing portion 1323 includes a first fixing plate 13231 and a second fixing plate 13232, the first fixing plate 13231 is fixedly connected to the connecting portion 1322, the second fixing plate 13232 is disposed above the first fixing plate 13231 and forms a clamping position 1323a with the first fixing plate 13231, and two opposite ends of the adjacent two photovoltaic modules 200 are clamped between the first fixing plate 13231 and the second fixing plate 13232. In this embodiment, the photovoltaic module 200 may be fixed on the fixing portion 1323 without drilling a screw hole in the photovoltaic module 200. The first fixing plate 13231 is integrally formed with the connecting portion 1322 or separately formed, preferably, the first fixing plate 13231 is integrally formed with the connecting portion 1322, so as to reduce the consumption of connecting components such as bolts or simplify the installation steps.
In the above embodiment, the fastening manner of the first fixing plate 13231 and the second fixing plate 13232 is various, and the first fixing plate 13231 and the second fixing plate 13232 may be connected by rivets or bolts. In a specific embodiment, the first fixing plate 13231 and the second fixing plate 13232 are connected by a bolt 150, a first screw hole is formed in the middle of the first fixing plate 13231, a second screw hole corresponding to the first screw hole is formed in the middle of the second fixing plate 13232, and the bolt 150 passes through the second screw hole, a gap between two adjacent photovoltaic modules 200, and the first screw hole fastens the first fixing plate 13231 and the second fixing plate 13232 together with the photovoltaic modules 200 correspondingly arranged thereon.
Referring to fig. 4 and 5, in an embodiment, the connecting portion 1322 includes a first support column 13221 and a second support column 13222, the first support column 13221 and the second support column 13222 are fixedly connected to the sleeve portion 1321 and are arranged along an axial direction of the sleeve portion 1321, the fixing portion 1323 is fixedly connected to upper ends of the first support column 13221 and the second support column 13222, and two opposite ends of two adjacent photovoltaic modules 200 fixed on the fixing portion 1323 are respectively and correspondingly disposed above the first support column 13221 and the second support column 13222. By dividing the connecting portion 1322 into the first support post 13221 and the second support post 13222, the supporting strength of the connecting portion 1322 to the fixing portion 1323 can be improved, and the fixing portion 1323 is prevented from being partially recessed due to uneven stress.
Referring to fig. 4, in another embodiment, the fixing portion 1323 includes a first fixing plate 13231 and a second fixing plate 13232, the first fixing plate 13231 is formed by extending an upper end of the first support post 13221 away from the second support post 13222, the second fixing plate 13232 is formed by extending an upper end of the second support post 13222 away from the first support post 13221, and the first fixing plate 13231 and the second fixing plate 13232 are respectively used for fixing end portions of two adjacent photovoltaic modules 200. In the installation process of the photovoltaic module 200, one set of bolts sequentially pass through the first fixing plate 13231 and the frame of the photovoltaic module 200 arranged above the first fixing plate 13231 to fasten the photovoltaic module 200 to the first fixing plate 13231, and the other set of bolts sequentially pass through the second fixing plate 13232 and the frame of the photovoltaic module 200 arranged above the second fixing plate 13232 to fasten the photovoltaic module 200 to the second fixing plate 13232.
The utility model also provides a photovoltaic system, which comprises a flexible photovoltaic support and a plurality of photovoltaic modules 200, wherein the flexible photovoltaic support comprises two groups of support columns which are oppositely arranged and a plurality of groups of photovoltaic module fixing structures 100, the photovoltaic module fixing structures 100 are arranged on the two groups of support columns, the plurality of photovoltaic modules 200 are arranged in a matrix shape and are fixed on the photovoltaic fixing structures, the specific structure of the photovoltaic module fixing structures 100 in the photovoltaic system refers to the embodiment, and the photovoltaic system adopts all the technical schemes of all the embodiments, so that the photovoltaic system at least has all the beneficial effects brought by the technical schemes of the embodiment and is not repeated herein.
In the photovoltaic system of the present utility model, two groups of support columns are arranged at intervals along a first direction, the load-bearing cables 110 in the photovoltaic module fixing structure 100 extend along the first direction, two ends of the load-bearing cables are respectively fixed on the two groups of support columns, a plurality of groups of photovoltaic module fixing structures 100 are arranged at intervals along a second direction, two adjacent columns of photovoltaic modules 200 are fixed together by a group of photovoltaic module fixing structures 100, and the first direction is perpendicular to the second direction.
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 (11)
1. A photovoltaic module fixed knot constructs for flexible photovoltaic support, its characterized in that includes:
a load-bearing cable;
The fixing assembly is used for fixing a plurality of photovoltaic assemblies on the bearing rope and comprises a plurality of first fixing pieces and a plurality of second fixing pieces, the photovoltaic assemblies are fixed together through the first fixing pieces and the second fixing pieces, and the first fixing pieces and the second fixing pieces are provided with perforations so as to be sleeved on the bearing rope;
The perforation height of the first fixing piece is inconsistent with the perforation height of the second fixing piece, so that the bearing cable is bent to form a plurality of inflection points after penetrating through the perforation.
2. The photovoltaic module fixing structure according to claim 1, wherein the first fixing member and/or the second fixing member includes a sleeve connection portion, a connection portion, and a fixing portion, the sleeve connection portion is sleeved on the load cable, the fixing portion is fixedly connected with the sleeve connection portion through the connection portion, and the fixing portion is used for fixing the photovoltaic module.
3. The photovoltaic module fixing structure of claim 2, wherein the socket portion is a sleeve, the sleeve extends transversely, and the sleeve and the connecting portion are integrally formed.
4. The photovoltaic module securing structure of claim 2, wherein the vertical length of the connecting portion of the first securing member is not identical to the vertical length of the connecting portion of the second securing member.
5. The photovoltaic module securing structure according to claim 4, wherein the photovoltaic modules are disposed above the securing portions for securing opposite ends of two adjacent photovoltaic modules together.
6. The photovoltaic module fixing structure according to claim 5, wherein the connecting portion includes a first support column and a second support column, the first support column and the second support column are fixedly connected with the sleeve connection portion and are arranged along an axial direction of the sleeve connection portion, the fixing portion is fixedly connected with upper ends of the first support column and the second support column, and two opposite ends of two adjacent photovoltaic modules fixed on the fixing portion are respectively and correspondingly arranged above the first support column and the second support column.
7. The photovoltaic module fixing structure according to claim 6, wherein the fixing portion includes a first fixing plate and a second fixing plate, the first fixing plate is formed by extending from an upper end of the first support column back to the second support column, the second fixing plate is formed by extending from an upper end of the second support column back to the first support column, and the first fixing plate and the second fixing plate are respectively used for fixing end portions of two adjacent photovoltaic modules.
8. The photovoltaic module fixing structure of claim 4, wherein the fixing portion includes a first fixing plate and a second fixing plate, the first fixing plate is fixedly connected with the connecting portion, the second fixing plate is disposed above the first fixing plate and forms a clamping position with the first fixing plate, and two opposite ends of the adjacent photovoltaic modules are clamped between the first fixing plate and the second fixing plate.
9. The photovoltaic module fixing structure according to claim 8, wherein the first fixing plate and the second fixing plate are connected by bolts, and the bolts fasten the first fixing plate and the second fixing plate together with the photovoltaic module correspondingly arranged.
10. The photovoltaic module fixing structure according to any one of claims 1 to 9, wherein the first fixing members and the second fixing members are alternately arranged along the direction in which the load-bearing cable extends.
11. A photovoltaic system comprising the photovoltaic module fixing structure according to any one of claims 1 to 10.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202322253133.7U CN220935050U (en) | 2023-08-21 | 2023-08-21 | Photovoltaic module fixed knot constructs and photovoltaic system |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202322253133.7U CN220935050U (en) | 2023-08-21 | 2023-08-21 | Photovoltaic module fixed knot constructs and photovoltaic system |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN220935050U true CN220935050U (en) | 2024-05-10 |
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ID=90963537
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN202322253133.7U Active CN220935050U (en) | 2023-08-21 | 2023-08-21 | Photovoltaic module fixed knot constructs and photovoltaic system |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN220935050U (en) |
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2023
- 2023-08-21 CN CN202322253133.7U patent/CN220935050U/en active Active
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