CN219999268U - Photovoltaic panel support self-adaptation angle adjustment structure - Google Patents
Photovoltaic panel support self-adaptation angle adjustment structure Download PDFInfo
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- CN219999268U CN219999268U CN202320556112.XU CN202320556112U CN219999268U CN 219999268 U CN219999268 U CN 219999268U CN 202320556112 U CN202320556112 U CN 202320556112U CN 219999268 U CN219999268 U CN 219999268U
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- 230000003014 reinforcing effect Effects 0.000 claims description 8
- 230000003044 adaptive effect Effects 0.000 claims description 7
- 230000000712 assembly Effects 0.000 claims 1
- 238000000429 assembly Methods 0.000 claims 1
- 230000002787 reinforcement Effects 0.000 description 3
- JEIPFZHSYJVQDO-UHFFFAOYSA-N iron(III) oxide Inorganic materials O=[Fe]O[Fe]=O JEIPFZHSYJVQDO-UHFFFAOYSA-N 0.000 description 2
- 230000004048 modification Effects 0.000 description 2
- 238000012986 modification Methods 0.000 description 2
- 230000009286 beneficial effect Effects 0.000 description 1
- 230000007547 defect Effects 0.000 description 1
- 238000010586 diagram Methods 0.000 description 1
- 238000005286 illumination Methods 0.000 description 1
- 239000000463 material Substances 0.000 description 1
- 238000010248 power generation Methods 0.000 description 1
- 239000004065 semiconductor Substances 0.000 description 1
- 239000007787 solid Substances 0.000 description 1
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Abstract
The utility model provides a self-adaptive angle adjusting structure of a photovoltaic panel bracket, which comprises two groups of supporting pieces, wherein each group of supporting pieces comprises a mounting plate, a connecting assembly, a lifting assembly, an inclined beam and a supporting rod; one end of the mounting plate is connected with a lifting assembly, and the other end of the mounting plate is connected with a supporting rod; the top ends of the lifting component and the supporting rods are rotationally connected with oblique beams, and the top ends of the oblique beams are connected with a plurality of cross beams through connecting components; the lifting assembly comprises an inner inserted rod, an outer sleeve rod, a locking rod, a handle and a spring. According to the self-adaptive angle adjusting mechanism of the bracket, a traditional bolt fixing mode is replaced by the drawing and inserting mode, when the angle is adjusted, only the lifting is needed to hold the locking rod and the handle in a lifting mode, the locking rod is loosened after the proper height is achieved, the state can be limited and fixed, the angle adjustment of the bracket is completed, the operation is simple, the use of bolts is avoided, the adjustment is more flexible, and the service life is long.
Description
Technical Field
The utility model relates to the technical field of photovoltaic modules, in particular to a photovoltaic panel bracket self-adaptive angle adjusting structure.
Background
The photovoltaic panel assembly is a power generation device capable of generating direct current when exposed to sunlight, and consists of thin solid photovoltaic cells almost entirely made of semiconductor materials; since there is no moving part, it can be operated for a long time without causing any loss; the simple photovoltaic cell can provide energy for the watch and the computer, the more complex photovoltaic system can provide illumination for the house and supply power for the power grid, the photovoltaic panel components can be made into different shapes, and the components can be connected to generate more power.
The photovoltaic panel is generally fixed through the support, and the support is generally arranged in an inclined mode, so that the inclination of the photovoltaic panel can be guaranteed, and the photovoltaic panel can receive sunlight in the largest area; but the inclination of the panel at different positions is different; therefore, the support needs to be subjected to adaptive angle adjustment, the existing support adopts a lifting assembly to carry out angle adjustment, and as shown in fig. 5, the lifting assembly comprises an inner inserting rod and an outer sleeve rod, and the inner inserting rod and the outer sleeve rod are fixed through bolts; the bolt fixing mode needs auxiliary tools during operation, and on the other hand, the bolt is easy to rust and has a limited service life.
Disclosure of Invention
Aiming at the defects in the prior art, the utility model aims to provide a photovoltaic panel bracket self-adaptive angle adjusting structure, which can solve the problems that an auxiliary tool is needed during operation in the prior bolt fixing mode, and the bolt is easy to rust and has a limited service life.
In order to achieve the above purpose, the present utility model adopts the following technical scheme:
the utility model is realized by the following technical scheme: the self-adaptive angle adjusting structure of the photovoltaic panel bracket comprises two groups of supporting pieces, wherein each group of supporting pieces comprises a mounting plate, a connecting assembly, a lifting assembly, an inclined beam and a supporting rod; one end of the mounting plate is connected with a lifting assembly, and the other end of the mounting plate is connected with a supporting rod; the top ends of the lifting component and the supporting rods are rotationally connected with oblique beams, and the top ends of the oblique beams are connected with a plurality of cross beams through connecting components;
the lifting assembly comprises an inner inserted rod, an outer sleeve rod, a locking rod, a handle and a spring; the inner inserting rod is rotatably connected to the inclined beam, and is inserted into the outer sleeve rod; the side part of the outer sleeve rod is provided with a limit groove, and the handle penetrates through the limit groove and is connected with the inner inserting rod; the side part of the handle is connected with a locking rod through a spring, and a locking groove is formed in the surface of the outer sleeve rod; the locking rod is connected with the locking groove in a matching way.
Further, a storage groove is formed in the handle, and the spring is arranged in the storage groove; the end part of the spring is fixed with a locking rod which adopts an I-shaped structure.
Further, the support piece further comprises a reinforcing component, wherein the reinforcing component comprises a first inclined support rod, a sliding block, a locking bolt and a second inclined support rod, and one ends of the first inclined support rod and the second inclined support rod are rotatably connected to one sliding block; the other ends of the first inclined stay bar and the second inclined stay bar are respectively rotated with two sliding blocks; the two sliding blocks are connected with the first sliding groove at the bottom end of the inclined beam in a matched mode; the sliding block is connected with the second sliding groove at the top end of the mounting plate in a matched mode; and the sliding block is connected with the locking bolt in a matching way.
Further, the connecting component comprises a vertical plate, a threaded sleeve, a screw rod and a clamping plate, wherein the vertical plate is rotationally connected with the clamping plate, and the vertical plate and the clamping plate are matched and connected with the inclined beam; the side part of the vertical plate is fixedly provided with a screw sleeve, and the side part of the clamping plate is rotationally connected with the screw rod; the screw rod is in threaded connection with the threaded sleeve.
Furthermore, the side parts of the vertical plate and the clamping plate adopt arc-shaped structures, and arc-shaped grooves are formed in the two sides of the oblique beam; the arc-shaped groove is connected with the vertical plate and the arc-shaped structure of the clamping plate in a matched mode.
Further, the height of the vertical plate is larger than that of the clamping plate, and the top end of the vertical plate is fixed with the cross beam through a bolt.
Compared with the prior art, the utility model has the beneficial effects that:
according to the self-adaptive angle adjusting mechanism of the bracket, a traditional bolt fixing mode is replaced by the drawing and inserting mode, when the angle is adjusted, only the lifting is needed to hold the locking rod and the handle in a lifting mode, the locking rod is loosened after the proper height is achieved, the state can be limited and fixed, the angle adjustment of the bracket is completed, the operation is simple, the use of bolts is avoided, the adjustment is more flexible, and the service life is long.
Drawings
The disclosure of the present utility model is described with reference to the accompanying drawings. It should be understood that the drawings are for purposes of illustration only and are not intended to limit the scope of the present utility model in which like reference numerals are used to designate like parts. Wherein:
FIG. 1 is a schematic view of the overall structure of a photovoltaic panel bracket adaptive angle adjustment structure according to the present utility model;
FIG. 2 is an enlarged schematic view of the structure of FIG. 1 according to the embodiment of the present utility model;
FIG. 3 is a schematic view showing a connection structure of a locking lever and a handle according to an embodiment of the present utility model;
FIG. 4 is a schematic structural diagram of a connection component according to an embodiment of the present utility model;
FIG. 5 is a schematic view of a prior art lifting assembly;
the reference numerals in the drawings indicate: 1. a cross beam; 2. a connection assembly; 21. a riser; 22. a screw sleeve; 23. a screw; 24. a clamping plate; 3. a sloping beam; 31. a first chute; 4. a lifting assembly; 41. an inner insert rod; 42. an outer sleeve rod; 421. a limit groove; 422. a locking groove; 43. a locking lever; 44. a handle; 441. a storage groove; 45. a spring; 5. a mounting plate; 51. a second chute; 6. a reinforcement assembly; 61. a first diagonal brace; 62. a slide block; 63. a locking bolt; 64. a second diagonal brace; 7. and (5) supporting the rod.
Detailed Description
It is to be understood that, according to the technical solution of the present utility model, those skilled in the art may propose various alternative structural modes and implementation modes without changing the true spirit of the present utility model. Accordingly, the following detailed description and drawings are merely illustrative of the utility model and are not intended to be exhaustive or to limit the utility model to the precise form disclosed.
The self-adaptive angle adjusting structure of the photovoltaic panel bracket comprises two groups of supporting pieces, as shown in fig. 1, wherein each group of supporting pieces comprises a mounting plate 5, a connecting component 2, a lifting component 4, an inclined beam 3 and a supporting rod 7; one end of the mounting plate 5 is connected with a lifting assembly 4, and the other end of the mounting plate 5 is connected with a supporting rod 7; as shown in fig. 1, 2 and 3, the lifting assembly 4 comprises an insert rod 41, an outer sleeve rod 42, a locking rod 43, a handle 44 and a spring 45; the inner inserting rod 41 is rotatably connected to the inclined beam 3, and the inner inserting rod 41 is inserted into the outer sleeve rod 42; the side portion of the outer sleeve rod 42 is provided with two limiting grooves 421, and the limiting grooves 421 are two in an exemplary manner; the handle 44 penetrates through the limit groove 421 and is connected with the inner inserting rod 41; the cross section of the handle 44 adopts a U-shaped structure, and the handle 44 is inserted into and slidingly connected with the limit groove 421; the side part of the handle 44 is connected with the locking rod 43 through a spring 45, specifically, a storage groove 441 is formed in the handle 44, and the spring 45 is arranged in the storage groove 441; the spring 45 is connected with the locking rod 43, and a locking groove 422 is formed in the surface of the outer sleeve rod 42; a plurality of locking grooves 422 are equidistantly distributed, and the locking rods 43 are connected with the locking grooves 422 in a matching manner; the top ends of the lifting component 4 and the supporting rod 7 are rotatably connected with the inclined beam 3, and the top ends of the inclined beam 3 are connected with a plurality of cross beams 1 through the connecting component 2; the beam 1 is used for being connected with the photovoltaic panel; when the angle of the bracket is adjusted, the inner inserting rod 41 is adjusted according to the requirement to be inserted into the depth of the outer sleeve rod 42, the handle 44 is held by a hand during adjustment, the locking rod 43 is held by a finger, the locking rod 43 is pulled out of the locking groove 422, the height of the inner inserting rod 41 can be changed by lifting or moving the handle 44 downwards, the angle of the bracket is changed, the locking rod 43 is released after the proper angle is reached, and the locking rod 43 is inserted into the locking groove 422 with the corresponding height under the action of the spring 45, so that the fixation is completed.
According to the self-adaptive angle adjusting mechanism of the bracket, a traditional bolt fixing mode is replaced by the drawing and inserting mode, when the angle is adjusted, only the lifting is needed to hold the locking rod and the handle in a lifting mode, the locking rod is loosened after the proper height is achieved, the state can be limited and fixed, the angle adjustment of the bracket is completed, the operation is simple, the use of bolts is avoided, the adjustment is more flexible, and the service life is long.
In order to improve the overall stability, the locking lever 43 adopts an "I" shaped structure; so that the locking bar 43 can be connected with the two rows of locking grooves 422 in a matching way, and the inner inserting bar 41 can be ensured to be firmer after reaching a proper height.
To further enhance the firmness of the bracket, the support further comprises a reinforcing component 6, wherein the reinforcing component 6 comprises a first diagonal brace 61, a sliding block 62, a locking bolt 63 and a second diagonal brace 64, and one ends of the first diagonal brace 61 and the second diagonal brace 64 are rotatably connected to one sliding block 62; the other ends of the first inclined stay 61 and the second inclined stay 64 are respectively rotated with two sliding blocks 62; the two sliding blocks 62 are matched and connected with the first sliding groove 31 at the bottom end of the inclined beam 3; a second chute 51 which is matched and connected with the top end of the mounting plate 5 by the sliding block 62; and the sliding block 62 is in fit connection with the locking bolt 63; when the inner inserting rod 41 is lifted to drive the inclined beam 3 to rotate for changing the angle, the reinforcing component 6 is moved on the mounting plate 5 and the inclined beam 3, the positions of the reinforcing component 6 on the inclined beam 3 and the mounting plate 5 are changed, the angle between the first inclined stay rod 61 and the second inclined stay rod 64 is changed, and after the angle reaches a proper position, locking and fixing are carried out by using locking bolts 63 on all sliding blocks 62; the diagonal beam 3 is supported by two diagonal braces, so that the firmness of the whole bracket is further enhanced.
The connecting assembly 2 comprises a vertical plate 21, a threaded sleeve 22, a threaded rod 23 and a clamping plate 24, wherein the vertical plate 21 is rotatably connected with the clamping plate 24, and the vertical plate 21 and the clamping plate 24 are matched and connected with the inclined beam 3; a screw sleeve 22 is fixed on the side part of the vertical plate 21, and the side part of the clamping plate 24 is rotationally connected with the screw rod 23; the screw 23 is in threaded connection with the threaded sleeve 22, when the distance between the cross beams 1 is adjusted, the distance between the connecting components 2 is required to be adjusted, when the distance between the connecting components 2 is adjusted, firstly, the screw 23 is required to be rotated to change the distance between the vertical plate 21 and the clamping plate 24, when the connecting components 2 are required to be moved, the screw 23 is rotated to enable the top ends of the clamping plate 24 and the vertical plate 21 to be close, the bottom ends of the clamping plate 24 and the vertical plate 21 to be separated, so that the connecting components 2 and the oblique beams 3 are separated, namely, after the connecting components 2 reach a proper position, the screw 23 is rotated reversely, the top ends of the vertical plate 21 and the clamping plate 24 are separated, and the bottom ends of the clamping plates are close; the connecting component 2 and the oblique beam 3 can be fixed, and the distance between the two cross beams 1 can be changed.
In order to enhance the firmness of the connection between the connection assembly 2 and the oblique beam 3; the side parts of the vertical plate 21 and the clamping plate 24 are in arc-shaped structures, and arc-shaped grooves are formed in the two sides of the oblique beam 3; the arc-shaped groove is matched and connected with the arc structures of the vertical plate 21 and the clamping plate 24.
The height of the riser 21 is greater than the height of the clamping plate 24, and the top end of the riser 21 is fixed to the cross beam 1 by bolts.
When the height of the bracket is adjusted, the depth of the inner inserting rod 41 inserted into the outer sleeve rod 42 is adjusted according to the angle required to be adjusted, the handle 44 is held by a hand during adjustment, the locking rod 43 is held by fingers, the locking rod 43 is pulled out of the locking groove 422, the height of the inner inserting rod 41 can be changed by lifting or moving down the handle 44, so that the angle of the bracket is changed, the locking rod 43 is released after the angle reaches a proper angle, and the locking rod 43 is inserted into the locking groove 422 with the corresponding height under the action of the spring 45, so that the fixation is completed; the reinforcement member 6 is moved on the mounting plate 5 and the diagonal member 3 while adjusting the height of the insert rod 41, and if necessary, the positions of the reinforcement member 6 on the diagonal member 3 and the mounting plate 5 are changed, and the angle between the first diagonal stay 61 and the second diagonal stay 64 is changed, and when the bracket is at a proper angle, the locking and fixing are performed by the locking bolts 63 on the respective sliders 62.
The technical scope of the present utility model is not limited to the above description, and those skilled in the art may make various changes and modifications to the above-described embodiments without departing from the technical spirit of the present utility model, and these changes and modifications should be included in the scope of the present utility model.
Claims (6)
1. A photovoltaic panel support self-adaptation angle adjustment structure, its characterized in that: comprising
Each group of supporting pieces comprises a mounting plate (5), a connecting component (2), a lifting component (4), an inclined beam (3) and a supporting rod (7); one end of the mounting plate (5) is connected with a lifting assembly (4), and the other end of the mounting plate (5) is connected with a supporting rod (7); the top ends of the lifting assembly (4) and the supporting rods (7) are rotatably connected with oblique beams (3), and the top ends of the oblique beams (3) are connected with a plurality of cross beams (1) through connecting assemblies (2);
the lifting assembly (4) comprises an inner inserting rod (41), an outer sleeve rod (42), a locking rod (43), a handle (44) and a spring (45); the inner inserting rod (41) is rotatably connected to the inclined beam (3), and the inner inserting rod (41) is inserted into the outer sleeve rod (42); a limit groove (421) is formed in the side part of the outer sleeve rod (42), and the handle (44) penetrates through the limit groove (421) and is connected with the inner inserting rod (41); the side part of the handle (44) is connected with a locking rod (43) through a spring (45), and a locking groove (422) is formed in the surface of the outer sleeve rod (42); the locking rod (43) is connected with the locking groove (422) in a matching way.
2. The photovoltaic panel bracket adaptive angle adjustment structure of claim 1, wherein: a storage groove (441) is formed in the handle (44), and the spring (45) is arranged in the storage groove (441); the end part of the spring (45) is fixed with a locking rod (43), and the locking rod (43) adopts an I-shaped structure.
3. The photovoltaic panel bracket adaptive angle adjustment structure of claim 1, wherein: the support piece further comprises a reinforcing component (6), the reinforcing component (6) comprises a first inclined support rod (61), a sliding block (62), a locking bolt (63) and a second inclined support rod (64), and one ends of the first inclined support rod (61) and the second inclined support rod (64) are rotatably connected to one sliding block (62); the other ends of the first inclined stay bar (61) and the second inclined stay bar (64) are respectively rotated with two sliding blocks (62); the two sliding blocks (62) are matched and connected with a first sliding groove (31) at the bottom end of the inclined beam (3); the sliding block (62) is matched and connected with a second sliding groove (51) at the top end of the mounting plate (5); and the sliding block (62) is connected with the locking bolt (63) in a matching way.
4. The photovoltaic panel bracket adaptive angle adjustment structure of claim 1, wherein: the connecting assembly (2) comprises a vertical plate (21), a threaded sleeve (22), a threaded rod (23) and a clamping plate (24), wherein the vertical plate (21) is rotationally connected with the clamping plate (24), and the vertical plate (21) and the clamping plate (24) are matched and connected with the inclined beam (3); a screw sleeve (22) is fixed on the side part of the vertical plate (21), and the side part of the clamping plate (24) is rotationally connected with the screw rod (23); the screw rod (23) is in threaded connection with the screw sleeve (22).
5. The photovoltaic panel bracket adaptive angle adjustment structure of claim 4, wherein: the side parts of the vertical plate (21) and the clamping plate (24) are of arc-shaped structures, and arc-shaped grooves are formed in the two sides of the oblique beam (3); the arc-shaped groove is connected with the vertical plate (21) and the arc-shaped structure of the clamping plate (24) in a matching way.
6. The photovoltaic panel bracket adaptive angle adjustment structure of claim 5, wherein: the height of the vertical plate (21) is larger than that of the clamping plate (24), and the top end of the vertical plate (21) is fixed with the cross beam (1) through bolts.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202320556112.XU CN219999268U (en) | 2023-03-21 | 2023-03-21 | Photovoltaic panel support self-adaptation angle adjustment structure |
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CN202320556112.XU CN219999268U (en) | 2023-03-21 | 2023-03-21 | Photovoltaic panel support self-adaptation angle adjustment structure |
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CN219999268U true CN219999268U (en) | 2023-11-10 |
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CN202320556112.XU Active CN219999268U (en) | 2023-03-21 | 2023-03-21 | Photovoltaic panel support self-adaptation angle adjustment structure |
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