CN220122817U - Rotatory single-column photovoltaic braced system - Google Patents
Rotatory single-column photovoltaic braced system Download PDFInfo
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- CN220122817U CN220122817U CN202320416192.9U CN202320416192U CN220122817U CN 220122817 U CN220122817 U CN 220122817U CN 202320416192 U CN202320416192 U CN 202320416192U CN 220122817 U CN220122817 U CN 220122817U
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Abstract
The utility model discloses a rotary single-column photovoltaic bracket system which comprises supporting columns, wherein cross beams are sleeved on the supporting columns, vertical beams are fixedly arranged on the cross beams at intervals along the longitudinal direction through clamping angle brackets, inclined supporting rods which are fixedly connected with the vertical beams and form a stable triangular structure are fixedly arranged on the clamping angle brackets, a photovoltaic panel is arranged on the vertical beams, rotary supporting rods are arranged between the supporting columns and the cross beams, the cross beams are arranged into D-shaped pipes, rotation stopping grooves are formed in the D-shaped pipes, and the rotary supporting rods are arranged into threaded rods. The photovoltaic bracket system has the advantages of strong torsion resistance, simple structure, stability, reliability and difficult failure.
Description
Technical Field
The utility model relates to the technical field of solar photovoltaic panel supports, in particular to a rotary single-column photovoltaic support system.
Background
Solar energy is energy generated by the continuous nuclear fusion reaction process of black seeds in the sun or on the surface. The solar energy has the advantages of sufficient resources, long service life, wide distribution, safety, cleanness, reliable technology and the like, and the application range is very wide because the solar energy can be converted into various other forms of energy. The power obtained from solar energy is obtained by performing photoelectric conversion by a solar cell.
The general crossbeam adopts square pipe in the rotatable photovoltaic braced system of current single-column, and its torsion-resistant effect is not good, and is used for adjusting the rotatory supporting module of photovoltaic panel angle to adopt the structure that is similar to scissor jack, and its connected support point quantity is many, and easy to lose efficacy at the supporting point position, the problem that the local compressive strength of easy emergence distortion and connecting portion is insufficient and damage when receiving the strong wind pressure, in addition, for reduce cost, the diagonal brace in the rotatable photovoltaic braced system of current single-column often adopts the thinner opening material of wall thickness, and it is easy to lose efficacy in bolted connection department.
Disclosure of Invention
The utility model aims to solve the technical problem of overcoming the defects of the prior art and providing a rotary single-column photovoltaic bracket system with strong wind pressure resistance.
In order to solve the technical problems, the utility model adopts the following technical scheme:
the utility model provides a rotatory single-column photovoltaic support system, includes the support post, the crossbeam has been cup jointed on the support post, set up and be equipped with the vertical beam admittedly through the tight angle sign indicating number of clamp along longitudinal direction interval on the crossbeam, the tight angle sign indicating number of clamp admittedly be equipped with vertical beam fixed connection and form the diagonal bracing of stable triangle-shaped structure, install photovoltaic panel on the vertical beam, the support post with be provided with rotatory bracing piece between the crossbeam, the crossbeam sets up to the D venturi tube, be provided with the anti-rotation groove on the D venturi tube, rotatory bracing piece sets up to the threaded rod.
As a further improvement of the above technical scheme:
the D-shaped pipe consists of a section of straight surface and a section of arc surface, and the rotation stopping groove is arranged on the straight surface of the D-shaped pipe.
The clamping hoop clamp plate is connected to the D-shaped pipe through bolts and is arranged to be a corresponding concave-table D-shaped clamping hoop, and an upper supporting sleeve is hinged to the clamping hoop clamp plate through bolts.
The support column is provided with an installation table, and the installation table is hinged with a lower support sleeve through bolts.
The threaded rod penetrates through the upper support sleeve and the lower support sleeve, and the lower support sleeve is a threaded sleeve.
And a rotating handle is arranged on the threaded rod.
The threaded rod is provided with two sections of reverse threads in a segmented mode, the upper supporting sleeve is a threaded sleeve, and the threaded rod is in threaded connection with the upper supporting sleeve and the lower supporting sleeve respectively.
The threaded rod is provided with threads in a through length mode, is fixed on the upper supporting sleeve through a nut and is in threaded connection with the lower supporting sleeve.
The diagonal brace is a round tube, and two ends of the diagonal brace are extruded into a double-wall laminated section bar.
The diagonal brace is a square tube, and two ends of the diagonal brace are extruded into a double-wall laminated section bar.
The utility model provides a rotatory single-column photovoltaic support system, includes the support post, the crossbeam has been cup jointed on the support post, set up and be equipped with the vertical beam admittedly through the tight angle sign indicating number of clamp along longitudinal direction interval on the crossbeam, the tight angle sign indicating number of clamp admittedly be equipped with vertical beam fixed connection and form the diagonal bracing of stable triangle-shaped structure, install photovoltaic panel on the vertical beam, the support post with be provided with rotatory bracing piece between the crossbeam, the crossbeam sets up to the D venturi tube, be provided with the anti-rotation groove on the D venturi tube, rotatory bracing piece sets up to the tooth line pole.
As a further improvement of the above technical scheme:
the D-shaped pipe consists of a section of straight surface and a section of arc surface, and the rotation stopping groove is arranged on the straight surface of the D-shaped pipe.
The clamping hoop clamp plate is connected to the D-shaped pipe through bolts and is arranged to be a corresponding concave-table D-shaped clamping hoop, and an upper supporting sleeve is hinged to the clamping hoop clamp plate through bolts.
The support column is provided with an installation table, and the installation table is hinged with a lower support sleeve through bolts.
The gear rod is arranged on the lower support sleeve in a penetrating mode and is inserted into and fixed with the upper support sleeve, and a worm wheel meshed with the gear rod is arranged on the lower support sleeve.
The inclined stay bars are arranged as square tubes.
Compared with the prior art, the utility model has the advantages that:
the utility model discloses a rotary single-column photovoltaic support system, which comprises support columns, wherein cross beams are sleeved on the support columns, vertical beams are fixedly arranged on the cross beams at intervals along the longitudinal direction through clamping angle brackets, inclined supporting rods which are fixedly connected with the vertical beams and form a stable triangular structure are fixedly arranged on the clamping angle brackets, a photovoltaic panel is arranged on the vertical beams, rotary supporting rods are arranged between the support columns and the cross beams, the cross beams are arranged into D-shaped pipes, rotation stopping grooves are formed in the D-shaped pipes, and the rotary supporting rods are arranged into toothed rods. Compared with the traditional photovoltaic support system, the beam of the rotary single-column photovoltaic support system adopts the D-shaped pipe, the torsion resistance of the beam 2 is enhanced, the rotation stopping groove is formed in the beam, the stability of beam connection is enhanced, the profiling anchor ear is adopted to connect the D-shaped pipe, the stress is uniform, the torsion resistance is enhanced, further, the inclined strut adopts a closed section bar, the connection strength of the inclined strut is enhanced, further, the rotary strut adopts a toothed bar or a threaded rod, the structure is simple, stable and reliable, the connecting points are few, and the failure is difficult.
Drawings
Fig. 1 is a schematic overall structure of embodiment 1 of the present utility model.
Fig. 2 is a schematic view of the beam structure of embodiment 1 of the present utility model.
Fig. 3 is a schematic view of the structure of the hoop clamping plate in embodiment 1 of the present utility model.
Fig. 4 is a schematic view of the vertical beam structure of embodiment 1 of the present utility model.
Fig. 5 is a schematic diagram showing connection of a rotary support bar according to embodiment 1 of the present utility model.
Fig. 6 is a schematic view of the vertical beam structure of embodiment 2 of the present utility model.
Fig. 7 is a schematic diagram showing connection of a rotary support bar according to embodiment 2 of the present utility model.
Fig. 8 is a schematic view of the vertical beam structure of embodiment 3 of the present utility model.
Fig. 9 is a schematic diagram showing connection of a rotary support bar according to embodiment 3 of the present utility model.
The reference numerals in the drawings denote:
1. a support column; 11. a mounting table; 2. a cross beam; 21. a rotation stopping groove; 3. clamping the corner brace; 4. a vertical beam; 5. a diagonal brace; 6. a photovoltaic panel; 7. rotating the support rod; 71. a rotating handle; 8. hoop clamping plates; 9. an upper support sleeve; 10. a lower support sleeve; 101. a worm wheel.
Detailed Description
The utility model will be described in further detail with reference to the drawings and the specific examples.
Example 1:
fig. 1 to 5 show a first embodiment of the rotary single-column photovoltaic support system of the present utility model, which comprises a support column 1, wherein cross beams 2 are sleeved on the support column 1, vertical beams 4 are fixedly arranged on the cross beams 2 at intervals along the longitudinal direction through clamping angle brackets 3, diagonal bracing rods 5 which are fixedly connected with the vertical beams 4 and form a stable triangle structure are fixedly arranged on the clamping angle brackets 3, a photovoltaic panel 6 is arranged on the vertical beams 4, a rotary support rod 7 is arranged between the support column 1 and the cross beams 2, the cross beams 2 are arranged as D-shaped pipes, rotation stopping grooves 21 are arranged on the D-shaped pipes, and the rotary support rods 7 are arranged as toothed bars. Compared with the traditional photovoltaic support system, the beam 2 of the rotary single-column photovoltaic support system adopts a D-shaped pipe, the torsion resistance of the beam 2 is enhanced, the rotation stopping groove 21 is formed in the beam 2, the stability of connection of the beam 2 is enhanced, and further, the rotary support rod 7 adopts a toothed rod, so that the rotary single-column photovoltaic support system is simple in structure, stable and reliable, few in connection points and not easy to lose efficacy.
In this embodiment, the D-shaped tube is composed of a flat surface and an arc surface, and the rotation stopping groove 21 is provided on the flat surface of the illustrated D-shaped tube. The square pipe has the advantages of simple structure, easy molding and strong torsion resistance compared with the traditional square pipe.
In the embodiment, the hoop clamping plate 8 is connected to the D-shaped pipe through bolts, the hoop clamping plate 8 is arranged to be a corresponding concave-table D-shaped hoop, and the upper supporting sleeve 9 is hinged to the hoop clamping plate 8 through bolts. In this structure, adopt staple bolt splint 8 to set up to take concave station D shape staple bolt, its and the epaxial anti-rotation groove 21 cooperation of D shape are used, connect firmly, and set up profile modeling staple bolt and connect the D shape pipe, the atress is even, further torsional properties of this structure, articulates through the bolt between staple bolt splint 8 and the last support cover 9, convenient operation, convenient to detach.
In this embodiment, the support column 1 is provided with a mounting table 11, and the mounting table 11 is hinged with a lower support sleeve 10 through bolts. The mounting table 11 is arranged, the lower support sleeve 10 is hinged through bolts, and the mounting and the dismounting are convenient.
In this embodiment, the toothed bar is inserted and fixed on the lower support sleeve 10 and inserted into the upper support sleeve 9, and the worm wheel 101 engaged with the toothed bar is disposed on the lower support sleeve 10. In this structure, the tooth trace pole is formed into the whole by square pipe and taking tooth trace pole spare through the welding, adopts square pipe reduced cost, tooth trace pole and last support sleeve 9 grafting to fixed through welding and last support sleeve 9, firm in connection is difficult for inefficacy, in this structure, worm wheel 101 and tooth trace pole meshing, change the length of tooth trace pole between upper and lower support sleeve through rotatory worm wheel 101, adjust D shape pipe's rotation angle, thereby adjust photovoltaic panel 6's orientation, make it accept illumination better, its structure is succinct and reliable and stable, its tie point quantity is few, be difficult for inefficacy at the supporting point position than traditional rotatory bearing structure.
In this embodiment, the diagonal brace 5 is provided as a square tube. Compared with the open material, the square tube is a closed section bar, has high structural strength, and is not easy to fail at the joint with the vertical beam 4 and the clamping angle bracket 3.
Example 2:
fig. 6 to 7 show a second embodiment of the rotary single-column photovoltaic support system of the present utility model, which differs from embodiment 1 in that:
the rotary single-column photovoltaic support system of the embodiment comprises a support column 1, wherein a cross beam 2 is sleeved on the support column 1, vertical beams 4 are fixedly arranged on the cross beam 2 along the longitudinal direction at intervals, vertical beams 4 are fixedly connected to the vertical beams 3, inclined supporting rods 5 which are fixedly connected with the vertical beams 4 and form a stable triangular structure are fixedly arranged on the clamping angle codes 3, a photovoltaic panel 6 is arranged on the vertical beams 4, a rotary supporting rod 7 is arranged between the support column 1 and the cross beam 2, the cross beam 2 is arranged into a D-shaped pipe, a rotation stopping groove 21 is formed in the D-shaped pipe, and the rotary supporting rod 7 is arranged into a threaded rod. Compared with the traditional photovoltaic support system, the beam 2 of the rotary single-column photovoltaic support system adopts a D-shaped pipe, the torsion resistance of the beam 2 is enhanced, the rotation stopping groove 21 is formed in the beam 2, the stability of connection of the beam 2 is enhanced, and further, the rotary support rod 7 adopts a threaded rod, so that the rotary single-column photovoltaic support system has a simple structure, is stable and reliable, has fewer connection points and is not easy to fail.
In this embodiment, the threaded rod is threaded through the upper support sleeve 9 and the lower support sleeve 10, and the lower support sleeve 10 is a threaded sleeve. The structure is simple and reliable.
In this embodiment, a rotation handle 71 is provided on the threaded rod. The provision of the rotary handle 71 facilitates rotational adjustment of the length of the threaded rod between the upper and lower support sleeves.
In this embodiment, two sections of reverse threads are arranged on the threaded rod in a segmented manner, the upper supporting sleeve 9 is a threaded sleeve, and the threaded rod is in threaded connection with the upper supporting sleeve 9 and the lower supporting sleeve 10 respectively. In this structure, reverse set up the screw thread, connect simply, ingenious. The threaded rods are respectively in threaded connection with the upper supporting sleeve and the lower supporting sleeve, the connection operation is simple and convenient, the number of connection points is small, and the failure is difficult.
In this embodiment, the diagonal brace 5 is a circular tube, and two ends of the diagonal brace are extruded into a double-wall laminated profile. Compared with the open material, the square tube is a closed section bar, has high structural strength and strong torsion resistance, and the joint parts at the two ends of the square tube are extruded into the double-wall laminated section bar, so that the square tube is convenient to install and convenient to operate.
Example 3:
fig. 8 to 9 show a third embodiment of the rotary single-column photovoltaic rack system of the present utility model, which is substantially identical to embodiment 2, except that:
in this embodiment, a thread is provided on the threaded rod in a through length, and the threaded rod is fixed on the upper support sleeve 9 by a nut and is in threaded connection with the lower support sleeve 10. In this structure, go up supporting sleeve 9 and set up to the screwless cover, the threaded rod can rotate around the axle center in last supporting sleeve 9, its simple structure, convenient operation.
In this embodiment, the diagonal brace 5 is a square tube, and two ends of the diagonal brace are extruded into a double-wall laminated section bar. Compared with the open material, the square tube is a closed section bar, the structure strength is high, the joint parts at the two ends of the square tube are extruded into a double-wall laminated section bar, the installation is convenient, and the operation is convenient.
While the utility model has been described in terms of preferred embodiments, it is not intended to be limiting. Many possible variations and modifications of the disclosed technology can be made by anyone skilled in the art, or equivalent embodiments with equivalent variations can be made, without departing from the scope of the utility model. Therefore, any simple modification, equivalent variation and modification of the above embodiments according to the technical substance of the present utility model shall fall within the scope of the technical solution of the present utility model.
Claims (16)
1. A rotary single-column photovoltaic support system, characterized by: including support post (1), cup jointed crossbeam (2) on support post (1), set up and be equipped with upright beam (4) admittedly through pressing from both sides tight angle sign indicating number (3) along longitudinal direction interval on crossbeam (2), press from both sides tight angle sign indicating number (3) on be equipped with admittedly with upright beam (4) fixed connection and form inclined strut (5) of stable triangle-shaped structure, install photovoltaic panel (6) on upright beam (4), support post (1) with be provided with rotatory bracing piece (7) between crossbeam (2), crossbeam (2) set up to the D venturi tube, be provided with on the D venturi tube and stop change groove (21), rotatory bracing piece (7) set up to the threaded rod.
2. The rotary single-column photovoltaic bracket system of claim 1, wherein: the D-shaped pipe consists of a section of straight surface and a section of arc surface, and the rotation stopping groove (21) is arranged on the straight surface of the D-shaped pipe.
3. The rotary single-column photovoltaic bracket system of claim 2, wherein: the novel steel pipe is characterized in that the hoop clamping plate (8) is connected to the D-shaped pipe through bolts, the hoop clamping plate (8) is arranged to be a corresponding concave-table D-shaped hoop, and the hoop clamping plate (8) is hinged with the upper supporting sleeve (9) through bolts.
4. The rotary single-column photovoltaic bracket system of claim 3, wherein: the support column (1) is provided with an installation table (11), and the installation table (11) is hinged with a lower support sleeve (10) through bolts.
5. The rotary single-column photovoltaic bracket system of claim 4, wherein: the threaded rod is arranged on the upper supporting sleeve (9) and the lower supporting sleeve (10) in a penetrating mode, and the lower supporting sleeve (10) is a threaded sleeve.
6. The rotary single-column photovoltaic bracket system of claim 5, wherein: the threaded rod is provided with a rotary handle (71).
7. The rotary single-column photovoltaic bracket system of claim 6, wherein: the threaded rod is provided with two sections of reverse threads in a segmented mode, the upper supporting sleeve (9) is a threaded sleeve, and the threaded rod is in threaded connection with the upper supporting sleeve (9) and the lower supporting sleeve (10) respectively.
8. The rotary single-column photovoltaic bracket system of claim 6, wherein: the threaded rod is provided with threads in a through length mode, is fixed on the upper supporting sleeve (9) through a nut and is in threaded connection with the lower supporting sleeve (10).
9. The rotary single-column photovoltaic bracket system of claim 7, wherein: the inclined stay bar (5) is a round pipe, and two ends of the inclined stay bar are extruded into a double-wall attached section bar.
10. The rotary single-column photovoltaic bracket system of claim 8, wherein: the inclined stay bar (5) is a square pipe, and two ends of the inclined stay bar are extruded into a double-wall laminated section bar.
11. A rotary single-column photovoltaic support system, characterized by: including support post (1), cup jointed crossbeam (2) on support post (1), set up and be equipped with upright beam (4) admittedly through pressing from both sides tight angle sign indicating number (3) along longitudinal direction interval on crossbeam (2), press from both sides tight angle sign indicating number (3) on be equipped with admittedly with upright beam (4) fixed connection and form inclined strut (5) of stable triangle-shaped structure, install photovoltaic panel (6) on upright beam (4), support post (1) with be provided with rotatory bracing piece (7) between crossbeam (2), crossbeam (2) set up to the D pipe, be provided with on the D pipe and stop change groove (21), rotatory bracing piece (7) set up to the tooth line pole.
12. The rotary single-column photovoltaic bracket system of claim 11, wherein: the D-shaped pipe consists of a section of straight surface and a section of arc surface, and the rotation stopping groove (21) is arranged on the straight surface of the D-shaped pipe.
13. The rotary single-column photovoltaic bracket system of claim 12, wherein: the novel steel pipe is characterized in that the hoop clamping plate (8) is connected to the D-shaped pipe through bolts, the hoop clamping plate (8) is arranged to be a corresponding concave-table D-shaped hoop, and the hoop clamping plate (8) is hinged with the upper supporting sleeve (9) through bolts.
14. The rotary single-column photovoltaic bracket system of claim 13, wherein: the support column (1) is provided with an installation table (11), and the installation table (11) is hinged with a lower support sleeve (10) through bolts.
15. The rotary single-column photovoltaic bracket system of claim 14, wherein: the gear rod is arranged on the lower support sleeve (10) in a penetrating mode and is inserted into and fixed with the upper support sleeve (9), and a worm wheel (101) meshed with the gear rod is arranged on the lower support sleeve (10).
16. The rotary single column photovoltaic bracket system of claim 15, wherein: the inclined stay bars (5) are square pipes.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202320416192.9U CN220122817U (en) | 2023-03-07 | 2023-03-07 | Rotatory single-column photovoltaic braced system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202320416192.9U CN220122817U (en) | 2023-03-07 | 2023-03-07 | Rotatory single-column photovoltaic braced system |
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CN220122817U true CN220122817U (en) | 2023-12-01 |
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CN202320416192.9U Active CN220122817U (en) | 2023-03-07 | 2023-03-07 | Rotatory single-column photovoltaic braced system |
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CN (1) | CN220122817U (en) |
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2023
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Effective date of registration: 20240320 Granted publication date: 20231201 |