CN216959749U - Polycrystal solar photovoltaic board subassembly - Google Patents

Polycrystal solar photovoltaic board subassembly Download PDF

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Publication number
CN216959749U
CN216959749U CN202123198380.9U CN202123198380U CN216959749U CN 216959749 U CN216959749 U CN 216959749U CN 202123198380 U CN202123198380 U CN 202123198380U CN 216959749 U CN216959749 U CN 216959749U
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fixedly connected
groups
fixed
plate
shell
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CN202123198380.9U
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Chinese (zh)
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宋启宏
李宁秀
陈七金
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Xiamen Jumao New Energy Co ltd
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Xiamen Jumao New Energy Co ltd
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    • YGENERAL 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
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E10/00Energy generation through renewable energy sources
    • Y02E10/50Photovoltaic [PV] energy

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Abstract

The utility model discloses a polycrystalline solar photovoltaic panel assembly which comprises a fixing frame, wherein a supporting column is fixedly connected to the upper end of the fixing frame, an adjusting mechanism is fixedly connected to the upper end of the supporting column, a solar panel is fixedly mounted on the inner side of the adjusting mechanism, the adjusting mechanism comprises a shell fixedly connected to the upper end of the supporting column, a groove plate is arranged on the inner side of the shell close to the upper end, cylindrical blocks are fixedly connected to the two ends of the rear side of the groove plate, sliding grooves are formed in the inner walls of the two sides of the shell respectively close to the two groups of the cylindrical blocks, and two groups of first rotating shaft frames are fixedly connected to the lower end of the groove plate close to the front side. The polycrystalline solar photovoltaic panel assembly provided by the utility model can be effectively and quickly adjusted to an optimal inclination angle, absorbs sunlight, enhances the practicability of the assembly, and is suitable for fixing at various angles during installation, so that the installation speed and the working efficiency are greatly improved.

Description

Polycrystal solar photovoltaic board subassembly
Technical Field
The utility model relates to the technical field of solar energy, in particular to a polycrystalline solar photovoltaic panel assembly.
Background
Traditional polycrystal solar photovoltaic board subassembly still has some shortcomings, and photovoltaic board subassembly when the installation, only adopts the certain angle of simple slope to fix, and at first the angle of photovoltaic board can not be adjusted, need adjust when fixed whether effective absorption sunshine with the angle of sunshine, the practicality is relatively poor, and the problem of angle need be considered during secondly fixed mounting, can make the installation rate slow, the inefficiency step-down.
SUMMERY OF THE UTILITY MODEL
The utility model mainly aims to provide a polycrystalline solar photovoltaic panel component which can effectively solve the problems in the background technology.
In order to realize the purpose, the utility model adopts the technical scheme that:
a polycrystalline solar photovoltaic panel assembly comprises a fixing frame, wherein a supporting column is fixedly connected to the upper end of the fixing frame, an adjusting mechanism is fixedly connected to the upper end of the supporting column, and a solar panel is fixedly mounted on the inner side of the adjusting mechanism;
the adjusting mechanism comprises a shell fixedly connected to the upper end of a supporting column, a groove plate is arranged on the inner side of the shell close to the upper end, two ends of the rear side of the groove plate are fixedly connected with cylindrical blocks, the inner walls of the two sides of the shell are respectively provided with a sliding groove close to the positions of the two groups of cylindrical blocks, the lower end of the groove plate close to the front side is respectively and fixedly connected with two groups of first rotating shaft frames, the inner sides of the two groups of first rotating shaft frames are respectively and movably connected with a supporting rod, the rear ends of the two groups of supporting rods are respectively and movably connected with a second rotating shaft frame, the inner side of the rear end of the groove plate is respectively and movably connected with two groups of rotating rings, the lower ends of the two groups of rotating rings are respectively and fixedly connected with a fixed block, the lower ends of the two groups of fixed blocks are respectively and fixedly connected with a control rod, the lower ends of the front sides of the two groups of control rods are respectively and fixedly connected with a fixed tube, two sets of the equal fixedly connected with movable rod in inboard of fixed pipe, two sets of the outside of movable rod is close to intermediate position swing joint has a fixed plate, and is two sets of the front end fixedly connected with movable plate of movable rod, the inboard swing joint of fixed plate and movable plate has the threaded rod, the front end fixedly connected with of threaded rod rotates the handle.
Preferably, the cylindrical block is matched with the sliding groove, and the second rotating shaft frame is fixedly connected with the inner walls of the two sides of the shell.
Preferably, the fixed block is fixedly connected to the upper end of the control rod at a position close to the rear side, and the two groups of connecting blocks are mirror-symmetrical.
Preferably, the fixed tube is installed between the fixed plate and the movable plate, and the fixed plate is fixedly connected with the bottom of the inner side of the shell.
Preferably, the moving plate is in threaded connection with a threaded rod, and the front end of the threaded rod penetrates through the inner wall of the front side of the shell.
Preferably, the solar panel is fixedly mounted on the inner side of the groove plate.
Compared with the prior art, the utility model has the following beneficial effects:
firstly, a rotating handle is rotated to drive a threaded rod to rotate, at the moment, the rotation of the threaded rod can pull a moving plate in threaded connection to move towards the front side and can pull two fixed groups of movable rods and two fixed groups of tubes simultaneously, and because the two fixed groups of tubes are connected with two groups of control rods through two groups of fixedly connected connecting blocks, the two groups of control rods can pull two groups of control rods to move when moving, and the two groups of control rods are movably connected with the rear end of a groove plate through two groups of fixedly connected fixed blocks and rotating rings, so the two groups of control rods can pull the rear end of the groove plate to move forwards to enable two groups of columnar blocks to slide in two groups of chutes, and meanwhile, the groove plate is connected through two groups of supporting rods to enable the front end of the groove plate to tilt upwards, thereby the angle of the solar panel and sunlight is changed, the fixed angle of the solar panel is changed into an adjustable type, and the optimal inclination angle can be adjusted more effectively and quickly, absorb sunshine, strengthened its practicality, secondly when the installation adapt to various different angles fixed, improved installation rate and work efficiency greatly.
Drawings
Fig. 1 is a schematic view of the overall structure of a polycrystalline solar photovoltaic panel assembly according to the present invention;
FIG. 2 is a schematic view of a partially cut-away structure of a control mechanism of a polycrystalline solar photovoltaic panel assembly according to the present invention;
FIG. 3 is a schematic view of a partially cut-away structure of a control mechanism of a polycrystalline solar photovoltaic panel assembly according to the present invention;
fig. 4 is a schematic view of a partially cut-away structure of a control mechanism of a polycrystalline solar photovoltaic panel assembly according to the present invention.
In the figure: 1. a fixed mount; 2. a support pillar; 3. an adjustment mechanism; 31. a housing; 32. a groove plate; 33. A cylindrical block; 34. a chute; 35. a first spindle bracket; 36. a support bar; 37. a second rotating shaft bracket; 38. A rotating ring; 39. a fixed block; 310. a control lever; 311. connecting blocks; 312. a fixed tube; 313. a movable rod; 314. a fixing plate; 315. moving the plate; 316. a threaded rod; 317. rotating the handle; 4. a solar panel.
Detailed Description
In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the utility model easy to understand, the utility model is further described with the specific embodiments.
As shown in fig. 1-4, a polycrystalline solar photovoltaic panel assembly comprises a fixed frame 1, wherein a support column 2 is fixedly connected to the upper end of the fixed frame 1, an adjusting mechanism 3 is fixedly connected to the upper end of the support column 2, and a solar panel 4 is fixedly mounted on the inner side of the adjusting mechanism 3;
the adjusting mechanism 3 comprises a shell 31 fixedly connected to the upper end of the supporting column 2, a groove plate 32 is arranged on the inner side of the shell 31 close to the upper end, two ends of the rear side of the groove plate 32 are fixedly connected with column blocks 33, sliding grooves 34 are respectively arranged on the inner walls of two sides of the shell 31 close to the two groups of column blocks 33, two groups of first rotating shaft frames 35 are respectively and fixedly connected to the lower end of the groove plate 32 close to the front side, supporting rods 36 are respectively and movably connected to the inner sides of the two groups of first rotating shaft frames 35, a second rotating shaft frame 37 is respectively and movably connected to the rear ends of the two groups of supporting rods 36, two groups of rotating rings 38 are respectively and movably connected to the inner side of the rear end of the groove plate 32, fixed blocks 39 are respectively and fixedly connected to the lower ends of the two groups of rotating rings 38, control rods 310 are respectively and fixedly connected to the lower ends of the two groups of fixed blocks 39, connecting blocks 311 are respectively and fixedly connected to the lower ends of the front sides of the two groups of control rods 310, fixed tubes 312 are respectively and fixedly connected to one side of the two groups of the connecting blocks 311, the inner sides of the two groups of fixed tubes 312 are fixedly connected with movable rods 313, the outer sides of the two groups of movable rods 313 are movably connected with a fixed plate 314 close to the middle position, the front ends of the two groups of movable rods 313 are fixedly connected with a moving plate 315, the inner sides of the fixed plate 314 and the moving plate 315 are movably connected with a threaded rod 316, and the front end of the threaded rod 316 is fixedly connected with a rotating handle 317.
In this embodiment, the cylindrical block 33 is adapted to the sliding groove 34, the second rotating shaft frame 37 is fixedly connected to the inner walls of the two sides of the housing 31, the fixing block 39 is fixedly connected to the upper end of the control rod 310 near the rear position, the two sets of connecting blocks 311 are mirror-symmetric, the fixing tube 312 is installed between the fixing plate 314 and the moving plate 315, the fixing plate 314 is fixedly connected to the bottom of the inner side of the housing 31, the moving plate 315 is in threaded connection with the threaded rod 316, the front end of the threaded rod 316 penetrates through the inner wall of the front side of the housing 31, and the solar panel 4 is fixedly installed on the inner side of the groove plate 32.
Specifically, the rotating handle 317 is rotated to drive the threaded rod 316 to rotate, at this time, the rotation of the threaded rod 316 will pull the moving plate 315 connected by the threads to move forward, and at the same time, will pull the two fixed sets of movable rods 313 and the two fixed sets of tubes 312, and because the two fixed sets of tubes 312 are connected to the two sets of control rods 310 through the two fixed sets of connecting blocks 311, the two fixed sets of tubes 312 will pull the two sets of control rods 310 to move when moving, and the two sets of control rods 310 are movably connected to the rear end of the groove plate 32 through the two fixed sets of fixed blocks 39 and the rotating ring 38, so the two sets of control rods 310 will pull the rear end of the groove plate 32 to move forward, so that the two sets of cylindrical blocks 33 slide in the two sets of sliding grooves 34, and at the same time, the groove plate 32 is connected by the two sets of supporting rods 36, so that the front end of the groove plate 32 tilts upward, thereby changing the angle between the solar panel 4 and the sunlight, fixed angle through solar panel 4 becomes adjustable, more effective swift regulation to best inclination, absorbs sunshine, has strengthened its practicality, secondly adapts to various different angles fixed when the installation, has improved installation rate and work efficiency greatly.
The working principle is as follows:
when the solar energy collecting device is used, firstly, the rotating handle 317 is rotated to drive the threaded rod 316 to rotate, at the moment, the rotating of the threaded rod 316 can pull the moving plate 315 connected by the threads to move forwards, and simultaneously can pull the two groups of fixed movable rods 313 and the two groups of fixed tubes 312, and because the two groups of fixed tubes 312 are connected with the two groups of control rods 310 through the two groups of fixedly connected fixed blocks 39 and the two groups of fixed rings 38, the two groups of fixed tubes 312 are connected with the two groups of control rods 310 through the two groups of fixedly connected fixed blocks 311, so that the two groups of control rods 310 can pull the rear end of the groove plate 32 to move forwards, so that the two groups of column blocks 33 slide in the two groups of sliding grooves 34, and meanwhile, the groove plate 32 is connected by the two groups of supporting rods 36, so that the front end of the groove plate 32 tilts upwards, thereby changing the angle between the solar panel 4 and sunlight, fixed angle through solar panel 4 becomes adjustable, more effective swift regulation to best inclination, absorbs sunshine, has strengthened its practicality, secondly adapts to various different angles fixed when the installation, has improved installation rate and work efficiency greatly.
The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the utility model as claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (6)

1. The utility model provides a polycrystal solar photovoltaic board subassembly, includes mount (1), its characterized in that: the upper end of the fixed frame (1) is fixedly connected with a supporting column (2), the upper end of the supporting column (2) is fixedly connected with an adjusting mechanism (3), and the inner side of the adjusting mechanism (3) is fixedly provided with a solar panel (4);
the adjusting mechanism (3) comprises a shell (31) fixedly connected to the upper end of the supporting column (2), a groove plate (32) is arranged on the inner side of the shell (31) close to the upper end, column-shaped blocks (33) are fixedly connected to the positions of the two ends of the rear side of the groove plate (32), sliding grooves (34) are formed in the positions of the inner walls of the two sides of the shell (31) close to the two groups of column-shaped blocks (33), sliding grooves (34) are formed in the positions of the lower end of the groove plate (32) close to the front side and are fixedly connected with two groups of first rotating shaft frames (35), supporting rods (36) are movably connected to the inner sides of the two groups of first rotating shaft frames (35), a second rotating shaft frame (37) is movably connected to the positions of the rear ends of the two groups of supporting rods (36), two groups of rotating rings (38) are movably connected to the inner side positions of the rear end of the groove plate (32), and fixing blocks (39) are fixedly connected to the lower ends of the two groups of rotating rings (38), two sets of the equal fixedly connected with control lever (310) of lower extreme of fixed block (39), it is two sets of the equal fixedly connected with connecting block (311) of front side lower extreme of control lever (310), it is two sets of fixed pipe (312), two sets of the equal fixedly connected with movable rod (313) in inboard of fixed pipe (312), it is two sets of intermediate position swing joint is close to in the outside of movable rod (313) has fixed plate (314), two sets of the front end fixedly connected with movable plate (315) of movable rod (313), the inboard swing joint of fixed plate (314) and movable plate (315) has threaded rod (316), the front end fixedly connected with of threaded rod (316) rotates handle (317).
2. The polycrystalline solar photovoltaic panel assembly of claim 1, wherein: the cylindrical block (33) is matched with the sliding groove (34), and the second rotating shaft frame (37) is fixedly connected with the inner walls of the two sides of the shell (31).
3. The polycrystalline solar photovoltaic panel assembly of claim 1, wherein: the fixed block (39) is fixedly connected to the upper end of the control rod (310) and close to the rear position, and the two groups of connecting blocks (311) are mirror-symmetrical.
4. The polycrystalline solar photovoltaic panel assembly according to claim 1, wherein: the fixed tube (312) is arranged between the fixed plate (314) and the moving plate (315), and the fixed plate (314) is fixedly connected with the bottom of the inner side of the shell (31).
5. The polycrystalline solar photovoltaic panel assembly of claim 1, wherein: the moving plate (315) is in threaded connection with a threaded rod (316), and the front end of the threaded rod (316) penetrates through the inner wall of the front side of the shell (31).
6. The polycrystalline solar photovoltaic panel assembly according to claim 1, wherein: the solar panel (4) is fixedly arranged on the inner side of the groove plate (32).
CN202123198380.9U 2021-12-20 2021-12-20 Polycrystal solar photovoltaic board subassembly Active CN216959749U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202123198380.9U CN216959749U (en) 2021-12-20 2021-12-20 Polycrystal solar photovoltaic board subassembly

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202123198380.9U CN216959749U (en) 2021-12-20 2021-12-20 Polycrystal solar photovoltaic board subassembly

Publications (1)

Publication Number Publication Date
CN216959749U true CN216959749U (en) 2022-07-12

Family

ID=82311510

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202123198380.9U Active CN216959749U (en) 2021-12-20 2021-12-20 Polycrystal solar photovoltaic board subassembly

Country Status (1)

Country Link
CN (1) CN216959749U (en)

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