CN210041729U - Connecting structure of plug-in photovoltaic support and photovoltaic panel assembly - Google Patents

Abstract

The utility model discloses a belong to photovoltaic power plant technical field, specifically be bayonet photovoltaic support and photovoltaic board subassembly's connection structure, it includes: first loop bar, second loop bar, supplementary loop bar, braced frame, slide bar and photovoltaic board, it has first telescopic link to peg graft in first loop bar top, first loop bar right side sets up the second loop bar, it has the second telescopic link to peg graft in second loop bar top, the articulated supplementary loop bar of first loop bar right side wall, it has supplementary telescopic link to peg graft in supplementary loop bar top, braced frame is connected at first telescopic link, second telescopic link and supplementary telescopic link top, the braced frame bottom is provided with a plurality of articulated seats, and the not unidimensional photovoltaic board of being convenient for is installed and is used, can adjust photovoltaic board support height and support angle, can adjust the slide bar interval, and the not unidimensional photovoltaic board of being convenient for is installed and is used, improves application scope, avoids dismantling many times, facilitates the use.

Description

Connecting structure of plug-in photovoltaic support and photovoltaic panel assembly

Technical Field

The utility model relates to a photovoltaic power plant technical field specifically is bayonet photovoltaic support and photovoltaic board subassembly's connection structure.

Background

The photovoltaic power station is a power generation system which is formed by using solar energy and electronic elements made of special materials such as a crystalline silicon plate, an inverter and the like, and is connected with a power grid and transmits power to the power grid. The photovoltaic power station belongs to the green power development energy project with the greatest national encouragement. At present, the connection mode of a common assembly and a support of a photovoltaic power station is that a steel purline is connected with the assembly through bolts, a photovoltaic plate is easy to damage, the existing connection structure of an inserted photovoltaic support and the photovoltaic plate assembly can only be used for simply connecting and fixing the photovoltaic plate, the supporting height of the photovoltaic plate cannot be adjusted, the installation angle of the photovoltaic plate cannot be adjusted, a supporting frame is of a fixed structure, different photovoltaic plates cannot be installed and used, and therefore the connection structure of the inserted photovoltaic support and the photovoltaic plate assembly is provided.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a connection structure of bayonet photovoltaic support and photovoltaic board subassembly to solve the support height of the unable photovoltaic board of adjusting that proposes in the above-mentioned background art, the installation angle of the unable photovoltaic board of adjusting and the unable photovoltaic board that satisfies difference install and use, the problem.

In order to achieve the above object, the utility model provides a following technical scheme: plug-in photovoltaic support and photovoltaic board subassembly's connection structure, it includes: first loop bar, second loop bar, supplementary loop bar, braced frame, slide bar and photovoltaic board, it has first telescopic link to peg graft in first loop bar top, first loop bar right side sets up the second loop bar, it has the second telescopic link to peg graft in second loop bar top, the articulated supplementary loop bar of first loop bar right side wall, it has supplementary telescopic link to peg graft in supplementary loop bar top, braced frame is connected at first telescopic link, second telescopic link and supplementary telescopic link top, the braced frame bottom is provided with a plurality of articulated seats, the spout has all been opened to braced frame left side both sides, the braced frame has all opened the bar groove in the spout outside, braced frame top and bottom all set up the slide bar, the slide bar bottom all is provided with the slider of mutually supporting the installation with the spout, top and bottom buckle installation photovoltaic board between the slide bar.

Preferably, a plurality of articulated seat is connected with first telescopic link, second telescopic link and the cooperation of auxiliary telescopic link top respectively.

Preferably, all be provided with the regulation hole of mutually supporting between first loop bar and the first telescopic link, between second loop bar and the second telescopic link and between supplementary loop bar and the supplementary telescopic link, first loop bar and first telescopic link, second loop bar and the second telescopic link carry out locking connection through the screw with the regulation hole between supplementary loop bar and the supplementary telescopic link.

Preferably, the slider is provided with mounting holes matched with the strip-shaped grooves, and the strip-shaped grooves are in locking connection with the mounting holes of the slider through screws.

Preferably, the slide bar is provided with a plurality of water leakage holes which are uniformly distributed on the slide bar.

Preferably, a protection pad is arranged between the sliding rod and the photovoltaic panel and is made of rubber.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model provides a plug-in photovoltaic support and photovoltaic board subassembly's connection structure, through adjusting the extension length of first telescopic link on first telescopic link, adjust first telescopic link to the left bearing height of photovoltaic board, through adjusting the extension length of second telescopic link on the second telescopic link, adjust the bearing height of second telescopic link to photovoltaic board right side, support photovoltaic board intermediate position through supplementary telescopic link, improve support stability, through the position of removing the slider in the spout, adjust the position of two slide bars on braced frame, be convenient for not unidimensional photovoltaic board installation and use, can adjust photovoltaic board bearing height and support angle, can adjust the slide bar interval, be convenient for not unidimensional photovoltaic board installation and use, improve application scope, avoid dismantling many times, and convenient to use.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the slider connection structure of the present invention;

FIG. 3 is a schematic view of the slide bar structure of the present invention;

fig. 4 is a schematic view of the structure of the supporting frame of the present invention.

In the figure: 100 first loop bars, 110 first telescopic bars, 200 second loop bars, 210 second telescopic bars, 300 auxiliary loop bars, 310 auxiliary telescopic bars, 400 supporting frames, 410 hinged seats, 420 sliding grooves, 430 strip-shaped grooves, 500 sliding bars, 510 sliding blocks and 600 photovoltaic panels.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The utility model provides a bayonet photovoltaic support and photovoltaic board subassembly's connection structure can adjust photovoltaic board bearing height and support angle, can adjust the slide bar interval, and the not unidimensional photovoltaic board of being convenient for is installed and is used, improves application scope, avoids dismantling many times, facilitates the use, please refer to figure 1, include: a first bar 100, a second bar 200, an auxiliary bar 300, a support frame 400, a sliding bar 500, and a photovoltaic panel 600;

referring to fig. 1 again, the first telescopic rod 100 includes a first telescopic rod 110, specifically, the first telescopic rod 110 is inserted into the top of the first telescopic rod 100, the supporting height of the first telescopic rod 100 on the left side of the photovoltaic panel 600 is adjusted by adjusting the extending length of the first telescopic rod 110 on the first telescopic rod 100, and both the first telescopic rod 100 and the first telescopic rod 110 are made of stainless steel.

Referring to fig. 1 again, the second loop bar 200 includes a second telescopic bar 210, specifically, the top of the second loop bar 200 is inserted into the second telescopic bar 210, the supporting height of the second loop bar 200 on the right side of the photovoltaic panel 600 is adjusted by adjusting the extending length of the second telescopic bar 210 on the second loop bar 200, and both the second loop bar 200 and the second telescopic bar 210 are made of stainless steel.

Referring to fig. 1 again, the auxiliary loop bar 300 includes an auxiliary telescopic rod 310, specifically, the bottom of the auxiliary loop bar 300 is hinged to the right side wall of the first loop bar 100, the auxiliary telescopic rod 310 is inserted into the top of the auxiliary loop bar 300, after the supporting height of the photovoltaic panel 600 is adjusted by the first loop bar 100 and the second loop bar 200, the middle position of the photovoltaic panel 600 is supported by the auxiliary telescopic rod 310, so that the supporting stability is improved, and the auxiliary loop bar 300 and the auxiliary telescopic rod 310 are made of stainless steel.

Referring to fig. 1, 2 and 4, the supporting frame 400 includes a hinge base 410, a sliding groove 420 and a strip-shaped groove 430, specifically, three hinge bases 410 are welded at the bottom of the supporting frame 400 and are respectively connected with the first telescopic rod 110, the second telescopic rod 210 and the auxiliary telescopic rod 310 through the three hinge bases 410, the sliding grooves 420 are respectively formed on the connecting rods at two sides of the supporting frame 400, the sliding grooves 420 are used for installing the sliding blocks 510 on the sliding rods 500, the strip-shaped grooves 430 communicated with the sliding grooves 420 are formed on the side surfaces of the connecting rods at two sides of the supporting frame 400, when the sliding blocks 510 slide on the sliding grooves 420, the sliding blocks 510 are locked through the strip-shaped grooves 430 by screws, so as to fix the positions of the sliding rods 500, and the supporting frame 400.

Referring to fig. 1, fig. 2 and fig. 4 again, the sliding rod 500 includes a sliding block 510, specifically, the sliding blocks 510 are welded to the bottoms of the left and right sides of the sliding rod 500, the sliding blocks 510 are installed in the sliding grooves 420, and the positions of the two sliding rods 500 on the supporting frame 400 are adjusted by moving the positions of the sliding blocks 510 in the sliding grooves 420, so as to facilitate the installation and use of the photovoltaic panels 600 with different sizes.

Referring again to fig. 1, a photovoltaic panel 600 is fastened between the two sliding bars 500, and the photovoltaic panel 600 is used for solar power generation.

During specific use, through adjusting the extension length of first telescopic link 110 on first loop bar 100, adjust the first loop bar 100 to the left bearing height of photovoltaic board 600, through adjusting the extension length of second telescopic link 210 on second loop bar 200, adjust the bearing height of second loop bar 200 to photovoltaic board 600 right side, support photovoltaic board 600 intermediate position through supplementary telescopic link 310, improve the support stability, through the position of removal slider 510 in spout 420, adjust the position of two slide bars 500 on braced frame 400, be convenient for different sizes photovoltaic board 600 installation uses.

Referring to fig. 1 again, for the convenience of installation, a plurality of the hinge bases 410 are respectively connected to the tops of the first telescopic rod 110, the second telescopic rod 210 and the auxiliary telescopic rod 310 in a matching manner.

In order to facilitate installation and use, adjusting holes which are matched with each other are respectively formed between the first loop bar 100 and the first telescopic bar 110, between the second loop bar 200 and the second telescopic bar 210 and between the auxiliary loop bar 300 and the auxiliary telescopic bar 310, and the adjusting holes between the first loop bar 100 and the first telescopic bar 110, between the second loop bar 200 and the second telescopic bar 210 and between the auxiliary loop bar 300 and the auxiliary telescopic bar 310 are in locking connection through screws.

In order to facilitate installation and use, the sliding blocks 510 are provided with mounting holes matched with the strip-shaped grooves 430, and the strip-shaped grooves 430 are connected with the mounting holes of the sliding blocks 510 in a locking manner through screws.

While the invention has been described above with reference to an embodiment, various modifications may be made and equivalents may be substituted for elements thereof without departing from the scope of the invention. In particular, as long as there is no structural conflict, the various features of the disclosed embodiments of the present invention can be used in any combination with each other, and the description of such combinations is not exhaustive in the present specification only for the sake of brevity and resource conservation. Therefore, it is intended that the invention not be limited to the particular embodiments disclosed, but that the invention will include all embodiments falling within the scope of the appended claims.

Claims (6)

1. Plug-in photovoltaic support and photovoltaic board subassembly's connection structure, its characterized in that: the method comprises the following steps: the photovoltaic panel comprises a first loop bar (100), a second loop bar (200), an auxiliary loop bar (300), a supporting frame (400), a sliding bar (500) and a photovoltaic panel (600), wherein a first telescopic rod (110) is inserted into the top of the first loop bar (100), the second loop bar (200) is arranged on the right side of the first loop bar (100), a second telescopic rod (210) is inserted into the top of the second loop bar (200), the auxiliary loop bar (300) is hinged to the right side wall of the first loop bar (100), the auxiliary telescopic rod (310) is inserted into the top of the auxiliary loop bar (300), the supporting frame (400) is connected to the tops of the first telescopic rod (110), the second telescopic rod (210) and the auxiliary telescopic rod (310), a plurality of hinged seats (410) are arranged at the bottom of the supporting frame (400), sliding grooves (420) are formed in both sides of the left side of the supporting frame (400), and strip-shaped grooves (430) are formed in the outer sides of the sliding grooves (420), the photovoltaic panel supporting frame is characterized in that sliding rods (500) are arranged at the top and the bottom of the supporting frame (400), sliding blocks (510) which are matched with the sliding grooves (420) in an installation mode are arranged at the bottom of the sliding rods (500), and photovoltaic panels (600) are installed between the sliding rods (500) in a buckling mode.

2. The structure of claim 1, wherein the at least one photovoltaic support comprises at least one of: the plurality of hinged seats (410) are respectively connected with the tops of the first telescopic rod (110), the second telescopic rod (210) and the auxiliary telescopic rod (310) in a matched mode.

3. The structure of claim 1, wherein the at least one photovoltaic support comprises at least one of: all be provided with the regulation hole of mutually supporting between first loop bar (100) and first telescopic link (110), between second loop bar (200) and second telescopic link (210) and between supplementary loop bar (300) and supplementary telescopic link (310), regulation hole between first loop bar (100) and first telescopic link (110), second loop bar (200) and second telescopic link (210) and supplementary loop bar (300) and supplementary telescopic link (310) carries out locking connection through the screw.

4. The structure of claim 1, wherein the at least one photovoltaic support comprises at least one of: all open on slider (510) with bar groove (430) complex mounting hole, bar groove (430) pass through screw locking connection with the mounting hole of slider (510).

5. The structure of claim 1, wherein the at least one photovoltaic support comprises at least one of: a plurality of water leakage holes are formed in the sliding rod (500), and the water leakage holes are uniformly distributed on the sliding rod (500).

6. The structure of claim 1, wherein the at least one photovoltaic support comprises at least one of: a protection pad is arranged between the sliding rod (500) and the photovoltaic panel (600), and the protection pad is made of rubber.

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