CN109428541B

CN109428541B - Solar panel structure

Info

Publication number: CN109428541B
Application number: CN201710499826.0A
Authority: CN
Inventors: 郑恢康; 詹洪坚
Original assignee: Suoyisi Xiamen Technology Co ltd
Current assignee: Suoyisi Xiamen Technology Co ltd
Priority date: 2017-06-27
Filing date: 2017-06-27
Publication date: 2022-03-22
Anticipated expiration: 2037-06-27
Also published as: CN109428541A

Abstract

The invention relates to a solar panel structure which comprises a supporting stand and a solar panel assembly connected to the supporting stand, wherein the solar panel assembly comprises at least one group of solar panels, each group of solar panels comprises at least one solar panel, the supporting stand comprises a plurality of supporting units, the supporting units are arranged to form an M x N matrix structure, M is more than or equal to 2, N is more than or equal to 2, and the solar panels are connected between two adjacent rows of supporting units. The supporting units are formed by the supporting frames, the supporting frame with the matrix structure is formed by the supporting units, and the supporting frame is designed in a non-penetrating mode, so that the damage of the solar panel structure to a roof is reduced.

Description

Solar panel structure

Technical Field

The invention relates to the field of solar panels, in particular to a solar panel structure.

Background

The solar panel is a core part in the solar power generation system and is also the most valuable part in the solar power generation system. The solar energy is converted into electric energy, or the electric energy is sent to a storage battery for storage, or a load is pushed to work. The solar panel support is a special support designed for placing, installing and fixing a solar panel in a solar photovoltaic power generation system.

For a roof or other places where piling is inconvenient, the solar panel is generally installed by laying cross beams and longitudinal beams penetrating the roof on the roof to form a solar panel bracket and then connecting the solar panel on the cross beams and the longitudinal beams through connecting pieces. In the current solar panel structure, the installation of a support stand for installing the solar panel is too complex, the damage to a roof is too large, and the connection between the solar panel and the support stand is also complex.

Disclosure of Invention

The invention aims to provide a solar panel structure, wherein a support stand is designed in a non-permeable mode, the damage of the solar panel structure to a roof can be reduced, and the support stand is simple in structure, so that the solar panel structure is simpler to mount.

In order to realize the technical problem, the technical scheme adopted by the invention is as follows:

the utility model provides a solar panel structure, its includes the support pallet and connects the solar panel component on the support pallet, solar panel component includes at least a set of solar panel, and every group solar panel includes an at least solar panel, the support pallet includes a plurality of support unit, and this support unit arranges the matrix structure that forms a M N, and M is greater than or equal to 2, and N is greater than or equal to 2, solar panel connects between the support unit of two adjacent lines.

And a counterweight is arranged on the supporting unit.

The supporting unit comprises at least two supporting frames and a cross rod connected between the supporting frames.

Every group solar panel includes two above solar panels, connects through middle supporting unit between the two adjacent solar panels, one solar panel in two adjacent solar panels is connected to at least one support frame of middle supporting unit, and another solar panel is connected to other support frames of this middle supporting unit.

The support frame that connects two solar panel in the support pallet includes the middle support and connects preceding support and the back support at middle support both ends.

The support frame that only connects a solar panel in the support frame platform is equipped with the front branch strut or the back branch strut that middle branch strut was equipped with middle branch strut and connected.

The length of the front support of the support frame is smaller than that of the rear support.

One side of the solar panel is connected with the front support of the front row of supporting units through the connecting piece, and the other side of the solar panel is connected with the rear support of the rear row of supporting units through the connecting piece.

The support frame is of an integrated structure.

The solar panel is provided with a frame, the connecting piece comprises a supporting seat connected to the top of the supporting frame, a supporting table capable of clamping the solar panel frame is arranged on the supporting seat, the supporting table is provided with a first side wall and a second side wall, the first side wall is attached to the side wall of the supporting frame, a fastening nut capable of supporting the solar panel is arranged on the first side wall, and a clamping hook capable of hooking the solar panel frame is arranged on the second side wall.

The supporting seat is connected with the supporting frame through a fixing bolt, the first side wall extends downwards to form a fixing portion, and the fixing bolt penetrates through the supporting frame and then is locked with the fixing portion.

The upper end of the first side wall of the supporting seat is provided with a clamping hook which can hook the supporting frame.

The support frame is of a split structure, and the front support and the middle support and the rear support and the middle support are connected through connecting angle pieces.

The connecting piece is including connecting the fixing base at the carriage top and connecting the briquetting on the fixing base, be equipped with a supporting bench on the fixing base, be equipped with one on the briquetting and prop up the blank holder that the platform corresponds with a supporting bench, the supporting bench of blank holder cooperation fixing base on the briquetting presss from both sides the solar panel edge between blank holder and supporting bench.

The periphery of the solar panel is provided with a frame, and bosses capable of limiting the solar frame are arranged on two opposite sides of the supporting table of the fixing seat.

The fixing seat is provided with a concave table, the upper part of the concave table is pressed against the top end of the side wall of the support frame, and the lower part of the concave table is embedded into the support frame.

An inner clamping hook is connected in the concave table of the fixed seat, and the pressing block is connected to the inner clamping hook through a bolt.

A spring is arranged between the pressing block and the inner clamping hook, and the bolt penetrates through the pressing block and the spring in sequence and then is connected with the inner clamping hook.

The supporting units are formed by the supporting frames, the supporting frame with the matrix structure is formed by the supporting units, and the supporting frame is designed in a non-penetrating mode, so that the damage of the solar panel structure to a roof is reduced. The solar panel components in the solar panel structure are connected through the supporting units in each row, and the solar panels in each group of solar panels are connected through the middle supporting units, so that the solar panels form a whole body, and the stability and the wind resistance of the solar panel structure are enhanced.

In addition, the solar panel assembly mounting device adopts the connecting piece which has a simple structure and can be mounted at any position of the solar panel after being matched with the supporting frame, so that the mounting flexibility of the solar panel assembly is improved, and the solar panel structure is simpler to mount.

Drawings

FIG. 1 is a schematic view of a solar panel according to an embodiment;

FIG. 2 is a schematic view of a connector structure according to an embodiment;

FIG. 3 is a schematic structural diagram of a supporting unit according to an embodiment;

FIG. 4 is a schematic structural diagram of a second solar panel according to an embodiment;

FIG. 5 is a schematic view of a second embodiment of a connector;

FIG. 6 is a schematic structural diagram of a second supporting unit according to an embodiment.

Detailed Description

In order to make the technical content, structural features, objectives and functions of the present invention exhaustive, the following embodiments are described in detail with reference to the accompanying drawings.

The invention discloses a solar panel structure, which comprises a support stand 200 and a solar panel assembly 100 connected to the support stand 200, wherein the solar panel assembly 100 comprises at least one group of solar panels 110, the support stand 200 comprises a plurality of support units 210, the support units 210 are arranged to form an M x N matrix structure, M is more than or equal to 2, N is more than or equal to 2, the support units 210 comprise at least two support frames 211 and cross rods 212 connected between the support frames 211, and the support frames 211 comprise a middle support 2112, a front support 2111 and a rear support 2113 which are connected with two ends of the middle support 2112; the solar panel 110 is connected between two adjacent rows of the support units 210, one side of the solar panel 110 is connected to the front support 2111 of the previous row of the support units 210 by a connecting member, and the other side is connected to the rear support 2113 of the next row of the support units 210 by a connecting member.

In order to enhance the stability of the support stand 200, a weight may be provided on the support unit 210.

Referring to fig. 1 to 3, the supporting unit 210 in the present embodiment is composed of two supporting frames and a cross bar 212 connected between the supporting frames 211. When a group of solar panels 110 includes more than two solar panels 110, two adjacent solar panels 110 are connected by the middle support unit 210, one support frame of the middle support unit 210 is connected to one solar panel 110 of the two adjacent solar panels 110, and the other support frame 211 of the middle support unit 210 is connected to the other solar panel 110. The connection of the middle support unit 210 between the solar panels 110 can enable each group of solar panels 110 to form a whole, which enhances the stability of the solar panel assembly 100.

In this embodiment, front support 2111, intermediate support 2112, and rear support 2113 are a unitary structure. The length of the front support 2111 of the support frame 211 is smaller than that of the rear support 2113, so that when the solar module is installed on a flat roof, the solar panel 110 has a certain inclination angle, and the solar panel 110 can receive solar energy to the maximum extent.

In order to save cost, the support frame 211 of the support rack 200, which is connected to only one solar panel 110, is configured to be L-shaped, that is, the support frame 211 of the first row of support units 210 is L-shaped, that is, the support frame 211 is composed of a front support 2111 and a middle support 2112, and the support frame 211 of the last row of support units 210 is also L-shaped, that is, the support frame 211 is composed of a rear support 2113 and a middle support 2112.

The solar panel 110 of this embodiment has a frame 111, the connecting member includes a supporting base 310 connected to the top of the supporting base 211, a supporting base 312 capable of engaging with the frame 111 of the solar panel 110 is disposed on the supporting base 310, the supporting base 312 has a first side wall 3121 and a second side wall 3122, the first side wall 3121 is attached to the side wall of the supporting base 211, and a fastening bolt 311 capable of supporting the solar panel 110 is disposed on the first side wall 3121.

A hook may be disposed on the second side 3122 of the support table 312, and the hook may hook the side of the frame 111 of the solar panel 110, so as to prevent the solar panel 110 from sliding off the support table when no conventional pressing block is used.

The first side wall 3121 of the support platform 312 and the support frame 211 may be connected by the fixing bolt 314, or the first side wall 3121 of the support platform 312 and the side wall of the support frame 211 may be directly and fixedly connected as a whole. When the fixing bolt 314 is used for fixing, the first side wall 3121 extends downwards to form the fixing portion 313, a fixing hole is formed on the fixing portion 313, and the fixing bolt 314 passes through the supporting frame 211 and then is locked with the fixing hole of the fixing portion 313.

In order to make the connection between the supporting seat 310 and the supporting frame 211 more stable, a hook is disposed at the upper end of the first side wall 3121 of the supporting seat 310, and the hook can hook the side wall of the supporting frame 211, so as to avoid the connection between the supporting seat 310 and the supporting frame 211 from being affected by the circular motion around the bolt 314.

When the solar panel assembly 100 in this embodiment is installed, the supporting seat 310 is first connected to the top of the supporting seat 211, and when the solar panel assembly is connected, the hooks on the first side wall 3121 are clipped on the side wall of the supporting seat 211, and then the fixing bolt 314 passes through the supporting seat 211 and then is locked with the fixing portion 313 of the supporting seat 310, thereby realizing the connection between the supporting seat 211 and the supporting seat 310. Then, the frame 111 of the solar panel 110 is clamped into the support 312 of the support base 310, and the fastening bolt 311 is rotated continuously, so that the fastening bolt 313 presses against the side edge of the solar panel 110, thereby achieving the fastening connection between the solar panel 110 and the support base 310. The support frame 211 can be connected to any position of the edge of the solar panel 110 through the connecting member, so that the flexibility of installing the solar panel 110 is improved.

Referring to fig. 4 to 6, unlike the above embodiment, in this embodiment, the front support 2111, the middle support 2112 and the rear support 2113 are of a split structure, the front support 2111 and the middle support 2112 and the rear support 2113 and the middle support 2112 are connected by the connecting angle piece 2114, and the different connecting angle pieces 2114 make the included angle between the middle support 2112 and the front support 2111 and the rear support 2113 different, that is, the angles of the front support 2111 and the rear support 2113 of the support frame 211 can be changed by changing the connecting angle piece 2114, thereby changing the inclination angle of the solar panel 110.

The connecting member in this embodiment includes a fixing base 321 connected to the top of the supporting frame 211 and a pressing block 322 connected to the fixing base 321, a supporting platform 3211 is disposed on the fixing base 321, an edge 3221 corresponding to the supporting platform 321 is disposed on the pressing block 322, and the edge 3221 on the pressing block 322 cooperates with the supporting platform 3211 of the fixing base 321 to clamp the edge of the solar panel 110 between the edge 3221 and the supporting platform 3211.

When the periphery of solar panel 110 is equipped with frame 111, in order to guarantee the stability between solar panel 110 and the connecting piece, set up the boss 3213 that can restrict solar energy frame 111 on two opposite sides of the brace table 3211 of fixing base 321, this boss 3213 plays limiting displacement, even when there is not the briquetting 322 cooperation on the fixing base 321, solar panel 110 can not follow brace table 3211 landing yet.

The fixing base 321 is provided with a concave stage 3212, the upper portion of the concave stage 3212 presses against the top end of the sidewall of the supporting frame 211, and the lower portion is embedded into the supporting frame 211, so that the connection between the fixing base 321 and the supporting frame 211 is realized, and the stress on the sidewalls of the supporting frame 211 can be balanced through the structure of the concave stage 3212.

An inner hook 323 is connected in the concave stage 3212 of the fixing base 321, and the pressing block 322 is connected to the inner hook 323 through a fixing bolt 324.

The lower part of the inner clamping hook 323 is provided with two clamping hooks, one of the clamping hooks at the lower part of the inner clamping hook 323 is clamped into the clamping groove of the concave table 3212 on one side firstly and then pushed or pulled forwards, the inner clamping hook is subjected to plastic deformation after being pressed, the other clamping hook at the lower part of the inner clamping hook 323 is opened and then clamped into the side clamping groove of the concave table 3212, and the wing edge of the pressing block is clamped on the side edge of the solar panel, so that the connection of the solar panel assembly and the concave table 3212 is completed.

A spring 325 can be arranged between the pressing block 322 and the inner snap hook 323, the bolt 324 sequentially penetrates through the pressing block 322 and the spring 325 and then is connected with the inner snap hook 323, the spring 325 can always keep a standing state, the pressing block 322 and the inner snap hook 323 are more tightly connected, and convenience is provided for subsequent installation of the solar panel.

When the solar panel 110 is structurally installed, the fixing base 321 is installed on the support frame 200, and then the solar panel 110 is connected to the support frame 200, and at this time, the frame of the solar panel 110 is fitted on the support table 3211 of the fixing base 321; then, after the pressing block 322, the bolt 324, the spring 325 and the inner hook 323 are connected into a whole, the inner hook 323 is clamped into the clamping slot of the concave stage 3212, and finally, the connection between the solar panel 110 and the support frame 200 can be fastened by adjusting the bolt 324.

The key point of the present invention is that the support frame 211 forms the support unit 210, and the plurality of support units 210 form the support frame 200 having a matrix structure, and the support frame 200 is of an impermeable design, so as to reduce damage of the solar panel 110 structure to the roof. The solar panels 110 of the solar panel assembly 100 in the solar panel 110 structure are connected by the support units 210 of each row, and the solar panels 110 of each solar panel 110 are connected by the middle support unit 210, so that the solar panels 110 of the solar panel assembly 100 form a whole body, which enhances the stability and wind resistance of the solar panel structure.

In addition, the solar panel assembly 100 has the advantages that the structure is simple, and the connecting piece can be arranged at any position of the solar panel after being matched with the supporting frame 211, so that the flexibility of the installation of the solar panel assembly 100 is improved, and the installation of the solar panel structure is simpler.

The above description is only exemplary of the present invention and is not intended to limit the technical scope of the present invention, so that any minor modifications, equivalent changes and modifications made to the above exemplary embodiments according to the technical spirit of the present invention are within the technical scope of the present invention.

Claims

1. The utility model provides a solar panel structure, its includes the support pallet and connects the solar panel component on the support pallet, its characterized in that: the solar panel assembly comprises at least one group of solar panels, each group of solar panels comprises at least one solar panel, the support frame comprises a plurality of support units, the support units are arranged to form an M x N matrix structure, M is more than or equal to 2, N is more than or equal to 2, and the solar panels are connected between two adjacent rows of support units;

the supporting unit comprises at least two supporting frames and a cross rod connected between the supporting frames; the support frame connected with the two solar panels in the support stand platform comprises a middle support, a front support and a rear support, wherein the front support and the rear support are connected with the two ends of the middle support; the support frame which is only connected with one solar panel in the support stand is provided with a middle support and a front support or a rear support which is connected with the middle support; one side of the solar panel is connected with the front support of the front row of supporting units through a connecting piece, and the other side of the solar panel is connected with the rear support of the rear row of supporting units through a connecting piece;

the support frame is of a split structure, and the front support and the middle support as well as the rear support and the middle support are connected through connecting angle pieces; the connecting piece comprises a fixed seat connected to the top of the support frame and a pressing block connected to the fixed seat, a support table is arranged on the fixed seat, a pressing edge corresponding to the support table is arranged on the pressing block, and the pressing edge on the pressing block is matched with the support table of the fixed seat to clamp the edge of the solar panel between the pressing edge and the support table;

and a counterweight is arranged on the supporting unit.

2. A solar panel structure according to claim 1, wherein: every group solar panel includes two above solar panels, connects through middle supporting unit between the two adjacent solar panels, one solar panel in two adjacent solar panels is connected to at least one support frame of middle supporting unit, and another solar panel is connected to other support frames of this middle supporting unit.

3. A solar panel structure according to claim 1, wherein: the length of the front support of the support frame is smaller than that of the rear support.

4. A solar panel structure according to claim 1, wherein: the periphery of the solar panel is provided with a frame, and bosses capable of limiting the solar frame are arranged on two opposite sides of the supporting table of the fixing seat.

5. A solar panel structure according to claim 1, wherein: the fixing seat is provided with a concave table, the upper part of the concave table is pressed against the top end of the side wall of the support frame, and the lower part of the concave table is embedded into the support frame.

6. A solar panel structure according to claim 5, wherein: an inner clamping hook is connected in the concave table of the fixed seat, and the pressing block is connected to the inner clamping hook through a bolt.

7. A solar panel structure according to claim 6, wherein: a spring is arranged between the pressing block and the inner clamping hook, and the bolt penetrates through the pressing block and the spring in sequence and then is connected with the inner clamping hook.