A tubular solar power generation support

By using the clamping bolts to fix the tubular support components and limiting components, the complexity of installing welded supports is solved, enabling convenient disassembly and stable installation of solar panels, and improving construction efficiency and adaptability.

CN224438887UActive Publication Date: 2026-06-30QUJING BOYU ENVIRONMENTAL PROTECTION TECHNOLOGY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
QUJING BOYU ENVIRONMENTAL PROTECTION TECHNOLOGY CO LTD
Filing Date
2025-06-06
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

The existing welding installation method of solar power generation brackets is complex and irreversible, making it difficult to adapt to diverse application scenarios. It also makes it difficult to quickly disassemble and adjust, resulting in long construction cycles, difficult maintenance, and inability to meet flexible installation needs.

Method used

The bracket and limiting components, which adopt a tubular structure, are assembled by snap-fit ​​and bolt fixing, avoiding welding and achieving convenient disassembly and stable installation.

Benefits of technology

It achieves efficient positioning and stable assembly of solar panels of different specifications, simplifies the installation process, improves construction efficiency and flexibility, and reduces maintenance difficulty.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model discloses a tubular solar power generation support, relating to the field of solar power generation. It solves the problem of existing devices being unable to properly disassemble and stably assemble solar panels of different specifications according to requirements. The solution is as follows: it includes two sets of support components, left and right, and limiting components mounted on them, with solar panels clamped within the limiting components. Each support component includes a lower tube frame and an upper tube frame clamped to it. The upper tube frame is fitted with limiting components for clamping the solar panels, and both the lower and upper tube frames are made of steel pipes. This tubular solar power generation support, through the arrangement of the support components and their upper limiting components, allows for efficient assembly of the support components through a set-up method. The limiting components allow for the limiting and pressing of solar panels of different lengths, widths, and thicknesses according to requirements. The overall design facilitates installation and subsequent efficient disassembly, ensuring practicality.
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Description

Technical Field

[0001] This utility model relates to the field of solar power generation technology, specifically a tubular solar power generation support. Background Technology

[0002] Solar power generation is a technology that uses solar energy resources to directly or indirectly convert light energy into electrical energy. It is a clean and renewable energy utilization method that helps reduce dependence on fossil fuels and environmental pollution.

[0003] A search revealed a solar power generation bracket in patent application number 202321496375.2, comprising four base rods, two vertical rods, a first horizontal rod, and a second horizontal rod. The base rods are two long and two short. The first horizontal rod is positioned above the two short rods, and the second horizontal rod is positioned above the two long rods. Two symmetrically arranged limiting components are connected to the side of the first horizontal rod away from the second horizontal rod. Each limiting component has a support rod connected to its other end. Each support rod has a support component connected to its end away from the first horizontal rod, and each support component has a baffle connected to its other end. With this solar power generation bracket, when installing solar panels, the panels are simply placed on the first and second horizontal rods. The two support rods are fixed to the two baffles via the limiting components, and the two baffles are connected to the support rods via the support components. This prevents the solar panels from easily slipping off the first and second horizontal rods, and installation is quicker and more convenient without the need for manual support.

[0004] As a key component of photovoltaic power generation systems, the installation method of solar mounting brackets directly affects project construction efficiency and subsequent maintenance costs. Currently, solar mounting brackets commonly employ a welding installation process, rigidly fixing various bracket components through high-temperature fusion. While this method provides a stable support structure, it reveals several limitations in practical applications: the welding process requires specialized equipment and operators, and the installation procedures are complex and time-consuming, leading to extended construction cycles; when adjustments, partial repairs, or complete relocation of the brackets are needed, the irreversibility of the welded structure makes disassembly and assembly extremely difficult, potentially causing permanent damage; furthermore, welded brackets are difficult to adapt to diverse application scenarios and cannot meet the rapid assembly requirements of different terrains, building structures, and usage needs, significantly reducing the overall practicality of the brackets and failing to fully meet the market's urgent demand for efficient and flexible solar installation solutions.

[0005] Therefore, we propose a tubular solar power generation support. Utility Model Content

[0006] To address the shortcomings of existing technologies, this utility model provides a tubular solar power generation support, which solves the problem that existing devices are difficult to disassemble and assemble solar power panels of different specifications according to requirements and to ensure stable assembly.

[0007] To achieve the above objectives, this utility model is implemented through the following technical solution: a tubular solar power generation bracket, comprising two sets of bracket components on the left and right sides and limiting components mounted on them, wherein a solar power generation panel is clamped in the limiting components;

[0008] The support assembly includes a lower tube frame and an upper tube frame that is clamped to it. The upper tube frame is fitted with a limiting component for clamping the solar power panels. Both the lower tube frame and the upper tube frame are made of steel pipes.

[0009] As a preferred embodiment of this utility model, the lower pipe rack is an L-shaped pipe rack, and the upper pipe rack includes an inclined pipe and two sets of corner pipes at its ends, and the ends of the two sets of corner pipes are fixedly installed with clamping pipes that are clamped at the ends of the lower pipe rack.

[0010] The lower and upper pipe rack structures can be clamped together from the ends using pipe clamps, eliminating the need for welding assembly. This makes the operation simple and facilitates subsequent disassembly and assembly.

[0011] As a preferred embodiment of this utility model, an angle bracket is fixedly welded onto the lower pipe rack, and through mounting grooves are provided on the left and right sides of the angle bracket, and the angle bracket is installed in the corresponding position through the mounting grooves and positioning screws.

[0012] The corner bracket design facilitates the installation of the support assembly, its limiting components, and the solar panels in the appropriate positions, ensuring stability after installation and simplifying the installation process.

[0013] As a preferred embodiment of this utility model, the limiting component includes a tube sleeve fitted on the upper tube rack, and an angle clamp is fixedly welded to the outer wall of the tube sleeve by a support rod. The angle clamp has an angle groove with a bottom opening, and the limiting component is fitted to each end groove through the angle groove on the angle clamp.

[0014] The corner clip's groove design facilitates the clamping and positioning of the solar panel from its corner, ensuring a secure positioning effect. The welding between the corner clip and the tube ensures the panel's stability.

[0015] As a preferred embodiment of this utility model, the corner clip is provided with a through first screw groove, in which a first fastening bolt is threaded and fitted, and the bottom end of the first fastening bolt is pressed onto the upper tube frame.

[0016] The first fastening bolt can limit the position of the tube by rotating and pressing it down, thereby limiting the installation of the limiting component in the corresponding position of the upper tube frame, thus enabling efficient limiting assembly of solar panels of different length and width specifications.

[0017] As a preferred embodiment of this utility model, the top of the corner clip is provided with a through second threaded groove, the inner side of the second threaded groove is fitted with a second fastening bolt, and the bottom end of the second fastening bolt is fitted with a pressure plate that presses against the corner of the solar power panel through a bearing ring.

[0018] The second fastening bolt can adjust the position of the pressure plate by rotating itself and press it onto each end corner of the solar panel, thereby achieving efficient pressing and limiting of solar panels of different thicknesses and ensuring stability.

[0019] This utility model provides a tubular solar power generation support. It has the following beneficial effects:

[0020] This tubular solar power generation bracket, through the setting of bracket components and its upper limit components, can be efficiently assembled by kitting the bracket components. The setting of the limit components can limit and press solar power panels of different lengths, widths and thicknesses according to needs. At the same time, the overall design is easy to install and can be efficiently disassembled and assembled later, which can ensure practicality and solve the problem that existing devices are difficult to disassemble and assemble solar power panels of different specifications according to needs and to assemble them stably. Attached Figure Description

[0021] Figure 1 This is a schematic diagram of the structure of this utility model;

[0022] Figure 2 This is a schematic diagram of the structure of the bracket assembly of this utility model;

[0023] Figure 3 This is a schematic diagram of the limiting component of this utility model.

[0024] In the diagram: 1. Support assembly; 11. Lower pipe rack; 12. Upper pipe rack; 13. Pipe clamp; 14. Angle seat; 2. Limiting assembly; 21. Pipe tube; 22. Angle clamp; 23. First screw groove; 24. Second screw groove; 25. First fastening bolt; 26. Second fastening bolt; 27. Pressure plate; 3. Solar panel. Detailed Implementation

[0025] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0026] Please see Figure 1-3This utility model provides a technical solution: a tubular solar power generation bracket, comprising two sets of bracket components 1 on the left and right sides and a limiting component 2 mounted thereon, wherein a solar power generation panel 3 is clamped in the limiting component 2; the bracket component 1 includes a lower tube frame 11 and an upper tube frame 12 clamped thereon, the upper tube frame 12 is fitted with a limiting component 2 for clamping the solar power generation panel 3, and both the lower tube frame 11 and the upper tube frame 12 are made of steel pipe;

[0027] The tubular solar power generation bracket, through the bracket assembly 1 and its upper limit assembly 2, can be efficiently assembled by fitting the bracket assembly 1 together. The upper limit assembly 2 can limit and press the solar power panels 3 of different lengths, widths and thicknesses according to the requirements. At the same time, the overall design is easy to install and can be efficiently disassembled and assembled later, which can ensure practicality and solve the problem that existing devices are difficult to disassemble and assemble solar power panels 3 of different specifications according to the requirements and to assemble them stably.

[0028] Example 2:

[0029] The lower pipe rack 11 is an L-shaped pipe rack, and the upper pipe rack 12 includes an inclined pipe and two sets of corner pipes at its ends. The ends of the two sets of corner pipes are fixedly installed with clamping tubes 13 that are snapped into the ends of the lower pipe rack 11. The structure of the lower pipe rack 11 and the upper pipe rack 12 can be configured to use the clamping tubes 13 to snap into the corresponding parts of the lower pipe rack 11 and the upper pipe rack 12 from the ends, without the need for welding assembly. The operation is simple and convenient for subsequent disassembly and assembly.

[0030] Angle brackets 14 are fixedly welded onto the lower pipe rack 11. The left and right sides of the angle brackets 14 have through mounting slots, and the angle brackets 14 are installed in the corresponding positions through the mounting slots and positioning screws. The angle brackets 14 facilitate the installation of the bracket assembly 1, the limiting assembly 2 and the solar power panel 3 as a whole in the corresponding positions, ensuring the stability after installation, and the installation operation is simple.

[0031] The limiting component 2 includes a tube 21 fitted onto the upper tube frame 12. Angle clips 22 are fixedly welded to the outer wall of the tube 21 via support rods. Angle clips 22 have corner grooves with bottom openings. The limiting component 2 is clamped to each end slot of the 33 via the corner grooves on the angle clips 22. The end slots of the angle clips 22 facilitate clamping and limiting the solar panel 3 from the corners, ensuring the limiting effect. The welding between the angle clips 22 and the tube 21 ensures its own stability.

[0032] Angle clip 22 has a through first threaded groove 23, in which a first fastening bolt 25 is threaded and fitted, and the bottom end of the first fastening bolt 25 is pressed onto the upper tube frame 12; wherein, the setting of the first fastening bolt 25 can limit the position of the tube 21 by rotating and pressing it down, thereby limiting the installation of the limiting component 2 at the corresponding position of the upper tube frame 12, so as to efficiently limit the assembly of solar power panels 3 with different length and width specifications.

[0033] The top of the corner clip 22 is provided with a through second threaded groove 24. The inner side of the second threaded groove 24 is fitted with a second fastening bolt 26, and the bottom end of the second fastening bolt 26 is fitted with a pressure plate 27 that presses against the corner of the solar panel 3 through a bearing ring. The second fastening bolt 26 can adjust the position of the pressure plate 27 by rotating itself and press it onto each corner of the solar panel 3, thereby achieving efficient pressing and limiting of solar panels 3 of different thicknesses and ensuring stability.

[0034] The working principle and usage process of this utility model are as follows: When the device is required to work, firstly, the lower tube frame 11 and the upper tube frame 12 of the two sets of support components 1 are assembled together. Then, the positions of the four sets of limiting components 2 are adjusted in advance according to the requirements, and each end corner of the solar power panel 3 is clamped in each set of corner clamps 22. The pressure plate 27 is pressed onto the end corner of the solar power panel 3 by rotating the second fastening bolt 26 to ensure the limiting effect. Then, the first fastening bolt 25 is rotated to press it onto the upper tube frame 12, so as to achieve the effect of positioning and assembling each set of limiting components 2 on the upper tube frame 12. Finally, the support components 1 assembled on the limiting components 2 and the solar power panel 3 are installed in the corresponding positions to achieve the effect of convenient assembly. Disassembly can be achieved by simply rotating a few fastening screw components. The operation is simple and the disassembly and assembly effect is good.

[0035] The foregoing has shown and described the basic principles, main features, and advantages of this utility model. It will be apparent to those skilled in the art that this utility model is not limited to the details of the exemplary embodiments described above, and that it can be implemented in other specific forms without departing from the spirit or basic characteristics of this utility model. Therefore, the embodiments should be considered exemplary and non-limiting in all respects. The scope of this utility model is defined by the appended claims rather than the foregoing description, and thus all variations falling within the meaning and scope of equivalents of the claims are intended to be included within this utility model. No reference numerals in the claims should be construed as limiting the scope of the claims.

[0036] Furthermore, it should be understood that although this specification describes embodiments, not every embodiment contains only one independent technical solution. This narrative style is merely for clarity. Those skilled in the art should consider the specification as a whole, and the technical solutions in each embodiment can also be appropriately combined to form other embodiments that can be understood by those skilled in the art.

Claims

1. A tubular solar power generation support characterized by: It includes two sets of support components (1) on the left and right and the limiting components (2) assembled on them, and the limiting components (2) are fitted with solar power panels (3); The support assembly (1) includes a lower tube frame (11) and an upper tube frame (12) which is attached to it. The upper tube frame (12) is fitted with a limiting component (2) for attaching the solar power panel (3). Both the lower tube frame (11) and the upper tube frame (12) are made of steel pipes.

2. A tubular solar power support according to claim 1, wherein: The lower pipe rack (11) is an L-shaped pipe rack, and the upper pipe rack (12) includes an inclined pipe and two sets of corner pipes at its ends, and the ends of the two sets of corner pipes are fixedly installed with clamping pipes (13) that are clamped at the ends of the lower pipe rack (11).

3. A tubular solar power support according to claim 2, wherein: Angle seats (14) are fixedly welded onto the lower pipe rack (11). The left and right sides of the angle seats (14) are provided with through mounting grooves, and the angle seats (14) are installed in the corresponding positions through the mounting grooves and positioning screws.

4. A tubular solar power support according to claim 1, wherein: The limiting component (2) includes a tube (21) fitted on the upper tube frame (12). Angle clips (22) are fixedly welded to the outer wall of the tube (21) by a support rod. Angle clips (22) have corner grooves with bottom openings. The limiting component (2) is mounted on each end groove of (33) by the corner grooves on the corner clips (22).

5. A tubular solar power support according to claim 4, wherein: The corner clip (22) has a through first threaded groove (23), in which a first fastening bolt (25) is threaded and fitted, and the bottom end of the first fastening bolt (25) is pressed onto the upper tube frame (12).

6. A tubular solar power support according to claim 5, wherein: The top of the corner clip (22) is provided with a through second screw groove (24), and the inner side of the second screw groove (24) is threaded with a second fastening bolt (26), and the bottom end of the second fastening bolt (26) is fitted with a pressure plate (27) that presses against the corner of the solar power panel (3) through a bearing ring.