A new type of photovoltaic equipment mounting frame
By designing the limiting through groove and insert structure of the clamp seat and the fixed main shaft, the problem of axial movement and rotation during photovoltaic equipment installation was solved, achieving a more stable and convenient installation effect.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- INNER MONGOLIA UNIV OF SCI & TECH
- Filing Date
- 2025-07-02
- Publication Date
- 2026-06-30
Smart Images

Figure CN224438893U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of photovoltaic equipment technology, and in particular to a novel photovoltaic equipment mounting bracket. Background Technology
[0002] Photovoltaic mounting racks are structural systems used to support and install photovoltaic modules (solar panels). They are commonly used in solar power generation systems. The main function of these mounting racks is to provide a stable support structure so that solar panels can be installed safely and stably on them.
[0003] Currently, solar panels are generally installed using a fixed method, with connections made by welding or using connectors. The brackets are bulky after installation. On the other hand, when installing photovoltaic panels on the main shaft, they are often fixed to the main shaft by the cooperation of an upper pressure plate and a clamp. However, after fixing, axial movement or flipping around the shaft center is prone to occur, which affects the stability of the installation and the stability after installation.
[0004] Therefore, this application proposes a novel photovoltaic equipment mounting bracket, providing a new technical solution to address the technical problems mentioned in the aforementioned patents. Utility Model Content
[0005] Based on this, it is necessary to provide a new type of photovoltaic equipment mounting bracket to address the above-mentioned technical problems. Through the structural design of the clamp seat and the fixed main shaft, the device can effectively avoid axial movement and flipping compared with traditional clamps. Moreover, the clamp seat can be adjusted on the fixed main shaft according to the installation requirements, thereby effectively improving the installation convenience of the device.
[0006] To solve the above-mentioned technical problems, the present invention adopts the following technical solution:
[0007] A novel photovoltaic equipment mounting bracket is used for photovoltaic equipment installation.
[0008] The novel photovoltaic equipment mounting frame specifically includes:
[0009] A fixed spindle is provided, on which multiple clamp seats are provided for the installation and fixing of photovoltaic equipment;
[0010] A support frame is disposed at the end of the fixed spindle, and the support frame is used to support and fix the spindle.
[0011] The upper and lower ends of the fixed spindle are respectively provided with a first limiting through groove and a second limiting through groove. A plurality of the first limiting through groove and the second limiting through groove are evenly provided along the length direction of the fixed spindle. The first limiting through groove and the second limiting through groove are provided in two rows.
[0012] The clamp seat includes a clamp body with an opening at the upper end. Two limiting blocks are fixedly connected to the bottom inner side of the clamp body. The two limiting blocks are inserted into two adjacent second limiting slots. Limiting blocks are fixedly connected to both ends of the clamp body at the opening. The two limiting blocks are respectively inserted into two adjacent first limiting slots. Equipment connection seats are fixedly connected to the outer sides of both ends of the clamp body at the opening.
[0013] In a preferred embodiment of the novel photovoltaic equipment mounting bracket provided by this utility model, an anti-expansion connecting plate is provided at one end of the two equipment connecting seats that are close to each other, and the two ends of the anti-expansion connecting plate are detachably connected to the two equipment connecting seats respectively.
[0014] In a preferred embodiment of the novel photovoltaic equipment mounting bracket provided by this utility model, the two equipment connecting seats are provided with grooves at their close ends, and the two ends of the anti-expansion connecting plate are respectively located inside the grooves of the two equipment connecting seats.
[0015] In a preferred embodiment of the novel photovoltaic equipment mounting bracket provided by this utility model, each of the recesses is fixedly connected with a positioning column, the end of the anti-expansion connecting plate is vertically inserted into the positioning column, the end of the anti-expansion connecting plate is provided with a fixing screw, and the fixing screw is threadedly connected to the positioning column.
[0016] As a preferred embodiment of the novel photovoltaic equipment mounting frame provided by this utility model, the support frame includes a frame body, which is arranged in an inverted Y shape. Stabilizing seats are fixedly connected to the two end corners of the lower end of the frame body. A rotating seat is rotatably connected to the upper end of the frame body. The inner side of the upper end of the rotating seat is in contact with the outer side of the fixed main shaft. The rotating seat and the fixed main shaft are fixedly connected by bolts.
[0017] In a preferred embodiment of the novel photovoltaic equipment mounting bracket provided by this utility model, the main body of the clamp is made of elastic metal.
[0018] Compared with the prior art, the present invention has the following beneficial effects:
[0019] The novel photovoltaic equipment mounting bracket provided by this utility model, through the structural design of the clamp seat and the fixed main shaft, can effectively avoid axial movement and flipping compared with traditional clamps. Moreover, the clamp seat can be adjusted on the fixed main shaft according to the installation requirements, thereby effectively improving the installation convenience of the device.
[0020] The novel photovoltaic equipment mounting bracket provided by this utility model can effectively improve the support stability of the bracket for the fixed main shaft through the structural design of the support bracket, thereby improving the stability of the device after installation. Attached Figure Description
[0021] To more clearly illustrate the solutions in this utility model, the accompanying drawings used in the description of the embodiments will be briefly introduced below. Obviously, the drawings described below are some embodiments of this utility model. For those skilled in the art, other drawings can be obtained from these drawings without creative effort.
[0022] Figure 1 A schematic diagram of the overall structure of the novel photovoltaic equipment mounting frame provided by this utility model;
[0023] Figure 2 A schematic diagram of the structure of the novel photovoltaic equipment mounting bracket for fixing the main shaft and clamp seat provided by this utility model;
[0024] Figure 3 A structural cross-sectional view of the fixing spindle of the novel photovoltaic equipment mounting bracket provided by this utility model;
[0025] Figure 4 A schematic diagram of the structure of the novel photovoltaic equipment mounting bracket clamp provided by this utility model;
[0026] Figure 5 A schematic diagram of the structure of the novel photovoltaic equipment mounting bracket support provided by this utility model.
[0027] The markings in the diagram are explained as follows:
[0028] 1. Fixed spindle; 2. Clamp seat; 3. Support frame; 4. Frame body; 5. Stabilizing seat; 6. Rotating seat; 7. First limiting through groove; 8. Second limiting through groove; 9. Clamp body; 10. Limiting insert one; 11. Limiting insert two; 12. Equipment connecting seat; 13. Anti-expansion connecting plate; 14. Fixing screw; 15. Embedded groove; 16. Positioning column. Detailed Implementation
[0029] To enable those skilled in the art to better understand the present invention, the technical solutions of the present invention 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 invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative effort should fall within the protection scope of the present invention.
[0030] As described in the background section, solar panels are generally installed using a fixed method, with connections made by welding or using connectors. The brackets are bulky after installation. On the other hand, when photovoltaic panels are installed on the main shaft, they are often fixed to the main shaft by the cooperation of an upper pressure plate and a clamp. However, after fixing, axial movement or flipping around the shaft center is likely to occur, which affects the stability of the installation and the stability after installation.
[0031] To solve this technical problem, this utility model provides a novel photovoltaic equipment mounting bracket, which is used for photovoltaic equipment installation.
[0032] For details, please refer to Figures 1-4 The new photovoltaic equipment mounting frame specifically includes:
[0033] A fixed spindle 1 is provided, and multiple clamp seats 2 are provided on the fixed spindle 1. The clamp seats 2 are used for the installation and fixing of photovoltaic equipment.
[0034] The support frame 3 is located at the end of the fixed spindle 1 and is used to support and fix the spindle 1.
[0035] The upper and lower ends of the fixed spindle 1 are respectively provided with a first limiting through groove 7 and a second limiting through groove 8. The first limiting through groove 7 and the second limiting through groove 8 are evenly provided in several directions along the length of the fixed spindle 1. The first limiting through groove 7 and the second limiting through groove 8 are provided in two rows.
[0036] The clamp seat 2 includes a clamp body 9, with an opening at the upper end. Two limiting blocks 10 are fixedly connected to the bottom inner side of the clamp body 9. The two limiting blocks 10 are inserted into two adjacent second limiting through slots 8. Limiting blocks 21 are fixedly connected to both ends of the clamp body 9 at the opening. The two limiting blocks 21 are inserted into two adjacent first limiting through slots 7 respectively. Equipment connection seats 12 are fixedly connected to the outer sides of both ends of the clamp body 9 at the opening.
[0037] The novel photovoltaic equipment mounting bracket provided by this utility model, through the structural cooperation design of the clamp seat 2 and the fixed main shaft 1, can effectively avoid axial movement and overturning compared with traditional clamps. Moreover, the clamp seat 2 can be adjusted on the fixed main shaft 1 according to the installation requirements, thereby effectively improving the installation convenience of the device.
[0038] To enable those skilled in the art to better understand the present invention, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings.
[0039] Example 1:
[0040] Please refer to Figures 1-4A novel photovoltaic equipment mounting rack, comprising:
[0041] A fixed spindle 1 is provided, and multiple clamp seats 2 are provided on the fixed spindle 1. The clamp seats 2 are used for the installation and fixing of photovoltaic equipment.
[0042] The support frame 3 is located at the end of the fixed spindle 1 and is used to support and fix the spindle 1.
[0043] Specifically, a first limiting through groove 7 and a second limiting through groove 8 are respectively provided at the upper and lower ends of the fixed spindle 1. Several first limiting through grooves 7 and second limiting through grooves 8 are evenly provided along the length direction of the fixed spindle 1, and two rows of first limiting through grooves 7 and second limiting through grooves 8 are provided.
[0044] Specifically, the clamp seat 2 includes a clamp body 9, with an opening at the upper end. Two limiting blocks 10 are fixedly connected to the bottom inner side of the clamp body 9, and these two limiting blocks 10 are inserted into two adjacent second limiting slots 8. Limiting blocks 21 are fixedly connected to both ends of the clamp body 9 at the opening, and these two limiting blocks 21 are respectively inserted into two adjacent first limiting slots 7. Equipment connection seats 12 are fixedly connected to the outer sides of both ends of the clamp body 9 at the opening. To ensure that the clamp body 9 can be fitted onto the outside of the fixed spindle 1, the clamp body 9 is made of elastic metal.
[0045] In order to prevent the clamp body 9 from separating from the fixed spindle 1, an anti-expansion connecting plate 13 is provided at one end of the two equipment connecting seats 12 that are close to each other. The two ends of the anti-expansion connecting plate 13 are detachably connected to the two equipment connecting seats 12 respectively.
[0046] It can be seen that the support frame 3 supports and fixes the fixed main shaft 1, and the clamp seat 2 enables the installation of photovoltaic equipment. The fixed main shaft 1 has a first limiting through groove 7 and a second limiting through groove 8 along its length, so that the clamp seat 2 can be adjusted on the fixed main shaft 1 according to the installation requirements, thereby effectively improving the adaptability and installation convenience of the device.
[0047] During the installation of the clamp seat 2, the two ends of the clamp body 9 are pulled apart to the sides, thereby expanding the opening of the clamp body 9. This allows the fixed spindle 1 to be placed inside the clamp body 9 through the opening. The first limiting block 10 inside the clamp body 9 is inserted into the second limiting through groove 8, and the second limiting block 11 near the opening of the clamp body 9 is inserted into the first limiting through groove 7. This effectively prevents the clamp body 9 from axially moving outside the fixed spindle 1 or from flipping around the fixed spindle 1. Furthermore, after the photovoltaic equipment is connected to the clamp body 9 through the equipment connecting seat 12, the expansion of the opening of the clamp body 9 is effectively prevented, thus effectively preventing the clamp body 9 from detaching from the fixed spindle 1.
[0048] Example 2:
[0049] The novel photovoltaic equipment mounting bracket provided in Example 1 has been further optimized, specifically, as follows: Figure 4 As shown, each of the two device connectors 12 has a groove 15 at one end close to the other, and the two ends of the anti-expansion connecting plate 13 are respectively located inside the grooves 15 of the two device connectors 12. A positioning post 16 is fixedly connected inside each groove 15, and the end of the anti-expansion connecting plate 13 is vertically inserted into the positioning post 16. A fixing screw 14 is provided at the end of the anti-expansion connecting plate 13, and the fixing screw 14 is threadedly connected to the positioning post 16.
[0050] Through the above structural design, by inserting the end of the anti-expansion connecting plate 13 into the groove 15, the movement of the anti-expansion connecting plate 13 on the two equipment connecting seats 12 can be effectively limited. Furthermore, by connecting the groove 15 to the positioning post 16, the top of the groove 15 can be pressed down on the anti-expansion connecting plate 13, thereby achieving the connection and fixation of the anti-expansion connecting plate 13.
[0051] Example 3:
[0052] The novel photovoltaic equipment mounting bracket provided in Example 1 has been further optimized, specifically, as follows: Figure 5 As shown, the support frame 3 includes a frame body 4, which is arranged in an inverted Y shape. Stabilizing seats 5 are fixedly connected to the two corners at the lower end of the frame body 4. A rotating seat 6 is rotatably connected to the upper end of the frame body 4. The inner side of the upper end of the rotating seat 6 is in contact with the outer side of the fixed spindle 1. The rotating seat 6 and the fixed spindle 1 are fixedly connected by bolts.
[0053] Through the above structural design, the Y-shaped frame body 4 design can effectively improve the stability of the support frame 3 after it is fixed. Furthermore, the contact surface between the bottom of the frame body 4 and the mounting surface is increased by the stabilizing seat 5, which can further improve the stability of the device after installation. The rotating seat 6 on the top of the frame body 4 enables the top of the frame body 4 to be rotatably connected to the fixed main shaft 1.
Claims
1. A novel photovoltaic device mounting rack characterized by, include: A fixed spindle (1) is provided with a plurality of clamp seats (2), which are used for the installation and fixing of photovoltaic equipment; A support frame (3) is provided at the end of the fixed spindle (1), and the support frame (3) is used to support and fix the spindle (1); The upper and lower ends of the fixed spindle (1) are respectively provided with a first limiting through groove (7) and a second limiting through groove (8). The first limiting through groove (7) and the second limiting through groove (8) are evenly provided in a plurality of places along the length direction of the fixed spindle (1). The first limiting through groove (7) and the second limiting through groove (8) are provided in two rows. The clamp seat (2) includes a clamp body (9), the upper end of which is provided with an opening. Two limiting blocks (10) are fixedly connected to the bottom inner side of the clamp body (9). The two limiting blocks (10) are inserted into two adjacent second limiting slots (8). Limiting blocks (11) are fixedly connected to both ends of the clamp body (9) at the opening. The two limiting blocks (11) are respectively inserted into two adjacent first limiting slots (7). Equipment connection seats (12) are fixedly connected to both outer sides of the opening of the clamp body (9).
2. The novel photovoltaic device mounting rack of claim 1, wherein, An anti-expansion connecting plate (13) is provided at one end of each of the two device connectors (12) that are close to each other. The two ends of the anti-expansion connecting plate (13) are detachably connected to the two device connectors (12).
3. The novel photovoltaic equipment mounting frame according to claim 2, characterized in that, Each of the two device connectors (12) has a groove (15) at one end that is close to each other, and the two ends of the anti-expansion connecting plate (13) are respectively located inside the grooves (15) of the two device connectors (12).
4. The novel photovoltaic equipment mounting frame according to claim 3, characterized in that, The groove (15) is fixedly connected with a positioning post (16). The end of the anti-expansion connecting plate (13) is vertically inserted into the positioning post (16). The end of the anti-expansion connecting plate (13) is provided with a fixing screw (14). The fixing screw (14) is threadedly connected to the positioning post (16).
5. The novel photovoltaic equipment mounting frame according to claim 1, characterized in that, The support frame (3) includes a frame body (4), which is arranged in an inverted Y shape. Stabilizing seats (5) are fixedly connected to the two corners at the lower end of the frame body (4). A rotating seat (6) is rotatably connected to the upper end of the frame body (4). The inner side of the upper end of the rotating seat (6) is in contact with the outer side of the fixed main shaft (1). The rotating seat (6) and the fixed main shaft (1) are fixedly connected by bolts.
6. The novel photovoltaic equipment mounting frame according to claim 1, characterized in that, The main body (9) of the clamp is made of elastic metal.