Construction platform for photovoltaic construction
By designing a construction platform for photovoltaic construction and using a clamping mechanism to connect with photovoltaic piles, the problems of complex and unstable scaffolding construction in existing technologies have been solved, achieving efficient and safe photovoltaic construction.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- 中国电建集团河北工程有限公司
- Filing Date
- 2025-06-30
- Publication Date
- 2026-06-26
AI Technical Summary
In the construction of existing photovoltaic power generation devices, scaffolding is complex, time-consuming, and labor-intensive to erect, and it is unstable on complex terrain, affecting construction efficiency and safety.
Design a construction platform for photovoltaic construction, including a clamping mechanism and a platform plate. The clamping mechanism is connected to the photovoltaic piles through clamping components, and together with the support frame and fence components, ensures the platform is installed stably.
It improves construction efficiency, enhances construction safety, adapts to complex terrain, prevents platform slippage, and ensures the safety of construction personnel.
Smart Images

Figure CN224413078U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to a construction platform, specifically a construction platform for photovoltaic construction. Background Technology
[0002] Photovoltaic power generation is a technology that uses the photovoltaic effect to directly convert solar energy into electrical energy. It has the advantages of not consuming fuel, low cost and no pollution, making it an ideal renewable energy source.
[0003] Photovoltaic power generation devices are core equipment that converts solar energy into electrical energy. These devices mainly consist of photovoltaic (PV) supports mounted on top of PV piles and PV modules mounted on those supports. Currently, during the installation of PV power generation devices, construction workers typically need to use scaffolding to work at heights. However, the existing scaffolding erection process is complex, time-consuming, and labor-intensive, severely impacting construction efficiency. Furthermore, existing scaffolding is ill-suited to complex terrain. When the construction site has complex terrain and uneven ground, existing scaffolding often cannot be stably erected on the ground, easily swaying, which affects its stability and seriously compromises construction safety. Summary of the Invention
[0004] To address the aforementioned shortcomings in the existing technology, this utility model aims to provide a construction platform for photovoltaic construction, thereby improving construction efficiency and safety.
[0005] To achieve the above objectives, the technical solution adopted by this utility model is as follows: a construction platform for photovoltaic construction, comprising a clamping mechanism for detachably connecting to a photovoltaic pipe pile and a platform plate fixed on the clamping mechanism. The clamping mechanism includes a shell with an installation cavity and at least one clamping member installed in the installation cavity that can cooperate with the shell to clamp the photovoltaic pipe pile.
[0006] As a limitation of this utility model, the outer shell includes two half-shells, each half-shell having an arc-shaped partition plate fixed on its inner wall, an arc-shaped top plate fixed on the top of each half-shell, and an arc-shaped bottom plate fixed on the bottom of each half-shell. The two half-shells are detachably connected together, and a conical mounting cavity can be formed in the middle of the two half-shells. The mounting cavity includes a first cavity for mounting the clamping component located between the two arc-shaped bottom plates and the two arc-shaped partition plates, and a second cavity for mounting the clamping component located between the two arc-shaped partition plates and the two arc-shaped top plates.
[0007] As a further limitation of this utility model, the clamping component includes an open ring component, a insertion groove provided on one end of the open ring component, an insertion rod fixed on the other end of the open ring component and inserted into the insertion groove, and a plurality of flexible clamping blocks fixed at intervals on the open ring component.
[0008] As another limitation of this utility model, the clamping mechanism also includes a support frame fixed to the bottom of the platform plate and a lower arc-shaped plate fixed to the bottom of the support frame that is adapted to the size of the photovoltaic pile.
[0009] As a further limitation of this utility model, a fence component is fixedly provided on the top of the platform plate.
[0010] By adopting the above-mentioned technical solution, the beneficial effects achieved by this utility model compared with the prior art are as follows:
[0011] (1) The clamping mechanism of this utility model adopts a structure combining a shell with an installation cavity and at least one clamping component. The clamping mechanism can be fixedly installed on the photovoltaic pipe pile. At the same time, it can be used with the platform plate to form a construction platform fixed on the photovoltaic pipe pile. At this time, the construction personnel can stand on the platform plate to carry out construction. Compared with the method of constructing work at height by building scaffolding, this utility model can be easily installed on the photovoltaic pipe pile. The installation is simple and quick, saving time and effort, and can significantly improve the construction efficiency. Moreover, this utility model is not limited by the complex terrain of the construction site. Even if the ground of the construction site is uneven, it can still be firmly fixed on the photovoltaic pipe pile, which can effectively improve the safety of construction.
[0012] (2) The structure of this utility model is ingenious and highly safe. It can be firmly fixed on the photovoltaic pipe pile during use. Specifically, after the utility model is installed on the photovoltaic pipe pile, the construction personnel can stand on the platform board to carry out construction work. Under the action of gravity, when the outer shell has a downward tendency, the clamping component will have an upward tendency relative to the outer shell. Correspondingly, the multiple flexible clamping blocks will move closer to the photovoltaic pipe pile under the guidance of the conical installation cavity. At the same time, the size of the insertion rod extending into the insertion groove increases, and the inner diameter of the open ring component will become smaller. At this time, the multiple flexible clamping blocks can form a tight clamping force on the photovoltaic pipe pile, thereby enabling the utility model to be firmly fixed on the photovoltaic pipe pile. Furthermore, under the action of the support frame and the lower arc plate, the utility model can form a tighter clamping force on the photovoltaic pipe pile, which can make the utility model more firmly fixed on the photovoltaic pipe pile, improve the safety of the utility model during use, and thus effectively protect the construction safety of the construction personnel.
[0013] (3) The present invention is equipped with a fence component, which can prevent construction workers from falling from the platform when working at height, and can effectively improve the safety and reliability of the structure of the present invention.
[0014] In summary, this utility model has a reasonable structure, is easy to use, highly safe, and practical. It can be easily installed on photovoltaic (PV) piles, offering simple and quick installation that saves time and effort, significantly improving construction efficiency. Furthermore, this utility model is not limited by complex terrain; even on uneven ground, it can be securely fixed to the PV pile, effectively enhancing construction safety. This utility model is suitable for use during PV construction. Attached Figure Description
[0015] The present invention will now be described in further detail with reference to the accompanying drawings and specific embodiments.
[0016] Figure 1 This is a front view of the structural relationship of an embodiment of the present utility model;
[0017] Figure 2 This is a right view showing the structural relationship of an embodiment of the present utility model;
[0018] Figure 3 This is a disassembly diagram of an embodiment of the present utility model;
[0019] Figure 4 This is a structural schematic diagram of the clamping component in an embodiment of the present utility model.
[0020] In the diagram: 1. Semi-shell; 2. Arc-shaped partition plate; 3. Arc-shaped top plate; 4. Arc-shaped bottom plate; 5. Opening ring component; 6. Insert rod; 7. Insert groove; 8. Flexible clamping block; 9. Upper arc-shaped plate; 10. Lower arc-shaped plate; 11. Support frame; 12. Platform plate; 13. Fence component. Detailed Implementation
[0021] The preferred embodiments of the present invention will be described below with reference to the accompanying drawings. It should be understood that the preferred embodiments described herein are for illustrative purposes only and are not intended to limit the scope of the present invention.
[0022] Example 1: A construction platform for photovoltaic construction
[0023] like Figure 1-3 As shown, this embodiment includes a clamping mechanism for detachable connection to a photovoltaic pile and a platform plate 12 fixed to the clamping mechanism via an upper arc plate 9. Specifically, an upper arc plate 9 is fixed to the outer wall of the clamping mechanism, and the platform plate 12 is fixed to the upper arc plate 9.
[0024] The clamping mechanism includes a housing with a mounting cavity, at least one clamping member installed in the mounting cavity that can cooperate with the housing to clamp the photovoltaic pile, a support frame 11 fixed to the bottom of the platform plate 12, and a lower arc-shaped plate 10 fixed to the bottom of the support frame 11 that is adapted to the size of the photovoltaic pile, wherein the support frame 11 is an inclined support plate.
[0025] The outer shell comprises two semi-shells 1, each with an arc-shaped partition plate 2 fixed on its inner wall, an arc-shaped top plate 3 fixed on its top, and an arc-shaped bottom plate 4 fixed on its bottom. The two semi-shells 1 are detachably connected together, and a conical mounting cavity can be formed in the middle of the two semi-shells 1. The mounting cavity includes a first cavity for mounting a clamping component located between the two arc-shaped bottom plates 4 and the two arc-shaped partition plates 2, and a second cavity for mounting a clamping component located between the two arc-shaped partition plates 2 and the two arc-shaped top plates 3. Specifically, in this embodiment, the semi-shell 1 is a semi-cylindrical shell structure with connecting flanges. The inner diameter of the conical mounting cavity gradually increases from top to bottom. The sides of the two semi-shells 1 furthest from the connecting flanges are hinged together by hinge members, and the connecting flanges in the two semi-shells 1 are detachably connected together by multiple bolts. The arc-shaped bottom plate 4 and the arc-shaped partition plate 2 are used to limit the clamping member installed in the first cavity to prevent the clamping member from detaching from the shell. Similarly, the arc-shaped partition plate 2 and the arc-shaped top plate 3 are used to limit the clamping member installed in the second cavity to prevent the clamping member from detaching from the shell.
[0026] A clamping component is installed in both the first cavity and the second cavity, and the two clamping components can slide within their respective first and second cavities. Figure 4 As shown, the clamping component includes an open ring component 5, a insertion groove 7 on one end of the open ring component 5, an insertion rod 6 fixed on the other end of the open ring component 5 and inserted into the insertion groove 7, and a plurality of flexible clamping blocks 8 fixed at intervals on the open ring component 5. The flexible clamping blocks 8 are adapted to the mounting cavity and the photovoltaic pile so that the flexible blocks can be tightly clamped to the photovoltaic pile. When subjected to external force, the insertion rod 6 can slide in the insertion groove 7. Specifically, in this embodiment, the clamping component is provided with four flexible clamping blocks 8. The flexible clamping blocks 8 are rubber anti-slip blocks. The side of the flexible clamping block 8 near the mounting cavity is an arc-shaped outer sidewall, and the side of the flexible clamping block 8 near the photovoltaic pile is an arc-shaped inner sidewall.
[0027] To improve the safety of this embodiment, a fence component 13 is fixed on the top of the platform plate 12. The fence component 13 adopts an existing fence with a fence gate. The fence gate can be opened or closed as needed. When the fence gate is open, construction personnel can enter or walk out of the platform plate 12. When the fence gate is closed, the fence component 13 plays a protective role and can prevent construction personnel from falling from the platform plate 12.
[0028] Before using this embodiment, open the two half-shells 1 and the two open ring components 5 of the two clamping components, install the two clamping components and the two half-shells 1 on the photovoltaic tube pile, and install the lower arc plate 10 on the photovoltaic tube pile. After ensuring that all components are firmly connected, the installation of this embodiment is completed. After this embodiment is installed on the photovoltaic tube pile, a construction platform for photovoltaic construction can be formed. Construction personnel can stand on the platform plate 12 to carry out corresponding construction work. When the construction personnel stand on the platform plate 12, under the action of gravity, when the outer shell has a downward tendency, the clamping components will have an upward tendency relative to the outer shell. The corresponding multiple flexible clamping blocks 8 will move closer to the photovoltaic tube pile under the guidance of the conical installation cavity. At the same time, the size of the insertion rod 6 extending into the insertion groove 7 increases, and the inner diameter of the open ring component 5 will become smaller. At this time, the multiple flexible clamping blocks 8 press against the outer wall of the photovoltaic tube pile, which can form a very tight clamping force on the photovoltaic tube pile, thereby enabling this utility model to be firmly fixed on the photovoltaic tube pile. Furthermore, under the action of the support frame 11 and the lower arc plate 10, this utility model can form a tighter clamping force on the photovoltaic pipe pile, which can make this utility model more firmly fixed on the photovoltaic pipe pile. This utility model can effectively prevent the situation of sliding down along the outer wall of the photovoltaic pipe pile, improve the safety and reliability of the structure, and effectively protect the work safety of construction personnel.
[0029] It should be noted that the above description is merely a preferred embodiment of the present utility model and is not intended to limit the present utility model. Although the present utility model has been described in detail with reference to the above embodiments, those skilled in the art can still modify the technical solutions described in the above embodiments or make equivalent substitutions for some of the technical features. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of the present utility model should be included within the protection scope of the present utility model.
Claims
1. A construction platform for photovoltaic construction, characterized in that: It includes a clamping mechanism for detachably connecting to a photovoltaic pile and a platform plate fixed on the clamping mechanism. The clamping mechanism includes a housing having a mounting cavity and at least one clamping member installed in the mounting cavity that can cooperate with the housing to clamp the photovoltaic pile. The outer shell includes two half-shells, each half-shell having an arc-shaped partition plate fixed on its inner wall, an arc-shaped top plate fixed on its top, and an arc-shaped bottom plate fixed on its bottom. The two half-shells are detachably connected together, and a conical mounting cavity can be formed in the middle of the two half-shells. The mounting cavity includes a first cavity for mounting the clamping component located between the two arc-shaped bottom plates and the two arc-shaped partition plates, and a second cavity for mounting the clamping component located between the two arc-shaped partition plates and the two arc-shaped top plates.
2. The construction platform for photovoltaic construction according to claim 1, characterized in that: The clamping component includes an open ring component, a insertion groove on one end of the open ring component, an insertion rod fixed on the other end of the open ring component and inserted into the insertion groove, and a plurality of flexible clamping blocks fixed at intervals on the open ring component.
3. A construction platform for photovoltaic construction according to claim 1 or 2, characterized in that: The clamping mechanism also includes a support frame fixed to the bottom of the platform plate and a lower arc-shaped plate fixed to the bottom of the support frame that is adapted to the size of the photovoltaic pile.
4. A construction platform for photovoltaic construction according to claim 3, characterized in that: A fence component is fixed to the top of the platform plate.