Portable artificial secondary handling special tool for photovoltaic panel
By designing a portable tool for manual secondary handling of photovoltaic panels, and utilizing reinforced outriggers, anti-slip rubber plates, and support springs, the problems of material loss and safety risks during the transportation of photovoltaic panels in the construction of photovoltaic power stations on steep slopes were solved, thereby improving construction efficiency and safety.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- 中国水利水电第七工程局有限公司
- Filing Date
- 2025-06-15
- Publication Date
- 2026-06-30
AI Technical Summary
In the construction of photovoltaic power stations on steep slopes and mountains, traditional photovoltaic panel transportation suffers from problems such as high material loss, high safety risks, slow construction progress, and increased construction costs.
Design a portable tool for manual secondary handling of photovoltaic panels. It adopts stiffened support legs, anti-slip rubber plate and movable riveting structure, combined with support springs, to realize simple and fast transportation of photovoltaic panels.
This reduces the risk of material damage during the transportation of photovoltaic panels, improves construction efficiency, reduces the possibility of personnel injury, and lowers construction costs.
Smart Images

Figure CN224428791U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the field of building construction equipment design technology, and particularly relates to the field of auxiliary equipment design technology for photovoltaic power station photovoltaic module installation construction, specifically a portable manual secondary handling tool for photovoltaic panels. Background Technology
[0002] Photovoltaic power plant sites on steep slopes typically feature steep gradients, varied terrain, large elevation differences, and numerous gullies. Furthermore, due to environmental protection policies related to forestry and grassland, constructing roads is extremely difficult, making it challenging to create access roads or establish construction platforms. Photovoltaic power plants are labor-intensive projects; traditional methods of transporting and hoisting photovoltaic panels rely heavily on manual handling, which leads to significant material loss and safety risks, severely hindering on-site construction progress and increasing construction costs. Summary of the Invention
[0003] The purpose of this invention is to create a portable tool for manual secondary handling of photovoltaic panels, enabling simple and quick secondary handling of photovoltaic panels and other materials during the installation of photovoltaic power generation modules.
[0004] The following technical solutions are provided:
[0005] A portable tool for manual secondary handling of photovoltaic panels, characterized in that it consists of stiffened support legs, anti-slip rubber plates, movable rivets, and springs;
[0006] The stiffening outriggers have a scissor-shaped cross-leg structure, with each leg being longer than 200cm. The length of the long end is 5 to 7 times that of the short end. The cross section forms a movable riveting structure through rivets. The long end of the stiffening outrigger is hook-shaped, and the hook-shaped surface is fitted with an anti-slip rubber plate that is attached to the contact part of the photovoltaic panel. A support spring is installed between the ends of the stiffening outriggers.
[0007] Furthermore, the anti-slip rubber sheet has an L-shaped structure and a thickness greater than 5 cm.
[0008] Furthermore, the stiffening outrigger is a multi-section coaxial telescopic structure.
[0009] Furthermore, the movable riveting adopts a snap-on or magnetic connection structure.
[0010] Furthermore, rubber pads or dampers are provided at the movable riveting joints of the stiffening outriggers to reduce vibration during handling.
[0011] Compared with existing technologies, this utility model has the following advantages: This utility model is a portable manual secondary handling device for photovoltaic panels, which is less restricted by on-site construction roads and terrain, and is suitable for on-site installation, exhibiting strong adaptability. This utility model has a simple structure, is easy to operate, has low manufacturing costs, high strength, and a long service life. This utility model improves upon the shortcomings of traditional manual transport of photovoltaic panels by using movable riveting to clamp them, reducing the risk of material damage during transportation. This utility model is used for transporting photovoltaic panels, improving the efficiency of photovoltaic panel installation and construction, and effectively avoiding the risks of personnel injury and material damage during manual handling. Attached Figure Description
[0012] Figure 1 This is a schematic diagram of the structure of the special tool of this utility model;
[0013] The attached diagram is labeled as follows: 1-stiffening outrigger, 2-anti-slip rubber plate, 3-movable riveting, 4-spring, 5-photovoltaic panel. Detailed Implementation
[0014] The present invention will be further described below with reference to specific embodiments. These specific embodiments are further explanations of the principle of the present invention and are not intended to limit the present invention in any way. Any technology that is the same as or similar to the present invention does not exceed the protection scope of the present invention.
[0015] As shown in the figure, the portable photovoltaic panel manual secondary handling tool of this embodiment includes: stiffening support leg 1, anti-slip rubber plate 2, movable riveting 3, and high-pressure support spring 4.
[0016] The portable photovoltaic panel manual secondary handling tool features a stiffening support leg 1 made of Q235B carbon steel with a length greater than 200cm. The stiffening support leg 1 of the portable photovoltaic panel manual secondary handling equipment utilizes a movable riveting joint 3 for bearing rotation. A 5cm thick anti-slip rubber plate 2 is added to the clamping point of the portable photovoltaic panel manual secondary handling equipment. The photovoltaic panel is clamped and fixed in place by the movable stiffening support leg 1 via the movable riveting joint 3, and the anti-slip rubber plate 2 prevents damage to the photovoltaic panel. The portable photovoltaic panel manual secondary handling equipment uses a high-pressure support spring 4 to prevent damage to the photovoltaic panel due to force loss caused by excessive transport distance during manual transport.
[0017] As shown in the figure, the stiffening outrigger 1 is rotatably riveted via the movable riveting 3, and its range of motion is 100cm. The anti-slip rubber plate 2 is a 5cm thick black striped anti-slip rubber plate. The anti-slip rubber plate 2 can be thickened depending on the actual situation to improve the system's anti-slip performance. The high-pressure support spring 4 plays an auxiliary role in long-distance manual transportation.
[0018] This embodiment of the tool features a telescopic boom, which, through a hinge or telescopic rod design, allows for overall folding or length adjustment, facilitating transportation and storage. An additional locking pin or quick-release buckle ensures structural stability when unfolded.
[0019] This embodiment features a dedicated tool with a buffer and shock absorption mechanism. Rubber pads or dampers are added at the stiffened outriggers and movable riveting joints to reduce vibration and impact during handling, protecting the photovoltaic panels. This is especially beneficial in mountainous photovoltaic environments where uneven road surfaces or frequent start-stop operations are common.
[0020] This embodiment features a vertical modular clamping structure for the special tool, employing adjustable grippers or anti-slip silicone pads to accommodate photovoltaic panels of different sizes and prevent slippage during handling.
[0021] The special tool in this embodiment can be further equipped with a balance adjustment mechanism, with a sliding counterweight block at the bottom of the tool to prevent the photovoltaic panel from tipping over due to a shift in its center of gravity.
[0022] The special tool in this embodiment is equipped with a quick-assembly and disassembly interface, and adopts a snap-on or magnetic connection structure, which facilitates docking with equipment such as handcarts and forklifts, and improves handling efficiency.
[0023] In this embodiment, a special tool is equipped with an anti-static and anti-scratch protective layer. An anti-static coating or soft rubber edge protector is added to the part that contacts the photovoltaic panel to avoid damage to the surface of the photovoltaic panel.
[0024] This embodiment features a dedicated tool equipped with auxiliary lighting and warning devices, and adds reflective strips to the edge of the tool to improve work safety at night or in low-light environments.
[0025] The portable tool for manual secondary handling of photovoltaic panels is an improvement on traditional manual carrying, featuring a reinforced support leg 1 clamp that solves the problem of easy damage to photovoltaic panels. The reinforced support leg 1 is equipped with an anti-slip rubber plate 2, which, when fixed in a suitable position on the photovoltaic panel 5, firmly clamps the panel. The operator holds one end of the reinforced support leg 1 and moves it via the movable riveting 3 to move the photovoltaic panel 5 to the photovoltaic panel storage area for the next cycle of operation.
Claims
1. A portable tool for manual secondary handling of photovoltaic panels, characterized in that: It consists of stiffened support legs, anti-slip rubber plates, movable riveting, and springs; The stiffening outriggers have a scissor-shaped cross-leg structure, with each leg being longer than 200cm. The length of the long end is 5 to 7 times that of the short end. The cross section forms a movable riveting structure through rivets. The long end of the stiffening outrigger is hook-shaped, and the hook-shaped surface is fitted with an anti-slip rubber plate that is attached to the contact part of the photovoltaic panel. A support spring is installed between the ends of the stiffening outriggers.
2. The portable photovoltaic panel manual secondary handling tool according to claim 1, characterized in that: The anti-slip rubber sheet has an L-shaped structure and a thickness greater than 5 cm.
3. The portable photovoltaic panel manual secondary handling tool according to claim 1, characterized in that: The stiffening outrigger is a multi-section coaxial telescopic structure.
4. The portable photovoltaic panel manual secondary handling tool according to claim 1, characterized in that: The movable riveting adopts a snap-on or magnetic connection structure.
5. The portable photovoltaic panel manual secondary handling tool according to claim 1, characterized in that: Rubber pads or dampers are provided at the movable riveting joints of the stiffening outriggers to reduce vibration during handling.