#Industry ·2025-11-27
When panels of decommissioned photovoltaic modules are removed from roofs and power stations, how to efficiently recycle their aluminum frames, silicon wafers, and other resources has become a key issue for the sustainable development of the photovoltaic industry. The photovoltaic panel aluminum frame removal machine is precisely the "solution" to this problem—like a precise "surgeon," it makes the recycling of used photovoltaic panels more efficient and environmentally friendly. In the past, manually removing photovoltaic panel aluminum frames was a laborious task: workers had to use pry bars and scissors to forcefully disassemble them, with a maximum of a few dozen panels per day. This was not only inefficient but also often resulted in cuts from the sharp edges of the aluminum frames. More troublesome was the fact that violent disassembly could easily damage the glass and silicon wafers, reducing the recovery rate of resources. However, the emergence of the aluminum frame removal machine has completely changed this situation. This machine may seem small, but it packs a lot of "advanced technology": it can automatically identify the size of the photovoltaic panels and the location of the aluminum frames, fix the panels with hydraulic clamps, and then precisely separate the aluminum frames from the glass using a high-speed rotating cutting blade. The entire process requires no manual intervention, with each panel taking just a few seconds to remove, allowing hundreds of panels to be processed per day, which is more than ten times faster than manual removal. More importantly, its cutting force is controllable, with a glass breakage rate of less than 1% and greatly improved silicon wafer integrity. At a photovoltaic recycling factory in Jiangsu, I once witnessed its operation: decommissioned photovoltaic panels were neatly fed into the input port, and the machine "hummed" to start. The clamps gently clamped the panels, and the cutting blade sliced through, allowing the aluminum frames to slide off like a removed coat. The separated glass and aluminum frames were then sent to different conveyor belts. Workers only needed to monitor the equipment nearby, without having to deal with sharp parts, greatly improving safety. Aluminum frames are one of the most highly recycled components of photovoltaic panels, with each ton of aluminum frames saving several tons of ore resources. The application of the removal machine allows these aluminum frames to quickly enter the recycling process and be transformed into new aluminum profiles. It not only reduces recycling costs but also pushes the photovoltaic industry one step closer to a "green closed loop." This small removal machine is the epitome of technology empowering environmental protection. It uses precision and efficiency to ensure that used photovoltaic panels are no longer "e-waste" but renewable "urban mines." In the future, with technological advancements, it may integrate even more functions—such as simultaneously separating silicon wafers and backplanes, making photovoltaic recycling even smarter. And this is precisely the "temperature" of green technology: illuminating the future of the circular economy with tiny innovations.
2025-11-28
2025-11-28
2025-11-28
2025-11-28
2025-11-28
2025-11-28
No. 15 Industrial Avenue, Industrial Park, Shicheng County, Jiangxi Province
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