Durable Solar Module Bracket for Enhanced Solar Energy Performance

Photovoltaic brackets serve a crucial role as the primary support structure for photovoltaic or solar panels. These brackets are designed to hold the panels at the perfect angle relative to the sun, maximizing sunlight absorption and dramatically boosting the efficiency of power generation.
Typically crafted from robust steel, photovoltaic brackets act as the 'backbone' of solar panel systems. This steel framework undergoes specialized surface treatments like hot-dip galvanizing and galvanized aluminum magnesium coating to significantly bolster its resistance to corrosion, thereby extending its lifespan and durability.
Hot dip galvanized brackets are a prevalent choice, known for their thickness, which often exceeds 2mm and can even reach 2.5mm in areas prone to high winds. Despite the higher cost, these brackets offer unparalleled longevity, strength, and stability, making them a wise investment.
• Galvanized aluminum magnesium supports: These innovative brackets feature self-healing cuts and a metal surface that withstands chlorine, alkalis, abrasion, and corrosion. This durability makes them ideal for harsh environments such as deserts, mudflats, and saline-alkaline lands, offering superior quality at a lower price point, thereby reducing costs and enhancing the safety of power stations.
Beyond steel, aluminum alloy is another popular material for photovoltaic brackets. Known for being lightweight, at roughly a third of the weight of steel, aluminum alloy brackets, however, have lower strength and toughness. They are also more costly, but their excellent resistance to corrosion and rust makes them a perfect fit for photovoltaic systems in coastal regions and on color steel roofs.
The diversity of photovoltaic brackets is extensive. They can be categorized based on installation methods into fixed and tracking brackets. Fixed brackets maintain a steady orientation that can be manually adjusted seasonally, whereas tracking brackets, though pricier, automatically follow the sun's path, keeping panels optimally aligned all year round.
Additionally, photovoltaic brackets are tailored to various application scenarios like rooftop, ground-mounted, and agricultural photovoltaic systems. Each design is meticulously engineered to meet environmental and situational demands, ensuring that photovoltaic panels deliver stable and efficient power generation.
In the cost structure of photovoltaic brackets, raw materials constitute over 70%, with steel being the primary expense. Variations in bracket weight depend on factors such as material choice, design intricacy, and scale of production.
The scope of application for photovoltaic brackets is exceedingly broad, spanning from expansive ground-based solar power stations to compact residential rooftop systems and agricultural photovoltaic setups. These brackets are fundamental to the solar power generation ecosystem, underpinning the system's stability and efficiency.