Multiple Specifications of Tengyun Aluminum Temp Solar Accessories

Photovoltaic brackets are the backbone of solar panel installations, offering steadfast support and precise positioning to ensure that solar panels are perfectly aligned with the sun. This pivotal function enhances sunlight absorption, thus dramatically boosting the efficiency of solar power generation.
Engineered primarily from steel, photovoltaic brackets form the fundamental 'framework' of the system. These steels undergo specialized treatments like hot-dip galvanizing and galvanized aluminum magnesium, meticulously crafted to enhance their resistance to corrosion, thereby prolonging their durability and lifespan. Specifically:
Hot dip galvanized brackets are a popular choice, featuring a robust thickness that often exceeds 2mm, and can reach up to 2.5mm in areas prone to strong winds. While they are more expensive, their superior lifespan, impressive strength, and exceptional stability make them an invaluable investment.
• Galvanized aluminum magnesium supports are designed with self-healing cuts, allowing the metal surface to resist chlorine, alkali, abrasion, and corrosion. This makes them suitable for harsh environments like deserts, mudflats, and saline-alkaline lands. Offering high quality and cost efficiency, they enhance the reliability and safety of power stations while minimizing operational costs.
In addition to steel, aluminum alloy-based photovoltaic brackets are available, noted for their remarkable lightness—approximately a third of steel's weight. Although they offer less strength and toughness and are more costly, their unmatched corrosion resistance makes them perfect for coastal photovoltaic systems and installations on color steel roofs where rust prevention is paramount.
Photovoltaic brackets are designed with diversity in mind. Based on installation techniques, they can be divided into fixed and tracking brackets. Fixed brackets have a static orientation but allow manual seasonal adjustments for optimal lighting. In contrast, tracking brackets automatically follow the sun's path, ensuring panels always face the sun, albeit at a higher cost.
Photovoltaic brackets can also be categorized by application scenarios into roof, ground, and agricultural photovoltaic system brackets, among others. Each type is precisely engineered to meet specific environmental and functional requirements, ensuring efficient and stable electricity generation from photovoltaic panels.
In the photovoltaic bracket industry, raw materials play a crucial role in manufacturing costs, contributing over 70% to total expenses, with steel alone comprising half. Bracket weight variations are dictated by material choice, design intricacies, and scale considerations.
The application range for photovoltaic brackets is vast, covering extensive ground-based solar power stations, domestic rooftops, and agricultural systems. These brackets are indispensable, forming the essential foundation for photovoltaic power generation, ensuring systemic stability and efficiency.