Tengyun Solar Panel Accessories with Customizable Aluminum Temp Specifications

Photovoltaic brackets play a crucial role as robust supports and fixtures for photovoltaic panels, which are commonly known as solar panels. Their primary mission is to expertly align these panels towards the sun, ensuring maximum sunlight absorption, thereby significantly enhancing the efficiency of power generation systems.
Expertly crafted from steel, photovoltaic brackets function as the indispensable 'skeleton' of the entire system. These steel components are treated with specialized surface processes like hot-dip galvanizing and galvanized aluminum magnesium, which substantially enhance their resistance to corrosion, durability, and longevity. Specifically:
Hot dip galvanized brackets: These are highly prevalent in the industry, with a common thickness of over 2mm, reaching up to 2.5mm in regions where wind conditions are more severe. Although the cost is relatively high, they boast an extended lifespan, exceptional strength, and remarkable stability.
• Galvanized aluminum magnesium support: This type features self-healing cuts and a metal surface resistant to chlorine, alkali, abrasion, and corrosion, making it well-suited for harsh environments like deserts, mudflats, saline, and alkaline lands. It stands as a superior quality, cost-effective option that reduces operational expenses while enhancing the safety and reliability of power stations.
In addition to steel, aluminum alloy-based photovoltaic brackets are available in the market. These aluminum alloy brackets are significantly lighter, weighing only about a third of their steel counterparts. Despite having lower strength and toughness and a higher price, their outstanding corrosion resistance makes them ideal for photovoltaic systems in coastal areas and on color steel roofs where rust prevention is crucial.
Photovoltaic brackets come in a variety of designs, categorized by installation methods into fixed brackets and tracking brackets. Fixed brackets have components with a static orientation but allow manual adjustments for seasonal lighting changes. In contrast, tracking brackets autonomously follow the sun's position, ensuring the photovoltaic panel faces the sun at all times, though they incur a higher cost.
In addition, photovoltaic brackets are tailored to various application scenarios and can be further classified into roof brackets, ground brackets, and agricultural photovoltaic system brackets. Each type is meticulously engineered to meet specific environments and requirements, guaranteeing that photovoltaic panels generate electricity in a stable and efficient manner.
Within the realm of photovoltaic bracket manufacturing costs, raw materials play a dominant role, comprising over 70% of the total cost, with steel accounting for half of this percentage. Variations in bracket weight are dictated by materials, design, and scale, impacting overall expense and efficiency.
The application spectrum for photovoltaic brackets is vast, encompassing large-scale ground-based photovoltaic power stations, domestic rooftop systems, and agricultural photovoltaic systems. Their presence is essential, serving as the backbone of the photovoltaic power generation ecosystem, ensuring both stability and efficiency throughout the entire power generation system.