Distributed Photovoltaic Bracket

The lightweight design of the Distributed Photovoltaic Bracket helps reduce the load on the roof, while using a convenient fixing method to simplify the construction process. The appearance of the bracket also needs to blend with the architectural style to maintain the overall beauty. In addition, the brackets needed to have excellent wind pressure resistance and safety to withstand a variety of adverse weather conditions. Ease of maintenance and installation reduces costs while maximizing roof space and increasing power generation efficiency.

In practical applications, photovoltaic distributed supports are widely used in urban buildings or places with tight land use to generate electricity through photovoltaic modules, reducing site requirements. It can be used not only in rooftop photovoltaic power generation systems, but also in agricultural photovoltaic systems, providing crops with the dual functions of shading and generating electricity, reducing the economic cost of the agricultural system.

Characteristics of distributed photovoltaic brackets：
1. No welding, no drilling design. This means the racking system is more environmentally friendly and offers greater flexibility as components can be adapted and repurposed more easily.
2. Lightweight and corrosion resistance. Usually made of aluminum alloy or lightweight materials, such materials not only reduce the load on the roof, but also effectively prevent corrosion, especially in humid or corrosive environments.
3. Strong adaptability and high economy. Photovoltaic racks can adapt to different roof types and materials and help reduce costs by increasing power generation efficiency.
4. Strong reliability. The scientific design enables the bracket to withstand severe weather and natural disasters, ensuring the stable operation of the system.
5. Integration of appearance and architectural style. While maintaining aesthetics, it harmonizes with its surroundings.
6. Wind pressure resistance and safety. Distributed photovoltaic racks place special emphasis on wind pressure resistance and safety to adapt to various severe weather conditions.
7. Easy to maintain and install. Streamlined construction processes and reduced installation costs while maximizing roof space and improving power generation efficiency.