Tengyun Solar Accessories: Tailored Solutions with Multiple Specifications

Photovoltaic brackets are the unsung heroes of the solar world, serving as the steadfast backbone and support system for photovoltaic panels, commonly referred to as solar panels. Their essential role is to ensure these panels are perfectly positioned towards the sun, thereby optimizing sunlight absorption and dramatically enhancing the efficacy of power generation.
Crafted with precision, photovoltaic brackets are typically constructed from durable steel, forming the critical 'skeleton' of solar systems. These steels are meticulously treated with advanced surface processes such as hot-dip galvanizing and galvanized aluminum magnesium to significantly bolster their corrosion resistance, thereby extending their robustness and lifespan. Key specifics include:
Hot dip galvanized brackets: These are the industry's go-to choice, favored for their remarkable thickness—often surpassing 2mm, and extending up to 2.5mm in particularly windy locales. While their price is on the higher side, these brackets reward with prolonged life, superior strength, and unmatched stability.
• Galvanized aluminum magnesium support: Designed with self-healing properties, this innovative metal surface is resistant to chlorine, alkali, abrasion, and corrosion, making it perfect for the harsh conditions found in deserts, mudflats, and saline-alkaline lands. This high-quality yet cost-effective choice minimizes operational expenses while enhancing the safety and dependability of power stations.
In addition to steel, aluminum alloy photovoltaic brackets are also prevalent. These lightweight brackets weigh roughly a third of their steel counterparts, albeit with less strength and toughness, and at a premium price. However, their outstanding corrosion resistance is perfect for coastal photovoltaic systems and installations on color steel roofs, where rust prevention is paramount.
Photovoltaic brackets come in various sophisticated designs. Based on installation methods, they divide into fixed brackets and tracking brackets. Fixed brackets have components with a static orientation but allow manual seasonal adjustments. Meanwhile, tracking brackets can automatically follow the sun's path, ensuring the photovoltaic panel maintains optimal sun exposure, though they are priced higher.
Furthermore, depending on application scenarios, photovoltaic brackets are categorized into roof brackets, ground brackets, and agricultural photovoltaic system brackets, among others. Each is expertly engineered to cater to specific environments and needs, ensuring photovoltaic panels generate electricity steadily and efficiently.
In the domain of photovoltaic bracket manufacturing, raw materials are a major cost component, comprising over 70% of the total cost, with steel alone accounting for half. The weight variation in brackets is dictated by factors like material, design, and scale, impacting the overall cost structure.
The application landscape for photovoltaic brackets is vast, spanning from large-scale ground-based photovoltaic power stations to residential rooftop systems and agricultural photovoltaic configurations. Their pivotal presence is indispensable, forming the cornerstone of the photovoltaic power generation ecosystem, and ensuring the stability and efficiency of the entire power system.