2023-11-10
Photovoltaic bracket is a structure used to install solar panels. It plays a role in fixing and supporting solar panels in the photovoltaic system.
Traditional brackets: The earliest photovoltaic bracket designs used traditional metal materials, such as steel and aluminum alloys. These brackets are usually made of angle steel and H-shaped steel and are installed on the ground, roof or other building structures. This design is simple and durable, but bulky and difficult to install.
Profile steel brackets: With the development of the photovoltaic industry, profile steel brackets have gradually become mainstream. The steel bracket is made of high-quality lightweight steel and has high strength and stability. They are commonly used in large-scale photovoltaic power plant projects and can be adjusted and fixed according to needs.
Aluminum alloy brackets: In recent years, due to the advantages of aluminum alloys such as lightweight, corrosion resistance and recyclability, more and more photovoltaic brackets have begun to be made of aluminum alloy materials. Aluminum alloy brackets have lower weight and are easy to process, which can reduce transportation and installation costs.
Adjustable brackets: In order to maximize the use of solar energy resources, photovoltaic brackets continue to develop designs with adjustable angles. Such racks can be adjusted based on factors such as season, daylight hours and geographic location for optimal solar collection.
Ground bracket and roof bracket: Depending on the installation location, photovoltaic brackets are further divided into ground brackets and roof brackets. Ground supports are often used in large-scale photovoltaic power plants and can be fixed on the ground to provide a stable support structure. Roof mounts are used to install solar panels on building roofs, and are commonly used in commercial and residential buildings.
Innovative design: In order to further improve the efficiency and sustainability of photovoltaic systems, some innovatively designed photovoltaic brackets have begun to appear. For example, tracking mounts can automatically adjust their angle based on the position of the sun to maximize solar energy collection. In addition, new designs such as flexible brackets and transparent brackets are also expected to promote the development of photovoltaic brackets.
In general, photovoltaic brackets have experienced a transformation from traditional metal materials to lightweight steel and aluminum alloy materials, while constantly introducing adjustable angles and innovative designs. In the future, as technology advances and market demands change, photovoltaic brackets will continue to develop to adapt to the requirements of more efficient, flexible and sustainable photovoltaic systems.