Model No.: BIM-58
Brand: BIM
Dimension: according to drawing
Delivery Time: 7 days
Warranty: 1 year
Packaging: pallets
Productivity: 20000tons/year
Transportation: Ocean,Land,Air,Express
Place of Origin: Suzhou
Supply Ability: 20000tons/year
Certificate: ISO
HS Code: 7308900000
Port: Shanghai,Ningbo,Tianjin
Payment Type: L/C,T/T,D/P,D/A,Paypal
Incoterm: FOB,CFR,CIF,EXW,FAS,FCA,CPT,CIP,DEQ,DDP,DDU,Express Delivery,DAF,DES
Solar brackets are an important component of solar power generation systems, and their main function is to support solar panels, enabling them to face the sun correctly, in order to maximize the absorption of solar energy and convert it into electricity. The application range of solar brackets is very wide, and the following will introduce the application of solar brackets in detail.
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1、 Residential solar power generation system With the increasing awareness of environmental protection and the demand for renewable energy, more and more households are starting to install solar power generation systems. The residential solar power generation system mainly consists of solar panels, inverters, and solar brackets. The function of solar brackets is to install solar panels on roofs or courtyards, so that they can face the sun and maintain an appropriate tilt angle. Absorbing solar energy through solar panels and converting it into electrical energy, and then converting direct current into alternating current through inverters for household use. The stability and adjustable angle design of the solar bracket can ensure that the solar panel can fully receive solar energy and improve power generation efficiency. 2、 Industrial solar power generation system Industrial solar power generation systems are usually large-scale solar power plants used to supply the electricity demand of industrial plants or large commercial buildings. These solar power plants typically consist of hundreds or even thousands of solar panels, requiring the use of a large number of solar brackets to support these panels. Industrial solar powered supports generally use steel structures and concrete foundations, which have high stability and wind resistance, and can withstand various harsh weather conditions. The design of solar brackets is also very important, taking into account the layout, inclination, and spacing of the panels to maximize the utilization of solar energy resources. 3、 Agricultural solar power generation system Agricultural solar power generation systems are mainly used for agricultural irrigation, power supply for agricultural facilities, and other purposes. Solar brackets are widely used in agricultural solar power generation systems. For example, in agricultural irrigation systems, solar brackets can install solar panels next to irrigation pumps, converting solar energy into electricity through photovoltaic power generation, and driving the pumps for irrigation. The design of solar brackets should take into account the layout and inclination of the solar panels, so that they can fully receive solar energy and ensure the stable operation of the photovoltaic power generation system. 4、 Transportation field The application of solar powered brackets in the field of transportation is also gradually increasing. For example, solar powered brackets can be installed next to transportation arteries such as highways, highways, and railways, providing power to equipment such as traffic lights and surveillance cameras through solar power generation, reducing reliance on traditional power grids and improving energy efficiency. In addition, the solar powered bracket can also be installed next to the electric vehicle Charging station to charge the electric vehicle through solar power generation to achieve green travel. 5、 Remote area power supply In some areas far from the power grid, solar brackets can be used to build power supply systems in remote areas. By installing solar panels and solar brackets, solar energy is converted into electricity and supplied to local residents. This application method can reduce dependence on traditional power grids, improve the reliability and stability of energy supply, and also reduce the impact on the environment.