As the main structure of the pv mounting system,the galvnized steel are made by good quality Q235B and Q345B.
Brand:
CORIGY SOLARItem NO.:
SMC134Product Origin:
ChinaShipping Port:
XIAMENLead Time:
Depends on project time or receipt time
U Shape Steel
As the main structure of the pv mounting system,the galvnized steel are made by good quality Q235B and Q345B.The performance of load-bearing,wind resistance and seismic resistance has been given sufficient consideration,which will ensure the safety of the system.We adopt advanced galvanized technology, make the appearance of beautiful, has the property of anti corrosive wear-resisting,increasing the utilization rate of the product and service life.
Product Name |
U Shape Steel |
Mount Location |
Ground, Rooftop |
Design Standard |
AS/NZS 1170 , DIN 1055 ,JIS C8955 2017 |
Rack Material |
Al6005-T5 (Surface Anodic Oxidation) |
Length |
2400mm/3400mm/5200mm or Customized |
Warranty Period |
10 years |
Service Life |
25 years |
Loading Port |
Xiamen Port,China |
Corigy Solar has been focusing on manufacturing and design solar mounting bracket for more than 10 years. Corigy's products have been installed and used in more than 30 countries and regions, with a total installed capacity of more than 8GW. After the construction is completed, all projects are completed by the official acceptance team, and they are currently officially put into operation.
In
terms of selection, Corigy is based on the principle of highest
quality. The bracket uses high-quality main materials high-grade anode
aluminum Al6500-T5. The surface uses anode oxidation 12-15mic. Excellent
anti-corrosive rust and anti-rust performance ensures its 30-year
service life. At the same time, the characteristics of aluminum
lightweight reduces the weight of the roof and make it safe and
reliable. The maximum wind speed can carry 60m/s, and the snow load
capacity is 1.4kn/㎡.
All
bracket solutions of Corigy are calculated based on the live conditions
environment. Corigy's advanced technical team conducted a force
analysis of the structure of the building, combined with the layout of
the bracket and photovoltaic components to verify the various feasible
bracket installation solutions to determine the most efficient,
convenient, safe and reliable solution.