High reliability : The design is based on the static, dynamic and aeroelastic reports provided by the authoritative American wind tunnel consulting unit CPP in the field of tracking photovoltaic brackets. In addition, wind engineering experts from Hunan University are hired as consulting units for wind tunnel usage to ensure that ATEC uses the wind tunnel test report correctly when designing tracking brackets;
Applicable to domestic and international mainstream standards : GB, American standard, European standard, Australian standard, etc.
High degree of optimization comparison : After programming the possible sections, traversal calculations are performed, and the total number of calculation models and sections is as many as 7,000. From them, the section that best suits the load characteristics and set wind pressure is selected as the main beam section;
High flatness: In the installation of purlins, the purlins are wedged with the main beams, and there is no need to rely on the bolts connecting the purlins and the main beams for positioning (the purlins are positioned by connecting bolts when the square tube main beam is installed). The installed purlins have a smoother surface, a better appearance, and no wavy phenomenon;
Tracking algorithm: The system integrates astronomical algorithms and is compatible with Huawei SDS algorithms;
Patented products: invention patents, utility model patents;
Ultra-low energy consumption and easy installation : a single unit consumes 2 kWh of electricity per month. The bracket design has low requirements on terrain flatness, and the commissioning speed reaches 4-5MW/day/person;
