Product Description
Introducing our Factory wholesale custom ground solar mount bracket, perfect for optimizing the performance of your solar panels. This innovative solar tracker system ensures that your panels are always facing the sun, maximizing energy production. The sturdy design of this solar mounting tracker provides reliable support for your panels, making installation a breeze. Say goodbye to inefficient solar panel setups with our Sun Tracking Bracket System. Whether you are a homeowner looking to reduce energy costs or a business owner aiming to go green, this solar panel rack is the ideal solution. Trust in our high-quality solar panel support to enhance the efficiency and longevity of your solar energy system. Upgrade to our Sun Tracking Bracket System today and start harnessing the power of the sun like never before.
| System type |
Independent Drive |
| NO.of Panel |
2-10 Piece(≤23 sq.m.) |
| Power Consumption |
5.0Kwh/set/year |
| Max. wind speed in running |
24 m/s |
| Max. wind speed in fat |
40 m/s |
| Rust protection |
Hot-dipped galvanized/superdyma |
| Azimuth angle tracking range |
±45ºC |
| Elevation angle tracking range |
45ºC |
| Control model |
Time + GPS Control |
| Tracking accuracy |
0.1°-2°(Adjustable) |
| Control tilt angle method |
Manual remote control+remote computer control |
Core Advantages
1. Industrial grade anti-corrosion performance
Hot-dip galvanising + double-sided coating: uniform zinc layer coverage, passing 3000 hours salt spray test (no red rust), surface sprayed epoxy resin + polyurethane coating, acid and alkali resistant (pH 2-12), UV aging resistant.
C5M anti-corrosion grade: designed for coastal, chemical park, high humidity environment, service life ≥ 30 years.
2. Environmental Compliance Guarantee
ROHS certification: All materials are free of lead, cadmium other 10 hazardous substances, complying with EU environmental standards and supporting export to the European market.
Carbon Footprint Optimisation: 95% of materials are recyclable, 30% reduction in production energy consumption, EPD international environmental protection certification.
3. High strength structural design
Q345B high-strength steel main beam: wind load resistance up to 65m/s (Class 15 typhoon), snow load 6000Pa, IEC 62817 structural certification.
Single bearing weight of 7 tonnes/group: compatible with double-sided modules, 210mm oversize and PERC/HJT technology, supporting flexible arrangement.
4. Intelligent tracking and efficient power generation
AI light-sensing algorithm: average daily power generation is increased by more than 30%, and cloudy day mode automatically switches to fixed inclination energy-saving mode (power consumption <0.1kWh/day).
Double-sided module optimisation: adjustable height from 1.5m-3.5m above the ground, backside power generation gain increased by 15%-20%.
5. Rapid deployment and low-cost O&M
Modular pre-assembly design: 50% less on-site welding, adaptable to helical piles, concrete and ballast foundation, daily installation capacity ≥ 8MW.
Self-lubricating bearings + hydrophobic coating: annual maintenance cost <0.5% of power generation gain, automatic reset to safe angle (25°) after disaster.
Installation and Maintenance Guide
Installation steps
Foundation construction: Select pile foundation according to load requirements, horizontal error ≤1.5°.
Bracket assembly:
Main beam and column bolt fastening torque 70N-m±5%, guide rail spacing adapted to component border (error ±1mm).
System integration:
Installation of IP68 protection motor, connection of light sensor and PLC controller, calibration of tracking zero point (accuracy ± 0.5 °).
Test high wind reset response (wind speed ≥18m/s automatically switch to wind resistant angle, delay <2 seconds).
Maintenance Recommendations
Monthly inspection: clean track debris, check bolt anti-loosening marks, coating integrity (use coating thickness gauge).
Annual maintenance: lubricate bearings (high temperature lithium grease), update control software, test earthing resistance (≤4Ω).
Post-disaster treatment: forced reset of brackets after typhoon/sandstorm, check structural deformation and electrical connections.
Typical Application Scenarios
Large-scale ground power station: desert, Gobi, mudflats and other GW-level centralised PV projects.
Industrial and commercial rooftops: distributed power generation in factories, warehouses and commercial complexes, suitable for tilted roofs.
Agricultural photovoltaic complementary system: adjustable height of the support (2m-4m), compatible with crop cultivation and photovoltaic power generation.
Coastal PV: Salt spray resistant design, suitable for harbours, islands and tidal zones.
International assistance projects: ROHS certification helps to enter the European and American markets and support the clean energy transition of emerging countries.
Company Profile
Our Advantages
Packaging & Shipping
FAQ
Q1: What are the specific requirements for ROHS certification?
A: The products are ROHS certified, the content of lead, cadmium, other hazardous substances in the materials are less than 0.01%, which is in line with the EU export regulations.
Q2: How does the hot dip galvanised layer perform in acid rain environment?
A: The zinc layer can still maintain a thickness of ≥25μm in a pH 4 environment, and laboratory tests show no red rust penetration for 5000 hours, with a life span of ≥30 years.
Q3: Does it support double-glass modules and tracking linkage?
A: Completely compatible! The track spacing can be adjusted to 30-60mm, and the back side is reserved for ventilation gap to maximise the double-sided rate gain.
Q4: What is the delivery cycle for 100MW projects?
A: Standardised production + regional warehousing, 100MW projects only take 8-12 weeks from order to grid connection (including foundation construction).
Q5: What are the warranty and after-sales service terms?
A: We provide 10-year main structure warranty, 5-year drive system warranty, 72-hour global emergency response, and lifetime free coating repair support.
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