Product Description
Integrated Energy Baked Paint Spray Tilted Single Axis Solar Tracking Rack
Designed for highly corrosive environments and complex energy scenarios, the tilting single-axis solar tracking racking system combines industrial-grade baking and spraying processes with intelligent energy management technologies. The system optimises light capture efficiency through dynamic tilt angle adjustment (±45°), and with integrated design, it is compatible with photovoltaic power generation, energy storage system and microgrid control, suitable for coastal and industrial areas with high salt spray and pollution, significantly improving energy output and system life.
| 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. Super corrosion resistance
Three layers of high-temperature baking spray coating (primer + epoxy resin + polyester top coat), passed ISO 9227 salt spray test (2000 hours without rusting), adapted to acid and alkali environments with pH 3-11.
Aviation-grade aluminium-magnesium alloy + hot-dipped galvanised steel dual-material structure, wind load resistance up to 60m/s, snow load 5500Pa, in line with AS/NZS standard.
2. Intelligent Energy Integration
Built-in data interface supports seamless connection with energy storage inverters and energy management platform (EMS) to achieve power generation-storage-usage synergistic control.
AI Tracking Algorithm: Combining meteorological data and grid demand, it dynamically adjusts the tracking angle, increasing average daily power generation by 30%-40%.
3. Tilt optimisation design
10°-50° adjustable tilt angle, adapting to seasonal and latitudinal light changes, increasing power generation efficiency by an additional 15% in winter.
Bifacial-friendly: adjustable bracket spacing and height to maximise the backside gain of bifacial modules (+18%).
4. Rapid deployment and low maintenance
Modular pre-assembled units, reducing on-site welding by 50%, supporting helical pile, concrete and rooftop ballast mounting, and adapting to terrains with slopes ≤20%.
Self-cleaning coating: hydrophobic and dust-proof surface, reducing manual cleaning frequency by 90%.
5. Environmental protection and economy
95% recyclable materials, 35% reduction in production energy consumption, EPD environmental certification.
Payback period <4 years, power generation decay rate ≤0.5%/year during warranty period.
Installation and Maintenance Guide
Installation Steps
Foundation preparation: Select pile type according to geological report (recommended torque ≥3500N-m helical piles).
Bracket assembly: bolts are tightened in diagonal order (torque 60N-m±5%), guide rail levelling error ≤1mm/m.
System integration: connect tracking motor (IP68 protection), sensor and energy management terminal, calibrate the zero point of inclination.
Joint testing: Verify tracking angle accuracy (±0.5°) and wind speed response delay (<2 seconds) through PLC.
Maintenance recommendations
Quarterly inspection: repair of coating damage (special paint repair kit provided), reset of bolt locking marks.
Annual maintenance: motor gear lubrication (NLGI grade 2 lithium grease), system firmware upgrade.
After extreme weather: forced reset bracket to a safe angle (25°), check electrical grounding resistance (≤4Ω).
Typical Application Scenarios
Coastal photovoltaic power station: salt spray corrosion resistant design for offshore projects such as harbours and islands.
Distributed energy in industrial areas: integrated photovoltaic storage system for chemical plants, oil refineries and other highly polluted areas.
Desert power station: sand and dust resistant, UV resistant, with energy storage to achieve off-grid power supply.
Agricultural photovoltaic complementary: adjustable height (1.8m-3.5m) to meet the needs of agricultural machinery and crop light.
Urban microgrid: combined with building BIPV system to optimise peak and valley tariff arbitrage.
Company Profile
Our Advantages
Packaging & Shipping
FAQ
Q1: What is the difference between baking spraying and traditional galvanising?
A: Baking spraying forms a dense protective layer through high temperature curing, with 3 times higher acid and alkali resistance and adhesion than normal galvanising, increasing the lifespan to more than 30 years, and supporting customised colours (e.g. RAL 7016 Industrial Grey).
Q2: How does the system work on rainy days?
A: The built-in humidity sensor automatically switches the system to 'flood-resistant mode', resetting the bracket to the maximum drainage inclination (10°) and reducing the power consumption of the motor to standby (<5W).
Q3: Is it compatible with third party energy storage systems?
A: It supports Modbus/TCP and CANopen protocols, and has been adapted to mainstream energy storage devices such as Tesla Powerwall and Huawei LUNA, and provides API interfaces for secondary development.
Q4: Do I need professional staff for maintenance?
A: We provide AR remote assistance tools, scanning the QR code of parts to get 3D disassembly and installation guidelines, and ordinary operation and maintenance personnel can complete more than 80% of the operations.
Q5: What is the warranty and after-sales protection?
A: 20-year warranty for the main structure, 10-year warranty for the drive system, 72-hour global emergency response, and free lifetime coating repair programme.
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