Product Description
The Customized Agricultural Use Snow Proof Vertical-Tilted Single-Axis Solar Tracker (VTSAT) Bracket is designed for industrial agricultural applications. This single-axis solar bracket features a snow-proof design, ensuring optimal performance even in harsh weather conditions. The vertical-tilted design allows for maximum sunlight exposure, increasing energy output. Made with pest-resistant materials, this bracket is durable and long-lasting. Easy to install and customize, this bracket is the perfect solution for agricultural solar projects. Enhance your solar energy system with the efficiency and reliability of the VTSAT Bracket.
| 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 |
Product advantages
1. Efficient snow prevention design
Automatic tilt adjustment: Vertical tilt single axis design, automatically adjusts to the optimal tilt angle (0 ° -60 °) in winter, allowing snow to quickly slide down and reducing power generation losses (with efficiency recovery of over 95% after snow).
Reinforced load-bearing structure: Adopting high-strength galvanized steel and aluminum alloy frame, it can withstand snow load ≥ 1.5kN/m ², avoiding the risk of snow crushing.
2. Adaptability to agricultural scenarios
Height adjustable space compatibility: The bottom clearance of the bracket is ≥ 2.5m, supporting the passage of agricultural machinery and crop planting, achieving seamless integration of "photovoltaic+agriculture".
Intelligent obstacle avoidance mode: By recognizing the activities of agricultural machinery or personnel through sensors, the angle of the bracket is temporarily locked to ensure the safety of agricultural operations.
3. Weather resistance and long lifespan
All climate protection: hot-dip galvanizing+low temperature resistant coating (-40 ° C to+80 ° C), anti freezing and thawing cycles, fertilizer corrosion, and high humidity environment.
Low maintenance drive system: IP67 waterproof motor+self-lubricating bearings, suitable for frequent rain and snow environments, with a maintenance cycle extended to 1 year/time.
4. Flexible customization
Modular size customization: supports row spacing, span, and component type (double-sided/single-sided) customization to meet different crop lighting requirements.
Multi energy integration: optional snow melting heating belt or linkage with energy storage system to ensure stable power supply in winter.
Installation and Maintenance Guide
Installation steps
Venue planning:
Design support layout based on crop row spacing, and reserve agricultural machinery channels (≥ 3m width).
Pre embedded spiral ground piles (below frozen soil layer) or concrete foundations to ensure the foundation is resistant to frost heave.
Bracket assembly:
Modular splicing of columns and inclined guide rails, calibration of verticality (error<1 °), bolt torque values according to standards (such as 40-60N · m).
Drive system integration:
Install low-temperature resistant motors and snow melting sensors, and configure obstacle avoidance mode triggering logic (such as infrared sensing range of 5m).
System integration debugging:
Test snow load simulation (tilt reset speed ≤ 10 minutes), calibrate obstacle avoidance response time (<30 seconds).
Maintenance points
Snow season maintenance:
After snow, check the tilt angle reset function and remove residual ice debris from the guide rail.
Check the heating belt (if installed) circuit every month to prevent short circuits.
Maintenance during peak farming season:
Confirm the sensitivity of the obstacle avoidance mode before cultivation to avoid collisions between the agricultural machinery and the support frame.
Clean up the weeds under the support after harvesting to prevent fire hazards.
Annual maintenance:
Check the corrosion condition of the galvanized layer and apply a corrosion-resistant coating.
Lubricate the motor gearbox (using -40 ° C low-temperature grease) and upgrade the control algorithm.
Safety regulations
Snow installation requires wearing anti slip equipment to avoid working on slopes covered in snow.
When enabling obstacle avoidance mode, clear warning signs should be set up to prevent personnel from entering the sensing area by mistake.
Application scenarios
1. High latitude farms: In snowy regions such as Northern Europe and Canada, they balance winter power generation with summer agricultural planting.
2. Power supply for greenhouse: The top of the bracket provides clean electricity for the greenhouse, and the space below is used to plant high-value crops (such as berries and fungi).
3. Ranch photovoltaic system: The bracket height allows for grazing of cattle and sheep, and the winter tilt angle blocks cold winds, improving the microclimate of the pastoral area.
4. Off grid projects in snowy areas: snow capped scenic spots, remote outposts, and other scenes, with snow prevention design to ensure uninterrupted power supply throughout the year.
5. Terraced photovoltaic agriculture: Vertical arrangement of hillside land reduces soil erosion, and inclined tracking optimizes light absorption.
6. Snow melting irrigation power supply: Provide green energy for electric heating snow melting systems or intelligent irrigation equipment in agricultural areas.
Company Profile
Our Advantages
Packaging & Shipping
FAQ
1.What is the impact of snow thickness on power generation?
When the bracket automatically tilts above 55 ° and the snow thickness is ≤ 30cm, it can slide off on its own, resulting in a power generation loss of<5%; The vibration snow removal mode can be manually activated for extremely thick snow.
2.Does it affect crop lighting?
The spacing of the bracket can be customized (recommended ≥ 4m), combined with a double-sided component light transmission design, ensuring that the crop below meets over 90% of its growth needs for illumination.
3.Can it operate normally under extreme low temperatures?
The motor and controller are equipped with built-in heating modules- It can still start at 40 ° C, with a tracking delay of less than 5 minutes.
4.Does the installation require damaging farmland?
Adopting spiral pile or no foundation weight scheme, without the need for concrete hardening, to protect soil structure.
5.Is the maintenance cost high?
The average annual maintenance cost is only 1.2 times that of fixed brackets, but the power generation revenue increases by 25% -40%, resulting in a better overall return.
6. Is it compatible with drip irrigation/sprinkler irrigation systems?
Support the integration of irrigation pipelines with brackets, reserve water and electricity interfaces, and achieve the integration of "photovoltaic+water-saving agriculture".
7.How long is the investment payback period?
After the agricultural photovoltaic overlay policy subsidy, typical projects have a payback period of 3-4 years and long-term returns have increased by more than 30%.
){kind=link}