Product Description
Jchx High Quality Hot Dipped Galvanized Steel Ground Solar Mount Brackets
Jchx High Quality Hot Dipped Galvanized Steel Ground Solar Mount Brackets is a heavy-duty, corrosion-resistant mounting solution designed for high-density solar installations. Featuring a dual-row design, this system maximizes land efficiency by supporting two rows of solar panels on a single racking structure. Built with hot-dipped galvanized steel, it delivers unmatched durability in harsh environments while simplifying installation for utility-scale solar farms, commercial projects, and industrial applications.
| Parameter |
Specification |
| Material |
High-strength carbon steel |
| NO.of Panel |
Custom |
| Number of rows of racks |
Custom |
| wind load |
60m/s |
| snow load |
1.4KN/M2 |
| Coating |
Hot-dipped galvanized/Zn Al Mg alloy coating |
| Example of PV tilt angles |
Within 15 to 45º |
| Application scenarios |
Ground |
| Installation method |
Fastener installation |
| Type of piling |
Cement-embedded steel piles (precast or poured on-site) or Steel ground screw pile |
| Corrosion Resistance |
30 Year(salt spray and UV resistant) |
| Technical support |
Online |
| Main Components |
Guide rails, hot-dip galvanized C-shaped steel, nuts and bolts, pressure plates, spiral ground piles, gaskets |
| Load Capacity |
Good |
| System Height |
18-36 inches above ground |
| Certifications |
ISO 9001, CE,Rohs,ISO14001,ISO45001 |
| Warranty |
5-year material warranty; |
Product Advantages
Superior Durability
Hot-dipped galvanized coating ensures resistance to rust, UV rays, and extreme weather (saltwater, humidity, industrial pollutants).
High-Density Design
Dual-row configuration optimizes land use, reducing installation footprint by 30% compared to single-row systems.
Robust Stability
Reinforced steel frames and cross-bracing withstand high wind/snow loads.
Easy Installation
Pre-assembled modular components with bolt-on clamps; compatible with manual or mechanized installation.
Low Maintenance & Scalable
Galvanized coating eliminates need for repainting; modular design allows easy expansion of solar arrays.
Cost-Effective
Reduced labor and land costs due to high-density layout and quick assembly.
Installation & Maintenance
Installation Steps:
Site Preparation: Level ground and mark pile/ballast locations based on row spacing.
Secure Foundations: Install ground screws or concrete ballast blocks.
Assemble Racking: Bolt vertical supports and cross-beams; align dual rows.
Mount Panels: Attach panels to rails using corrosion-resistant clamps.
Final Adjustments: Set tilt angle and row spacing to minimize shading.
Maintenance Tips:
Inspect galvanized coating annually for scratches (repair with zinc-rich spray if needed).
Clear debris/snow accumulation between rows to maintain airflow and efficiency.
Tighten bolts after the first year and following extreme weather events.
Applications
Utility-Scale Solar Farms: Maximize energy output per acre with dual-row efficiency.
Commercial/Industrial Sites: Ideal for parking lot canopies or unused land.
Agricultural Solar: Elevate panels to allow farming or grazing beneath the array.
Temporary Installations: Easily disassembled for relocatable projects.
Harsh Environments: Perfect for coastal regions, deserts, or high-snow areas.
Our Advantages
Q1: What is a solar ground mounting system? What are its main advantages over rooftop mounting systems?
A: A solar ground mounting system is a support structure used to mount photovoltaic solar panels on the ground. It is typically made of corrosion-resistant materials such as galvanized steel or aluminum alloy and is anchored to the ground using a concrete foundation or screw piles.
Q2: What kind of foundation is required for installing a ground-mounted system?
A: The choice of foundation depends on local geology, soil type, climate (e.g., wind speed, snow cover), and system size. The main types are:
Concrete foundation: The most common form uses cast-in-place concrete piers to provide stable support. It is suitable for most soil types and is very strong and reliable.
Screw piles: These are screwed into the ground like a screw. They are fast to install, cause minimal soil disturbance, and are easy to remove and relocate in the future. They are particularly suitable for soft or sandy soils.
Ballasted foundation: The weight of concrete blocks or weights secures the system, eliminating the need for deep excavation. This is often used in sites where excavation is unsuitable (e.g., gravel) or for temporary installations.
Q3: What are the land area requirements for ground-mount systems?
A: The required land area depends primarily on the total system capacity and the layout of the photovoltaic panels.
Q4: How often do ground-mount systems require maintenance? What precautions should be taken?
A: Ground-mount systems are known for their durability and low maintenance requirements. Key maintenance tasks include:
Regular Inspections: We recommend inspecting all structural connections, bolts, and fasteners once or twice a year for signs of looseness or corrosion.
Panel Cleaning: Depending on the local environment (dust, pollen, bird droppings, etc.), the surface of the photovoltaic panels should be cleaned regularly to ensure efficient power generation. Ground-mount systems are generally easier to clean than rooftop installations.
Vegetation Management: Weeds and shrubs around the mounting system should be regularly trimmed to prevent them from growing tall and casting shadows on the panels.
High-quality mounting systems are typically highly corrosion-resistant (e.g., hot-dip galvanized steel) and are designed to last for over 25 years.
Q5: What is the typical cost of a ground-mounted system?
A: The cost of a ground-mounted system varies depending on the system size, design complexity, materials selected, foundation type, and labor costs. Generally, the initial installation cost is higher than a rooftop system of similar size.
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