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>> Product Advantage
1.High Strength Structural Performance
Solar clamps are manufactured from aluminum alloy or stainless steel, offering excellent tensile strength and durability. They ensure secure fixation of PV modules in solar panel mounting systems.
2.Superior Corrosion Resistance
The anodized surface treatment provides strong resistance against rust, UV exposure, and harsh weather conditions. This makes it ideal for coastal solar mounting systems, high humidity solar clamp applications, and long-term outdoor photovoltaic installation environments with minimal maintenance requirements.
3.Universal Module Compatibility
The design is suitable for the standard thickness of solar panels, ensuring extensive compatibility with most photovoltaic systems.
4.Fast and Efficient Installation
Pre-assembled or modular design allows quick tightening with standard bolts, reducing installation time and labor cost.
5.High Wind Load Stability
Engineered structural design ensures strong gripping force between solar panels and rails, preventing displacement under extreme conditions. It is widely applied in high wind resistant solar clamp systems, utility-scale solar farms, and secure photovoltaic panel mounting structures.
6.Long-Term Reliability and Safety
Optimized load distribution ensures stable performance over 20+ years of service life.
>> Technical Parameters
| Material Options | ZAM steel | Surface Treatment | Hot-dip galvanized |
| Corrosion Resistance | High resistance for outdoor & coastal environments | UV Resistance | Yes |
| Weather Resistance | Suitable for extreme climates | Effective Width | 120 - 170 mm (customizable) |
| Height | 40 - 150 mm | Thickness | 0.8 - 2.0 mm (standard: 1.0 / 1.2 / 1.5 mm) |
| Length | 2m / 3m / 6m / customized | Service Life | 20 - 25 years |
>> Product Uses
1.Rooftop solar PV systems in residential buildings, villas, and apartments, providing secure fastening for solar panels to ensure stable and long-term rooftop energy generation performance.
2.Commercial and industrial rooftop solar installations such as factories, warehouses, shopping malls, and office buildings, supporting large-scale photovoltaic mounting systems.
3.Ground-mounted solar power plants, ensuring reliable fixation of PV modules on aluminum rail structures under strong wind and snow load conditions.
4.Solar carport systems in parking lots, commercial centers, and industrial parks, providing stable module support for integrated solar parking structures.
5.Agricultural solar projects including greenhouses, farms, and livestock facilities, enabling durable PV module installation in outdoor farming environments.
6.Distributed solar energy systems and small-scale photovoltaic stations, offering flexible and secure module clamping for various installation scenarios.
>> Product Operate Guide
1. System Layout Planning
Before installation, determine the PV module layout according to project drawings. Mark rail positions and ensure correct spacing for mid clamps and end clamps in the solar mounting system.
2. Rail Installation
Fix aluminum mounting rails onto roof hooks or ground brackets. Ensure rails are level, aligned, and securely fastened to form a stable solar panel support structure.
3. Solar Panel Positioning
Place solar panels onto the rails according to the designed layout. Adjust module spacing to match clamp installation positions for both mid clamp and end clamp placement.
4. Mid Clamp Installation
Insert mid clamps between two adjacent solar panels. Tighten bolts to securely fix both modules to the rail system, ensuring uniform spacing and stable connection.
5. End Clamp Installation
Install end clamps at the outer edges of the solar panel array. Secure tightly to prevent panel movement and complete the module fixing structure.
6. Tightening & Torque Control
Use standard tools to tighten bolts to recommended torque (usually 10–25 Nm). Ensure all clamps are firmly secured without over-tightening or damaging panel frames.
7. Final Inspection
Check all clamps, bolts, and rails for stability. Confirm that solar panels are properly aligned and securely fixed to ensure long-term safety and wind resistance performance.
>> FAQ
Q1. What is the difference between galvanized aluminum magnesium steel and ordinary galvanized steel?
A: Aluminum magnesium coating significantly improves corrosion resistance, especially suitable for high salt spray and acid rain areas, with a lifespan extension of more than 50%
Q2. Does the bracket require additional anti-corrosion treatment?
A: No need! The coating and passivation treatment have been completed before leaving the factory, and it can be used directly.
Q3. Can you provide a load-bearing calculation report?
A: We can provide third-party inspection reports along with the goods and support customized wind/snow load analysis for the project.
Q4. Do you accept sample orders?
A: Support! 3 sets minimum order, shipped within 7 days, sample fee can be deducted from bulk order.
Q5. Payment method and warranty period?
A: Accept TT/LC, with a 15 year warranty (free replacement for non-human damage.)"
