Photovoltaic mounting system
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The double-column ground-mounted support system uses two main columns as its load-bearing structure, offering high stability and making it suitable for large-scale centralized photovoltaic power plants and regions with extreme climates. The system features a robust structure, consisting of columns, main beams, cross beams, rails, and connecting components, and can accommodate photovoltaic modules of various sizes.
The single-column ground-mounted support system, supported by a single main column, features a simple structure and low material consumption, making it a mainstream solution for cost-effective photovoltaic power plants. It is particularly well-suited for large-scale, centralized PV projects in flat terrains.
Adjustable Gear Transmission System
The adjustable bracket with gear transmission precisely achieves angle adjustment through a gear transmission mechanism, enabling it to adapt to seasonal changes and variations in the sun's altitude angle, thereby effectively boosting the system’s annual power generation.
The adjustable arc-support bracket achieves angle adjustment through an arc-shaped support plate and a locking mechanism. It is easy to operate, lightweight in structure, and represents an excellent choice for cost-effective adjustable brackets.
The flexible photovoltaic mounting system achieves large-span layouts through steel cables or flexible tension rods, featuring a lightweight and flexible structure. It is particularly well-suited for sites with complex or irregular terrain, effectively minimizing land disturbance.
The dual-axis tracking system can simultaneously achieve automatic tracking in both the horizontal (azimuth) and vertical (elevation) directions, ensuring that the solar panels consistently maintain the optimal angle of incidence, thereby maximizing light utilization. It is the highest-efficiency tracking technology in intelligent photovoltaic systems.
Horizontal single-axis tracking system
The Horizontal Single-Axis Tracking System (HSAT) rotates and tracks around a horizontal axis. With its simple structure and controllable costs, it is the most widely used tracking system globally and can increase power generation by 15–25%.
Single-axis tracking system with tilt
The main rotation axis of the single-axis tracking system with a tilted configuration forms a certain angle with the ground, making it more suitable for mid- to high-latitude regions and complex terrains, with power generation gains reaching 20–30%.
The tile-roof mounting system features specially designed hooks tailored to different types of tiles, such as ceramic tiles, glazed tiles, and cement tiles, enabling safe installation of photovoltaic modules without damaging the roof structure.
Light steel roof support system
The lightweight steel roof mounting system is specifically designed for metal roofs and includes standing seam clamps, corrugated roof clamps, and self-tapping screw fastening methods, enabling quick and reliable installation of photovoltaic modules.
The cement roof mounting system uses either weighted blocks or chemical anchors for secure installation without damaging the waterproof layer. It is typically employed in distributed photovoltaic systems on flat roofs, and the mounting angle can be adjusted over a wide range.
BIPV integrates photovoltaic modules with building roofing materials in a single design, achieving dual functionality—power generation plus building materials. It represents an important direction for the future of energy-efficient new construction.
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