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L-shaped straight connectors are used for vertical or right-angle connections between two steel profiles and are one of the most commonly used standard connectors in photovoltaic mounting systems.
The U-shaped direct connector is a standardized metal fastener used for connecting longitudinal and transverse components in photovoltaic mounting systems. It features a “U-shaped wrapping plus through-bolt” design that enables quick and secure splicing of steel components. The product is made from high-strength carbon steel or aluminum alloy and its surface is treated with hot-dip galvanization or anodizing, allowing it to withstand outdoor corrosive environments over the long term. It provides a reliable structural connection solution for both ground-mounted and rooftop photovoltaic power stations.
A triangular connector is a specialized component used in photovoltaic mounting systems to secure the support angle and enhance structural stability. Thanks to the stable geometric configuration of the triangle, it improves the overall mounting system’s resistance to bending, shear, and wind loads. This product is widely used in rooftop systems, carport systems, and flexible reinforcement systems, and can be adapted to various types of steel and aluminum alloy profiles.
Angle steel connectors are standard photovoltaic mounting accessories characterized by their right-angle structure, used for right-angle joining and load-bearing reinforcement of components such as longitudinal beams, cross beams, and upright posts. Typically made by stamping and bending high-strength steel plates, these connectors provide a robust connection that ensures "fixed angle + high load capacity + high stability." They are one of the commonly used core components in ground-mounted power stations and carport-type mounting systems.
The medium-pressure block is used to secure two adjacent photovoltaic modules and is one of the most critical clamping components in module installation. It is made from high-strength 6005-T5 aluminum alloy and equipped with SUS304 bolts.
Edge pressure blocks are used to secure components at the edge, ensuring that the components remain in place and are safe from wind loads.
Single-crystal silicon photovoltaic modules
Single-crystal silicon photovoltaic modules are manufactured using high-purity single-crystal silicon wafers with a complete crystal structure and high electron mobility. They represent the mainstream and most widely used type of photovoltaic module today. These modules feature high conversion efficiency, stable power output, and excellent long-term performance, making them widely applicable to ground-mounted power stations, commercial and industrial rooftop installations, and distributed PV projects.
Single-crystal silicon photovoltaic modules
Single-crystal silicon photovoltaic modules are manufactured using high-purity single-crystal silicon wafers with a complete crystal structure and high electron mobility. They represent the mainstream and most widely used type of photovoltaic module today. These modules feature high conversion efficiency, stable power output, and excellent long-term performance, making them widely applicable to ground-mounted power stations, commercial and industrial rooftop installations, and distributed PV projects.
Polycrystalline silicon photovoltaic modules
Polycrystalline silicon photovoltaic modules are composed of polycrystalline silicon solar cells. They have relatively low manufacturing costs and offer excellent cost-performance, making them ideal for photovoltaic projects that are cost-sensitive and have ample installation space. They represent one of the mature and reliable photovoltaic power generation solutions.
Polycrystalline silicon photovoltaic modules
Polycrystalline silicon photovoltaic modules are composed of polycrystalline silicon solar cells. They have relatively low manufacturing costs and offer excellent cost-performance, making them ideal for photovoltaic projects that are cost-sensitive and have ample installation space. They represent one of the mature and reliable photovoltaic power generation solutions.
Double-glass photovoltaic module
Bifacial photovoltaic modules use a double-layer tempered glass structure in place of the traditional backsheet, offering enhanced mechanical strength and protection. They are widely used in environments characterized by high humidity, high corrosion, and heavy wind and sand conditions, making them ideal for highly reliable projects that require long-term stable operation.
Double-glass photovoltaic module
Bifacial photovoltaic modules use a double-layer tempered glass structure in place of the traditional backsheet, offering enhanced mechanical strength and protection. They are widely used in environments characterized by high humidity, high corrosion, and heavy wind and sand conditions, making them ideal for highly reliable projects that require long-term stable operation.
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