Premium Hot DIP Galvanized Photovoltaic Bracket System for Customization

Introducing the meticulously engineered Photovoltaic Bracket—a robust metal structural masterpiece crafted to securely position, install, and stabilize solar panels within solar power generation systems. Here is an insightful exploration of the intricacies of photovoltaic brackets:

1. Function and Purpose

As the backbone of any solar power station, the photovoltaic bracket plays a pivotal role in the performance of photovoltaic power generation systems. Designed to meticulously arrange and securely anchor photovoltaic modules at optimal orientations and angles, these brackets ensure that each module is bathed in maximal sunlight, transforming solar rays into bountiful electrical energy.

2. Classification and Characteristics

Photovoltaic brackets showcase versatility through various classifications, each tailored to specific needs:

1. Classified by Structural Type:

Single Column Bracket: Known for its distinctive 'L'-shape, this bracket uses a vertical column standing perpendicular to the ground, making it ideal for compact photovoltaic systems.

Double Column Bracket: With its 'T'-shaped design featuring two vertical columns and a horizontal beam, this bracket is perfectly suited for expansive photovoltaic installations.

Frame Type Bracket: A versatile frame structure composed of numerous supportive rods and horizontal bars, offering adjustable configurations to accommodate varying module sizes and quantities.

2. Classified by Material:

Zinc Aluminum Magnesium Bracket: Constructed using robust metals like C-shaped steel, U-shaped steel, and square tubing, these brackets boast exceptional strength, corrosion resistance, and longevity.

Aluminum Alloy Bracket: Known for its lightweight nature and excellent corrosion resistance, this bracket is particularly suitable for photovoltaic systems in humid coastal environments.

Hot Dip Galvanized Bracket: With surfaces fortified by hot-dip galvanizing, these brackets offer superior corrosion resistance and stability, though they come at a higher cost.

3. Classified by Installation Method:

Fixed Bracket: A straightforward bracket option providing a fixed angle and direction at a lower cost, ideal for regions with stable solar altitude angles.

Tracking Bracket: Equipped with the capability to automatically adjust module angles and directions based on the sun's position, including flat, inclined, and dual-axis tracking options, this bracket maximizes energy production but demands a higher investment.

4. Other Special Types:

Flexible Bracket: Utilizing a prestressed flexible cable structure, this bracket supports large-span photovoltaic modules and is suitable for diverse locations such as mountainous terrains, barren slopes, and over water bodies.

Floating Bracket: Designed for expansive water surfaces, these brackets float photovoltaic modules atop lakes and reservoirs, optimizing solar energy capture while conserving land resources.

3. Application Scenarios

Photovoltaic brackets lend themselves to a multitude of applications, from vast ground-mounted power stations and industrial rooftops to residential spaces, remote regions, agricultural landscapes, and public utilities. Wherever there is a need for solar energy harnessing, and installation conditions permit, photovoltaic brackets provide a reliable solution.