High Quality Medium Pressure Photovoltaic Connector with Seismic Resistance

Within the intricacies of photovoltaic systems, the medium voltage block and edge pressure block stand as pivotal accessories for the photovoltaic bracket. These components are quintessential for ensuring the secure and fixed positioning of the entire system, thereby playing a vital role in the overall effectiveness of solar power generation.

The photovoltaic medium voltage block serves a critical role in uniting two photovoltaic panels. Its primary purpose is to bolster the stability and enhance the wind resistance of the complete photovoltaic power station. By securely anchoring the connection between these principal components, the medium voltage block guarantees that the photovoltaic module forms a cohesive and stable structure post-installation, allowing it to resist various external forces with unwavering strength.

Designed to function at the outermost edges of the photovoltaic bracket arrangement, the photovoltaic edge pressing block is indispensable for panel fixation. It must precisely complement the thickness of the photovoltaic panel to ensure maximum fixation efficiency. Beyond merely securing the bracket and preventing its displacement, the edge pressing block also defends the component edges, shielding them from potential damage due to collisions or adverse environmental conditions.

When it comes to selecting materials, photovoltaic medium voltage blocks and edge pressure blocks are typically crafted from high-strength, corrosion-resistant materials like aluminum alloys. Chosen for their superior mechanical properties and robust weather resistance, these materials ensure that the photovoltaic systems endure the demanding conditions of outdoor environments, facilitating their long-term, stable operation.

In summary, photovoltaic medium voltage blocks and edge pressure blocks are indispensable for any photovoltaic system. They offer crucial support and protection that underpin the safe and efficient functionality of photovoltaic modules once installed, reinforcing the system's performance and reliability.