1. Secure Connection
Using bolted connections and other methods, combined with a reasonable structural design, the clamp ensures tight connections between the clamp, conductor, and transformer terminals. It can withstand certain tensile forces and vibrations, making it less prone to loosening.
2. Excellent Electrical Performance
The high electrical conductivity of copper results in low contact resistance and high current-carrying capacity for the clamp, effectively reducing heat generation and ensuring efficient and safe power transmission. Meanwhile, surface treatments such as tin plating further reduce contact resistance and improve electrical conductivity and oxidation resistance.
3. Convenient Installation
Installation via bolts is simple, and some clamps feature torque bolt structures to precisely control tightening force. This not only ensures a secure connection but also maximally protects the conductor from damage.