Terminal Blocks Designed For High Load Applications
In high load scenarios such as industrial automation, photovoltaic power plants, and high-power motor drives, the stability of circuit connections directly determines system reliability. Specially designed for high load applications, the terminal block breaks through traditional limitations with hardcore technology and becomes the core connection guarantee under complex working conditions.
The core advantage comes from innovative connection technology and high-quality materials. Adopting PUSH IN direct insertion power connection technology, combined with high-performance compression spring mechanism, only a small driving force is needed to achieve strong compression effect, ensuring permanent and reliable wire connection, air tightness and anti vibration, suitable for 1.5mm ² to 120mm ² full section wires, both hard and soft wires can be easily connected without tools, greatly improving wiring efficiency. The shell is made of high-temperature resistant polyamide material, which can withstand extreme temperature differences from -40 ℃ to 125 ℃. The internal contacts are made of tin plated aluminum or copper alloy material, combined with composite coatings to suppress oxidation and extend the service life.
Comprehensive safety design safeguards high load operation. By increasing the gap and creepage distance, it can withstand a high voltage of 1500V DC and meet the needs of special industries such as photovoltaics; Standardized testing points and clear voltage identification facilitate operation and maintenance testing, while avoiding the risk of live operation. Compact structural design enables efficient power distribution within narrow switchgear cabinets, coupled with standardized accessory systems, reducing accessory types and lowering storage and assembly costs.
From intelligent manufacturing motor control systems to new energy photovoltaic power plants, from emergency power supply systems to rail transit power supply equipment, this terminal block provides safe and efficient connection solutions for various high load applications with stable high current carrying capacity and convenient installation and maintenance characteristics, becoming a reliable "connection cornerstone" for industrial core equipment.
