Dedicated performance for multi-core cables, more precise protection.
Multi-core mineral cable terminals are made of high-quality fire-resistant and flame-retardant materials. The integrated sealing structure is adapted to multi-core layouts, enabling stable operation in a wide temperature range from -40℃ to 150℃ and withstanding short-term high-temperature baking.
They comply with the UL94 V0 flame retardant standard, with no flame spread and self-extinguishing after leaving the fire.
Featuring an independent isolation design for each core, the insulation strength meets high-voltage requirements, effectively blocking crosstalk and leakage risks between cores and preventing electric field distortion.
With an overall IP67 sealing grade, it strongly blocks moisture, dust and corrosive media, avoiding terminal dampness and aging.
The outer shell is compression-resistant, wear-resistant and anti-electromagnetic interference, matching the current-carrying characteristics of multi-core mineral cables. It ensures stable current transmission of each core without hidden dangers of overheating or ablation.
Exclusive for multi-core applications, standardized and efficient installation!
Precisely matches 2–5 core and other multi-specification mineral cables. The core positioning design is reasonable, requiring no extra arrangement or fixation, allowing quick on-site connection and fastening.
After installation, each core is independently protected with tight overall sealing, no gaps or looseness, and long-lasting stable sealing performance.
Suitable for surface mounting, concealed installation, outdoor and underground applications. Later maintenance can check individual cores without damaging the cable body, complying with power installation standards and balancing efficiency and reliability.
Full-scenario multi-core adaptation, safeguarding power safety!
Used in multi-core power circuits in industrial plants to ensure stable transmission of each core and resist erosion from complex workshop environments.
Used in multi-core fire emergency circuits in buildings to meet fire safety requirements and maintain multi-core circuit continuity in fire scenarios, buying time for rescue.
Used in high-temperature workshops and outdoor multi-core projects to resist extreme temperature differences, rain, snow, wind and sand without performance degradation.
Used in multi-core emergency power systems to ensure coordinated operation of all cores and stable power supply.
It is a core component for the end protection of multi-core mineral cable systems.
