High-flexibility cables for industrial robots
Industrial robot cables need to withstand continuous multi-directional movement. This type of cable uses a special ultra-fine copper wire bundle conductor, combined with a polyurethane or TPE elastomer sheath, and can complete over 10 million bending cycles. The cable structure adopts layered shielding. Each pair of signal lines is shielded, and the entire structure is also shielded by a tin-plated copper mesh. The sheath material is oil-resistant and resistant to cutting fluid, making it suitable for factory environments. The robot cable integrates power lines, signal lines and air pipes to achieve integrated wiring. When installing, a dedicated drag chain should be used to control the small bending radius.
2. High-temperature resistant cables for the metallurgical industry
Metallurgical equipment cables need to withstand extremely high-temperature environments. This type of cable is insulated with silicone rubber or fluoroplastic and can operate at a long-term temperature of over 200℃. The conductors are treated with silver or nickel plating to prevent oxidation at high temperatures. The sheath is made of halogen-free flame-retardant materials with a special formula to resist sputtering of metal slag. The cable has passed strict flame retardant tests and mechanical shock tests. When used on equipment such as continuous casting machines, an additional metal sheath is also required for protection. When installing, it is required to avoid heat sources and use high-temperature resistant cable trays.
3. Intrinsically safe cables for explosion-proof use in chemical industry
Intrinsically safe cables should be used in explosion-proof areas of chemical industry. This type of cable adopts a low-capacitance and low-inductance design to limit energy release. The insulation layer is made of cross-linked polyethylene, and the sheath is selected from corrosion-resistant fluoroplastics or chloroprene rubber. The cable structure includes multiple layers of shielding to ensure stable signal transmission. All materials have passed explosion-proof certification and meet the usage requirements of chemical areas. When installing, explosion-proof joints and sealing devices should be adopted to ensure the overall safety of the system.
4. Wear-resistant cables for port machinery
Cables for equipment such as port cranes require extremely strong mechanical properties. This type of cable adopts a reinforced sheath and armor design to resist tensile force and wear. The conductor is made of high-purity annealed copper to ensure electrical conductivity. The sheath is made of specially formulated polyurethane material, which is resistant to seawater corrosion and ultraviolet radiation. The cable structure takes torsional stress into account and adds anti-torsion filling strips. When installing, use dedicated cable reels and guiding devices to prevent mechanical damage.
