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Laser sensor connectors in laser cutting heads function to transmit electrical signals and power between the sensors and the control system, enabling features like height sensing, focus tracking, and workpiece detection for precise and reliable cutting. These connectors also facilitate the transmission of cutting signals, ensuring the laser cutting head doesn’t contact the workpiece.
Using imported signal transmission chips and shielded circuit design, it effectively resists electromagnetic interference in industrial environments, achieving zero-delay, low-loss signal transmission; even under 24-hour continuous operation, it can still maintain precise synchronization of sensing data and control commands, improving cutting head response speed by 30% and significantly enhancing overall processing efficiency.
The main body is made of high-conductivity copper and high-temperature resistant engineering plastic through injection molding, with a contact resistance of less than 0.01Ω, offering strong anti-aging and wear-resistant capabilities. It features a built-in high-precision laser displacement sensing module that can accurately capture data such as the height of the cutting head and the flatness of the workpiece surface, with sensing errors controlled within ±5μm, ensuring that the cutting focus always adheres to the workpiece surface for micron-level precision cutting.
The product covers fiber laser cutting machines with full power ranges from 1000W to 20000W and can be adapted to laser cutting heads from major international brands such as Han's, Bystronic, Trumpf, and Hongshan. It offers various interface specifications including M8, M10, and M12, and also supports customization of non-standard sizes based on the customer's equipment drawings to meet personalized adaptation needs.
