It adopts high-strength alloy cast iron body, and the contact parts are food-grade stainless steel, with anti-static coating, which can avoid winding or breakage of special yarns caused by static electricity. It is equipped with a servo-driven automatic tension regulator, which can adjust the tension in real time according to the yarn material. The laser + tension dual-mode yarn breakage detection device can accurately identify the breakage of ultra-fine yarns. The CNC touch screen can store multiple sets of customized operating parameters, supporting custom winding density and bobbin size. It is equipped with full-chain safety protection devices to avoid potential safety hazards during operation, and also has a yarn length metering function, which can accurately count the total length of wound yarns for production accounting.
The detailed parameters include a winding speed of 800-1200 meters per minute, applicable yarn count range of 5-100 Ne, power supply specification of 380V 50Hz or 480V 60Hz, total machine weight of 480kg, overall dimensions of 2200mm (length) × 1500mm (width) × 2000mm (height), supporting bobbin length of 100-300mm and customizable size, adopting precision variable cross winding forming method, equipped with laser + tension dual-mode yarn breakage detection system, servo-driven automatic tension regulator that can adjust tension with 0.1N accuracy, the body adopts high-strength alloy cast iron frame, the contact parts are food-grade stainless steel with anti-static coating, equipped with full-chain safety guardrails and emergency stop buttons, with yarn length metering and statistics function.
It is mainly suitable for high-performance composite material production enterprises, aerospace textile component manufacturers, national defense and military industrial textile factories, special protective fabric producers and other scenarios. It can be used to wind high-strength special yarns such as aramid fiber, carbon fiber, glass fiber and Kevlar fiber. The wound bobbins have no yarn damage and neat forming, which can be directly used for weaving and manufacturing high-performance composite material preforms, meeting the high-precision requirements of high-end special textile production.
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