Savio Unveils AI-Driven Winding And Spinning Solutions At ITMA Asia Singapore 2025
Savio, the Italian textile machinery manufacturer, will showcase its latest winding and spinning innovations at ITMA Asia + CITME 2025 in Singapore, highlighting AI, automation and digital integration for modern textile production.
The company’s spotlight will be on three flagship machines: Proxima Smartconer, Lybra Smartspinner, and the Phoenix Assembly Winder. The Proxima Smartconer offers multiple configurations including fully automatic, Duo Lot, and large bobbin feeding for the carded wool sector. The platform integrates AI-driven tension control, smart metering, and optimized bobbin flow, alongside Savio Insight, a web-based system for real-time monitoring and data-driven decision-making. Upgrades such as a patented suction nozzle enhance yarn-end capture efficiency and reduce energy consumption, making the system both high-performing and cost-efficient.
The Phoenix Assembly Winder returns with improved digital features for precision winding of discontinuous fibre yarns, including cotton, wool, silk, linen and blends. With yarn take-up speeds up to 1,000 m/min and the digital Multicone thread guide, Phoenix reduces setup time and optimizes package formation for downstream twisting applications, combining productivity with lower operating costs.
Savio’s Lybra Smartspinner is a versatile air-jet spinning machine designed for applications in knitting, home textiles and sunshades. Its Multi Blend System allows two slivers to be blended in real-time, enabling on-the-fly composition changes, melange effects, and streamlined preparation, reducing costs while supporting diverse material requirements.
The showcase underscores Savio’s push toward energy-efficient, digitally integrated, and versatile machinery that meets the growing demands of modern textile manufacturers. By combining automation, AI-driven monitoring and smart process control, the company positions its machinery as a strategic asset for efficiency, productivity and quality in textile production.
