In the textile industry, the speed and efficiency of production equipment directly affect the competitiveness of enterprises. With the advancement of automation technologies, high-speed auto-feed systems have become a significant trend in industrial textile production. Among them, devices capable of achieving a cutting speed of 60,000mm/min have brought a "speed revolution" to the textile industry. Below is a detailed introduction:

JK-2025 High-Speed Auto-Feed Cutter

• Technical Parameters: This device features a proprietary patented cutting software, ensuring smooth operation and optimal performance. Its cutting accuracy is ≤±1mm, and it can achieve a cutting speed of up to 60,000mm/min. It supports common file formats such as DXF and PLT and integrates seamlessly with CAD/CAM systems. Users can transfer cutting data via Ethernet communication or USB flash drives, making it easy to fit into existing workflows.
• Application Scenarios: It is widely used in the garment and textile industries, suitable for cutting non-metal materials like cloth, leather, wool, paper, craft items, models, intertexture, bags, and more.

JK-2225 PRO CNC Multi-Layer Cutting Machine

• Technical Features: Equipped with a cutting height range of 3cm to 9cm after vacuum absorption, this machine can precisely cut multiple layers of fabric simultaneously. Its cutting speed can reach up to 60,000mm/min, with a maximum blade rotation speed of 4000 rpm/min. The JK-2225 PRO is designed to handle high-volume cutting demands without compromising precision or quality. It offers customizable working widths of 1700mm, 2000mm, or 2200mm, as well as a standard working length of 2500mm and an optional extended length of 3300mm. The table width and cutting window length can also be customized.
• Performance Advantages: The machine integrates advanced CAD/CAM systems, supports common file formats like DXF and PLT, and enables seamless data transfer via Ethernet communication or USB flash drives. Powered by a three-phase 380V supply with a rated power consumption of 18kW, it balances high power and energy efficiency. Robust motors from TECO Taiwan and Panasonic Japan (CNC system drivers) and SMC Japan (pneumatic system drivers) ensure reliable performance with minimal maintenance. Its cutting accuracy is ≤0.1mm, ensuring precise cuts and minimizing waste. High-speed cutting significantly boosts production throughput and reduces manufacturing lead times.

SF1626-SC Auto-Feed Textile Laser Cutting Machine

• Technical Parameters: The machine features a working area of 1600mm × 2500mm or 1600mm × N. It uses a sealed CO2 laser tube with a power of 100w, 130w, or 150w. It employs a water-cooling system. The engraving speed can reach 60,000mm/min, with a resetting position accuracy of ±0.05mm. The minimum character size is English 1×1mm. It supports graphic formats such as BMP, HPGL, PLT, DST, and AI. The controlling software is a DSP control system compatible with CorelDraw, AutoCAD, and Photoshop. It uses a stepper driving system.
• Application Advantages: Ideal for industries like apparel, fabrics, leather, advertising, decoration, crafts, and models. It is particularly suitable for engraving and cutting non-metal materials like boards, cloth, and leather. The laser line design ensures uniform power distribution across the working area, guaranteeing cutting quality and enabling simple engraving processes. Its high efficiency and quality make it well-suited for industries like apparel and leather. It is also applicable to advertising decoration, art gifts, template cutting, toys, and other sectors.

Advantages of High-Speed Auto-Feed Systems

• Improved Efficiency: A cutting speed of 60,000mm/min represents a significant leap in production efficiency. It can handle large order volumes and tight deadlines, enabling mass production for textile enterprises. For instance, the JK-2225 PRO CNC multi-layer cutting machine can cut multiple layers of fabric simultaneously, significantly increasing output.
• Enhanced Precision: These systems typically achieve cutting accuracy of ≤0.1mm or even higher. The precision of the JK-2225 PRO ensures every cut is exact, minimizing waste and reducing rework needs. This precision is critical for high-end fashion and technical textiles, where even slight errors could lead to material waste and cost increases.
• Reduced Labor Costs: Automated feeding systems replace manual feeding, reducing labor input and lowering labor costs. For example, the SF1626-SC auto-feed textile laser cutting machine eliminates the need for manual feeding, allowing operators to focus on tasks like equipment monitoring and maintenance, thereby improving labor efficiency.

Future Development Trends

• Intelligent Automation: Future high-speed auto-feed systems will integrate more advanced intelligent technologies, such as artificial intelligence and machine learning. These will enable automatic optimization of cutting paths and real-time monitoring and adjustment of equipment status, further enhancing production efficiency and quality.
• Integration with Other Processes: To achieve full automation of the textile production line, high-speed auto-feed systems will integrate more deeply with other processes such as printing, dyeing, and sewing. This integration will create a seamless production flow, reducing intermediate steps and improving overall efficiency.
• Energy Efficiency and Environmental Protection: Against the backdrop of growing environmental awareness, high-speed auto-feed systems will focus on improving energy efficiency and reducing environmental impact. This includes adopting energy-saving technologies and materials and optimizing equipment design to minimize energy consumption and emissions.

In summary, the 60,000mm/min auto-feed systems have brought a "speed revolution" to industrial textile production. They offer advantages such as high speed, precision, and labor cost reduction, driving the development of the textile industry toward automation and intelligence. As technologies continue to advance, these systems will play an increasingly important role in the future of textile production.