New Fashion Design for Ink Marking Machine - Flying Co2 Laser Marking Machine For Product Line – Incode
New Fashion Design for Ink Marking Machine - Flying Co2 Laser Marking Machine For Product Line – Incode Detail:
Details Show
Product Performance
1. The high power of the laser is controlled by software, etc., continuously adjustable, the marking range is large, the marking is clear, not easy to wear, and the cutting efficiency is high;
2. The depth of engraving can be controlled at will, the processing cost is low, and no consumables are required to be controlled by a computer;
3. Use the 10.64um laser beam to expand, focus, and finally control the deflection of the galvanometer;
4. Act on the surface of the workpiece according to the predetermined trajectory, so that the working surface is vaporized to achieve the marking effect.
5. The beam pattern is good, the system performance is stable, maintenance-free, suitable for industrial processing sites of large-volume, multi-variety, high-speed, high-precision continuous production.
6. Advanced optical path optimization design and unique graphic path optimization technology, coupled with the unique super pulse function of the laser, make the cutting speed faster.
Product detail pictures:
Related Product Guide:
Guangzhou INCODE Marking Technology Co., Ltd. is a leader in the field of printing and marking technology, providing a series of solutions for industrial applications. New Fashion Design for Ink Marking Machine - Flying Co2 Laser Marking Machine For Product Line – Incode , The product will supply to all over the world, such as: Swaziland , Iran , Malawi , Whether operating in static or flight mode, INCODE's CO2 laser marking machines are a reliable and versatile choice for a wide variety of industries including food and beverage, pharmaceutical and cosmetics.
By Daphne from Ecuador - 2017.09.29 11:19
High Quality, High Efficiency, Creative and Integrity, worth having long-term cooperation! Looking forward to the future cooperation!
By Marguerite from Atlanta - 2018.09.21 11:44