HSG TX Series
3+1 Twin-chuck Tube Laser Cutting Machine
The HSG TX Series Tube Laser Cutting Machines are the perfect solution for precision cutting of round, square, rectangular, and oval tubes. With advanced technology and high cutting speeds, these machines offer the perfect combination of efficiency and accuracy.
The machines are equipped with a user-friendly interface and intelligent control system, making them easy to operate and maintain. Constructed with durable and sturdy frames, they're designed for long-term and reliable performance. Whether for industrial or personal use, the TX Series Tube Laser Cutting Machines are the ideal choice for all your tube cutting needs.
FEATURES AND BENEFITS

Component Real-time Monitoring and Maintenance Alert
Real-time detection ensures the stable operation of all components, while the system also features maintenance alerts to facilitate careful component management.

X9000 Bus-based Tube Cutting Control System
The user-friendly interface streamlines operations, displaying cutting data in real-time to optimise efficiency and minimise costs. Essential functions are prominently showcased on the interface, simplifying the process and reducing the number of operating steps. This design ensures that users can quickly familiarise themselves with the system, enhancing overall usability.

High Speed and Intelligent for Better Processing
The system boasts high-speed data transmission, ensuring minimal delays and precise positional energy control. Its advanced technology includes a high rotational speed and air velocity bus system, coupled with servo motors, effectively minimising unproductive time.

3+1 Twin-chucks Clamping Cutting Technique
Patented by HSG Laser, these chucks address common challenges associated with two, three, and four-chuck systems whilst offering users remarkably robust solutions for heavy tube cutting. By combining both the C3 and C4 chucks, it enables synchronous rotation and movement, surpassing current technical constraints. Additionally, they can move at full-stroke, overcoming the limitation of loaded tubes extending only to the length of the machine body.