HSG GV Series
All Linear Motor Fiber Laser Cutter
The HSG GV Series Laser Cutting Machine stands at the forefront of precision engineering, offering a comprehensive solution for your industrial laser cutting needs. With cutting-edge technology and a commitment to excellence, the HSG GV Series delivers unparalleled laser processing performance, reliability, and versatility.
FEATURES AND BENEFITS
Hydraulic Lifting Exchange System
* GV adopts German professional hydraulic station which is stable and reliable
* Single table exchange, the table is closer to the air outlet with better air extraction effect
* Single table exchange without high or low table, Z-axis cutting head does not need to move down too long for cutting, to ensure the rigidity and stability of Z-axis parts when cutting at high speed.
High-speed Cutting Dynamics
The GV Series is paired with professional and advanced triaxial linear motors, known for their exceptional speed, acceleration, repeatability, and other advantages. This combination delivers unparalleled dynamic performance, offering nanoscale precision on the machine bed to provide an incredible cutting experience.
* Max. Linkage Speed: 300m/min
* Max. Linkage Acceleration: 6G
Special Machine Bed for High Power
The machine bed is constructed by several ultra-thick sheets welded together and designed with a unique hollow structure. In the laser cutting area, there are no connections at the bottom of the bed, reducing susceptibility to heat and ensuring stability and durability.
High-load Double Rail Structure
The GV Series utilises German Rexroth rails, that contain both a roller guider and measuring guider, ensuring stable and reliable processing for users. These double rails are designed with high load capacity, rigidity, and features for dust prevention and waterproofing.
SPECIFICATIONS
Power (kW) | 6 - 60 |
X/Y Axis Positioning Accuracy | ±0.01mm/m |
X/Y Axis Repositioning Accuracy | ±0.01mm |
Max. No-load Speed | 300m/min |
Max. Acceleration | 6G |
Processing Format (L x W) (mm) | 4064 x 2040 |