Laser cutting and engraving system
CO2 LASER SYSTEM
Processing Method:
- Laser Cutting: Mainly used for advanced metal and non metal cutting, clothing proofing, anisotropic fabric, leather, knitted embroidery, fabric cutting.
- Laser Engraving: Mainly used in leather shoes, boots, leather, clothing, trousers firming, jeans fabrics, labels and other patterns carved.
- Laser Marking: Applicable to all kinds of clothing in the buckle, zipper, leather with buttons, and other metal, non metal printing markings.
LaserCut5.0 Control System makes full use of the high speed data processing ability of FPGA and the powerful logic processing ability of DSP. The system has successfully resolved the technical bottleneck of the laser processing industry in the field of motion control.
System Configuration
Based on the series of Leetro MPC03 and MPC65X5 Motion Controller, LaserCut5.0 has been created to specialized in Laser Processing Industry.The Product came with PC Based and Independence Controller version.
The LaserCut5.0 control system combines the motion trajectory control with the laser control, Beside the high synchronism of laser control system and motion control system, the system support the C02 and YAG laser system, which is widely used in laser processing industry.
FIBER LASER SYSTEM
The fiber laser system uses a low-maintenance solid-state laser source to deliver an optimized cutting beam to the laser head via a flexible fiber optic cable. It can be easily integrated into a wide range of table types, and can be effectively combined with plasma to meet and exceed tolerance and quality requirements for just about any plate application.
- Superior cut quality and tolerances for fine-feature cutting of a broad range of materials from gauge to plate thicknesses
- Faster cut speeds, higher quality cuts for thinner materials
- Three times more energy efficient than CO2 – with no mirrors to maintain and calibrate and no lasing gas
Technical data
HyIntensity® HFL010 | HyIntensity HFL015 | HyIntensity HFL020 | HyIntensity HFL030 | |
Max power | 1000 W | 1500 W | 2000 W | 3000 W |
Emisions wavelength | 1070 ± 10 nm | 1070 ± 10 nm | 1070 ± 10 nm | 1070 ± 10 nm |
Emision bandwidth | 3 nm typical; 6 nm maximum |
3 nm typical; 6 nm maximum |
3 nm typical; 6 nm maximum |
3 nm typical; 6 nm maximum |
Max cutting capacity
Mild steel | 10 mm (3/8") | 12 mm (1/2") | 16 mm (5/8") | 20 mm (3/4") |
Stainless steel | 6 mm (1/4") | 10 mm (3/8") | 10 mm (3/8") | 12 mm (1/2") |
Aluminum | 3 mm (1/8") | 5 mm (3/16") | 6 mm (1/4") | 10 mm (3/8") |
Brass | 4 mm (5/32") | 6 mm (1/4") | ||
Copper | 4 mm (5/32") | 6 mm (1/4") |
Specifications
Auto voltage input | 400 – 480 VAC (50/60 Hz) | 400 – 480 VAC (50/60 Hz) | 400 – 480 VAC (50/60 Hz) |
380 – 400 VAC (50/60 Hz) 440 – 480 VAC (50/60 Hz) |
Weight | 196 kg (430 lbs) | 211 kg (465 lbs) | 226 kg (500 lbs) | 284 kg (625 lbs) |
Dimensions |
147 cm H, 82 cm W, 93 cm L 58" H, 32" W, 37" L |
147 cm H, 82 cm W, 93 cm L 58" H, 32" W, 37" L |
147 cm H, 82 cm W, 93 cm L 58" H, 32" W, 37" L |
155 cm H, 82 cm W, 93 cm L 61" H, 32" W, 37" L |
Gas supply | Air: 9 bar (130 psi) O2: 8 bar (115 psi) N2: 27 bar (400 psi) |
Air: 9 bar (130 psi) O2: 8 bar (115 psi) N2: 27 bar (400 psi) |
Air: 9 bar (130 psi) O2: 8 bar (115 psi) N2: 27 bar (400 psi) |
Air: 9 bar (130 psi) O2: 8 bar (115 psi) N2: 27 bar (400 psi) |