| After-sales Service: | Can Be Negotiated |
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| Warranty: | 1-Year |
| Application: | Home Appliance, Environmental Equipment, Petroleum Machinery Manufacturing, Agriculture Machinery, Textile Machinery, Food Machinery, Aerospace Industry, Automotive Industry, Shoemaking Industry, Advertising Industry |
| Customization: |
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Shipping Cost:
Estimated freight per unit. |
about shipping cost and estimated delivery time. |
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| Payment Method: |
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| Initial Payment Full Payment |
| Currency: | US$ |
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| Return&refunds: | You can apply for a refund up to 30 days after receipt of the products. |
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| HCGMT® 3000W Fiber Laser Cutting Machine Technical Parameters | |
| Laser Type | Fiber Laser |
| Laser Working Medium | Fibre Optics |
| Laser Line | 1060-1080M |
| Laser Power | 3000W |
| Beam Quality | <0.373Mrad |
| Axial Positioning Accuracy | 0.03MM/M≤+0.03MM/M |
| Maximum Sheet Metal Cutting Size | 4*2M |
| Repositioning Accuracy | 0.03MM/M≤+0.03MM/M |
| Maximum Moving Speed | 120M/MIN |
| Power Rated Parameter | Three-phase AC 380V50HZ |
| Electrical Power | 17.3KW |
| Total Power Supply Protection Level | IP54 |
| Maximum Acceleration | 1.2G |
| Positioning Accuracy | ±0.05MM |
| Repositioning Accuracy | ±0.02MM |
| Working Voltage | 380V/50HZ |
| Cooling Type | Water Cooling |
| Note: All parameters are dynamic and for reference only. For more information, please contact customer service. | |
| Material | Thickness(MM) | Gas | 1500W | 3000W | 6000W | 12000W | 15000W |
| Carbon Steel (Q235B) | Speed (M/MIN) | Speed (M/MIN) | Speed (M/MIN) | Speed (M/MIN) | Speed (M/MIN) | ||
| 1 | Nitrogen/Oxygen | 26-29 | 47-50 | 58-62 | |||
| 2 | Nitrogen/Oxygen | 7-8 | 21-23 | 31-36 | |||
| 3 | Nitrogen/Oxygen | / | 6-12 | 18-22 | 32-38 | 34-39 | |
| Oxygen | 2.9-3.2 | 3.9-4.1 | / | / | / | ||
| 4 | Nitrogen/Oxygen | / | / | 11-13 | 22-26 | 25-29 | |
| Oxygen | 2.4-2.6 | 3.4-3.6 | 3.7-4 | / | / | ||
| 5 | Nitrogen/Oxygen | / | / | 8-10 | 17-20 | 18-22 | |
| Oxygen | 1.8-2.0 | / | 3.2-3.3 | / | / | ||
| 6 | Air | / | / | 5.5-6.5 | 12-14 | 16-18 | |
| Nitrogen | / | / | 5.5-6.5 | 11-13 | 15-17 | ||
| Oxygen | 1.6-1.8 | 2.7-2.8 | 2.6-2.8 | 2.6-2.8 | 2.6-2.8 | ||
| 8 | Air | / | / | / | 8-10 | 10-11 | |
| Nitrogen | / | / | / | 7-9 | 9-10 | ||
| Oxygen | 1.1-1.3 | 2.1-2.3 | 2.5-2.6 | 2.5-2.6 | 2.5-2.6 | ||
| 10 | Air | / | / | / | 5-6 | 7-8 | |
| Nitrogen | / | / | / | 4.5-5.5 | 6.5-7 | ||
| Oxygen | 0.9-1.0 | 1.4-1.6 | 2.2-2.3 | 2.2-2.3 | 2.2-2.3 | ||
| 12 | Air | / | / | / | 4.2-5 | 5.5-6.5 | |
| Nitrogen | / | / | / | 4-4.8 | 5-6 | ||
| Oxygen | 0.8-0.9 | 1-1.1 | 1.8-2.0 | 1.9-2 | 1.9-2 | ||
| 14 | Air | / | / | / | 3.5-4.2 | 5-5.55 | |
| Nitrogen | / | / | / | 3.2-3.5 | 4.8~5 | ||
| Oxygen | 0.6-0.7 | 0.9-0.95 | 1.4-1.7 | 1.5-1.6 | 1.5-1.6 | ||
| 16 | Air | / | / | / | / | / | |
| Oxygen | 0.5-0.6 | 0.8-0.95 | 1.2-1.3 | 1.4-1.6 | 1.4-1.6 | ||
| 18 | Air | / | / | / | / | / | |
| Oxygen | / | 0.7-0.72 | 0.7-0.8 | 1.4-1.5 | 1.4-1.5 | ||
| 20 | Air | / | / | / | / | / | |
| Oxygen | / | 0.6-0.65 | 0.6-0.65 | 1.4-1.5 | 1.4-1.5 | ||
| 22 | Oxygen | / | 0.55 | 0.55-0.6 | 1.2 | 1.2-1.3 | |
| 25 | Oxygen | / | 0.5 | 0.5-0.55 | 1 | 1.2-1.3 | |
| 30 | Oxygen | / | / | / | 0.4 | 0.8~0.9 | |
| 35 | Oxygen | / | / | / | 0.35 | 0.4 | |
| 40 | Oxygen | / | / | / | 0.3 | 0.35 | |
| 45 | Oxygen | / | / | / | 0.2 | 0.25 | |
| 50 | Oxygen | / | / | / | / | 0.2 | |
| 60 | Oxygen | / | / | / | / | / | |
| 70 | Oxygen | / | / | / | / | / | |
| 80 | Oxygen | / | / | / | / | / | |
| Stainless Steel (SUS 304) | Thickness(MM) | Gas | 1500W | 3000W | 6000W | 12000W | 15000W |
| Speed (M/MIN) | Speed (M/MIN) | Speed (M/MIN) | Speed (M/MIN) | Speed (M/MIN) | |||
| 1 | Nitrogen/Oxygen | 27-30 | 50-53 | 59-65 | / | / | |
| 2 | Nitrogen/Oxygen | 8-9 | 23-25 | 32-38 | / | / | |
| 3 | Nitrogen/Oxygen | 4.2-4.5 | 10-12 | 20-24 | 32-38 | 34-39 | |
| 4 | Nitrogen/Oxygen | 2.0-2.2 | 6-8 | 12-15 | 22-26 | 25-29 | |
| 5 | Nitrogen/Oxygen | 1.5-1.7 | / | 9-11 | 17-20 | 18-22 | |
| 6 | Air | 1.0-1.2 | 2.9-3.1 | 6-7.5 | 14-16 | 17-20 | |
| Nitrogen | 1.0-1.2 | 2.9-3.1 | 6-7.5 | 13-15 | 16-19 | ||
| 8 | Air | 0.5-0.6 | 1.2-1.3 | 4-4.5 | 10-12 | 12-14 | |
| Nitrogen | 0.5-0.6 | 1.2-1.3 | 4-4.5 | 9-11 | 11-13 | ||
| 10 | Air | / | 0.75-0.8 | 2.2-2.4 | 8-9 | 8-10 | |
| Nitrogen | / | 0.75-0.8 | 2.2-2.4 | 7.5-8 | 7-9 | ||
| 12 | Air | / | 0.5 | 1.3-1.5 | 6.0-6.5 | 7.0-7.5 | |
| Nitrogen | / | 0.5 | 1.3-1.5 | 5.2-6.0 | 6.0-6.5 | ||
| 14 | Air | / | / | 0.9-1.0 | 3.7-4.0 | 4.8-5.0 | |
| Nitrogen | / | / | 0.9-1.0 | 3.2-3.5 | 4.3-4.5 | ||
| 16 | Air | / | / | 0.8-0.85 | 2.7-3.0 | 3.4-3.8 | |
| Nitrogen | / | / | 0.8-0.85 | 2.3-2.5 | 3.0-3.5 | ||
| 18 | Air | / | / | / | 2.2-2.5 | 3.0-3.3 | |
| Nitrogen | / | / | / | 1.8-2.0 | 2.6-2.8 | ||
| 20 | Air | / | / | 0.5-0.6 | 1.6-1.8 | 2.0-2.2 | |
| Nitrogen | / | / | 0.5-0.6 | 1.3-1.5 | 1.6-1.8 | ||
| 25 | Air | / | / | / | 0.8-1.0 | 1.2-1.5 | |
| Nitrogen | / | / | / | 0.7-0.8 | 1.1-1.3 | ||
| 30 | Air | / | / | / | 0.65 | 0.6-0.7 | |
| Nitrogen | / | / | / | 0.25 | 0.33-0.35 | ||
| 35 | Nitrogen | / | / | / | / | / | |
| 40 | Nitrogen | / | / | / | 0.15 | 0.25 | |
| 50 | Nitrogen | / | / | / | 0.1 | 0.15 | |
| 60 | Nitrogen | / | / | / | / | 0.1 | |
| 70 | Nitrogen | / | / | / | / | 0.06 | |
| 80 | Nitrogen | / | / | / | / | / | |
| 90 | Nitrogen | / | / | / | / | / | |
| 100 | Nitrogen | / | / | / | / | / | |
| Aluminum | Thickness(MM) | Gas | 1500W | 3000W | 6000W | 12000W | 15000W |
| Speed (M/MIN) | Speed (M/MIN) | Speed (M/MIN) | Speed (M/MIN) | Speed (M/MIN) | |||
| 1 | Nitrogen/Air | 21-23 | 40-43 | 43-46 | / | / | |
| 2 | Nitrogen/Air | 5-7 | 16-18 | 26-28 | / | / | |
| 3 | Nitrogen/Air | 3.2-3.5 | 8-10 | 6-6.5 | 27-30 | 28-32 | |
| 4 | Nitrogen/Air | 1.5-1.7 | 5-6 | 4.5-5 | 19-21 | 20-22 | |
| 5 | Nitrogen/Air | 0.5-0.7 | / | 2.8-2.9 | 14-16 | 16-18 | |
| 6 | Nitrogen/Air | / | 1.5-2 | 1.7-1.8 | 10-12 | 12-14 | |
| 8 | Nitrogen/Air | / | 0.6-0.7 | 1.0-1.2 | 7-8 | 8-9 | |
| 10 | Nitrogen/Air | / | / | 0.7-0.9 | 4-5 | 5.5-6 | |
| 12 | Nitrogen/Air | / | / | 0.5-0.6 | 2.5-3 | 3.5-4 | |
| 14 | Nitrogen/Air | / | / | / | 2.3-2.5 | 2.5-3 | |
| 16 | Nitrogen/Air | / | / | / | 1.6-1.8 | 1.8-2 | |
| 18 | Nitrogen/Air | / | / | / | 1-1.2 | 1.4-1.6 | |
| 20 | Nitrogen/Air | / | / | / | 0.8 | 0.9-1.0 | |
| 22 | Nitrogen/Air | / | / | / | 0.5 | 0.8 | |
| 25 | Nitrogen/Air | / | / | / | / | 0.5 | |
| 30 | Nitrogen/Air | / | / | / | / | / | |
| 40 | Nitrogen/Air | / | / | / | / | / | |
| 50 | Nitrogen/Air | / | / | / | / | / | |
| Brass | Thickness(MM) | Gas | 1500W | 3000W | 6000W | 12000W | 15000W |
| Speed (M/MIN) | Speed (M/MIN) | Speed (M/MIN) | Speed (M/MIN) | Speed (M/MIN) | |||
| 1 | Nitrogen/Air | 18-20 | 37-40 | 41-43 | |||
| 2 | Nitrogen/Air | 4-5 | 14-16 | 24-26 | |||
| 3 | Nitrogen/Air | 2.3-2.5 | 7-9 | 13-14 | 25-28 | 25-29 | |
| 4 | Nitrogen/Air | 1.2-1.4 | 3-4 | 9-10 | 16-18 | 18-20 | |
| 5 | Nitrogen/Air | / | / | 5-6 | 12-14 | 13-16 | |
| 6 | Nitrogen/Air | / | 1.2-1.5 | 4-4.5 | 9-11 | 11-13 | |
| 8 | Nitrogen/Air | / | 0.5-0.6 | 2.3-2.5 | 6-7 | 7-8 | |
| 10 | Nitrogen/Air | / | / | 1.5-1.6 | 3.5-4.5 | 5-5.5 | |
| 12 | Nitrogen/Air | / | / | 1.0-1.2 | 2.2-2.8 | 3.2-3.5 | |
| 14 | Nitrogen/Air | / | / | 0.7-0.9 | 1.8-2 | 2.3-2.8 | |
| 16 | Nitrogen/Air | / | / | 0.5-0.6 | 1.4-1.6 | 1.5-1.8 | |
| 18 | Nitrogen/Air | / | / | / | 0.8-1.0 | 1.1-1.3 | |
| 20 | Nitrogen/Air | / | / | / | 0.7 | 0.7-0.9 | |
| 22 | Nitrogen/Air | / | / | / | 0.4 | 0.7 | |
| 25 | Nitrogen/Air | / | / | / | / | 0.4 | |
| 1. In the cutting data, the core diameter of the output fiber of the 1500W laser is 50 microns. | |||||||
| 2. This cutting data uses Jia qiang cutting head, and the optical ratio is 100/125(focallength of collimating focusing lens) . | |||||||
| 3. Cutting auxiiary gas:liquidoxygen(purity99.99%), liquid nitrogen(purity 99.999%) , air(oil, water and filtration) . | |||||||
| 4. The air pressure in this cutting data specifically refers to the monitored air pressure at the cutting head. | |||||||
| 5. Due to diference sin various equipment configurations and cutting processes(machine tools, water cooling, environment, cutting gas nozzles, gas pressure, etc.) used by different customers. | |||||||
| 6. All parameters are dynamic and for reference only. For more information, please contact customer service. | |||||||
The Working Environment of Open-Style Laser Cutting Machines in Metal Sheet Processing
In the bustling world of metal fabrication, the open-style laser cutting machine stands as a beacon of technological advancement and operational efficiency. This powerful tool has transformed the way metal sheets are cut, shaped, and refined, revolutionizing the entire production process.
The open-style design of these laser cutters allows for easy access to the cutting area, enabling operators to quickly and conveniently load and unload materials. This feature is particularly beneficial when dealing with large or heavy metal sheets, which can be challenging to handle in enclosed systems. The open structure also facilitates better ventilation, reducing the risk of fumes and dust accumulation that can occur during the cutting process.
The precision and speed offered by open-style laser cutters are unmatched in traditional cutting methods. The high-powered laser beam cuts through metal sheets with ease, delivering clean and accurate cuts with minimal material wastage. The ability to adjust cutting parameters such as laser power, speed, and focus allows for optimal cutting of different metal types and thicknesses.
In the working environment, the open-style laser cutting machine is often integrated into an automated production line, seamlessly connecting with other manufacturing processes such as bending, welding, and assembly. This integration ensures a smooth and efficient workflow, reducing production time and costs while increasing overall productivity.
The operator plays a crucial role in the effective use of the open-style laser cutting machine. They are responsible for loading the metal sheets, setting the cutting parameters, monitoring the cutting process, and ensuring the safety of the workplace. To operate the machine effectively, operators must possess a combination of technical knowledge and practical skills, allowing them to troubleshoot issues and make adjustments as needed.
Safety is paramount in any industrial setting, and the open-style laser cutting machine is no exception. Operators must adhere to strict safety protocols, wearing protective gear such as goggles and gloves to prevent injuries from flying debris or laser beam exposure. Additionally, regular maintenance and inspections are essential to ensure the machine's optimal performance and prevent potential hazards.
In conclusion, the open-style laser cutting machine is a pivotal component in modern metal fabrication workshops. Its combination of precision, speed, and efficiency revolutionizes the way metal sheets are processed, enhancing productivity and reducing costs. However, it requires skilled operators who can harness its capabilities while maintaining a safe working environment. As technology continues to evolve, the open-style laser cutting machine will undoubtedly play an even more significant role in shaping the future of metal manufacturing.
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