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| Quantity: | |
|---|---|
Air cooled laser source- RF tube
Power and cooling options available
D80 rotary
Fourth axis, rotary marking
2D/3D mobile platform
2/3 Axis table
Non-consumable
● No need to replace consumables
● Requires only electrical energy
● One-time investment
● Maintenance-free
Energy-saving
● Non-wasteful
● 100% utilisation
● No emissions
Visual laser marking machine
Large format laser marking machine
Split laser marking machine
3D laser engraving machine
| No. | Project | Parameter |
| 1 | Model number | HC10XX |
| 2 | Laser power | 40W/50W/60W/100W (optional) |
| 3 | Laser level | Class IV(IEC 60825-1) |
| 4 | Laser type | Sealed Co2 laser (RF tube) |
| 5 | Wavelength | 10.6/10.2/9.3μm |
| 6 | Marking field | 110*110mm-300*300mm(optional) |
| 7 | Marking depth | >0.4mm |
| 8 | Marking speed | ≤10000mm/s(optional) |
| 9 | Marking line width | >0.4mm |
| 10 | Min character size | 0.5mm |
| 11 | Repeat accuracy | 0.01mm |
| 12 | Cooling method | Air-cooled |
| 13 | Laser source expected life | >50,000 hours |
| 14 | Standard user interface | Touch panel/PC |
| 15 | Consumables | No |
| 16 | Temperature | 0-45℃ |
| 17 | Power consumption | 700 W |
| 18 | Electrical requirement | L/N/PE 100 – 240 VAC, 50/60 Hz |
Precision and Accuracy:
For industries that require the highest levels of precision—like the electronics or medical device sectors—CO2 lasers offer exceptional accuracy that is unmatched by other technologies.
Versatility in Materials:
CO2 lasers can mark on a wide range of materials, from delicate materials like glass and acrylic to harder materials like metals, making them suitable for diverse applications.
Cost-Effectiveness:
While the initial investment may be higher than some other marking methods, the long-term cost savings of a high precision CO2 laser marking machine are substantial due to low operational costs and minimal maintenance requirements.
High-Speed Marking:
The fast CO2 laser marking machine is designed for high-volume production. Its quick marking speed ensures that your production line remains efficient and that you meet market demand without delays.
Educational Value:
For educational settings, these machines allow students to engage with cutting-edge technology in fields like engineering, manufacturing, and design, offering hands-on experience with advanced precision marking tools.
Integration with Automation:
The future of CO2 laser marking lies in its increasing integration with automation systems. This will lead to even faster and more precise marking, reducing human error and increasing productivity.
Advancements in Software:
As the software that controls these machines evolves, it will enable even more intricate designs and higher levels of automation, further improving the flexibility and functionality of CO2 laser marking systems.
Sustainability:
CO2 laser technology is already known for its eco-friendly nature, and future models are expected to be even more energy-efficient, helping industries adopt more sustainable manufacturing practices.
| Materials | Reaction | Materials | Reaction | ||
| Metal | Stainless steel | - | Plastic | PE | √ |
| Aluminum | - | PP | √ | ||
| Anodized aluminum | √ | PVC | √√ | ||
| Brass | - | PPR | √ | ||
| Coated metal | √ | ABS | √ | ||
| Copper | - | PET | √√ | ||
| Gold, silver, nickel, platinum | - | Nylon | √ | ||
| Carbon steel | - | MPP | √ | ||
| Titanium | - | PC | √ | ||
| Ceramics | Ceramic | √ | Plastic films and foils | Aluminized foil | √√ |
| Rubber | Natural rubber | √√ | Polyethylene terephthalate (PET) | √√ | |
| Synthetic rubber | √√ | Oriented polypropylene (OPP) | √√ | ||
Excellent Reaction: √√ Good reaction: √ Poor reaction: -
From industrial manufacturing to education, CO2 laser marking machines are transforming industries by offering high precision, speed, and versatility. Whether used for large-scale production, fast-paced environments, or custom marking needs, these machines provide a functional, eco-friendly, and cost-effective solution. Their role in modern manufacturing, education, and customization makes them indispensable tools that will continue to evolve and shape the future of marking technology.
In summary, large CO2 laser marking machines are not just a tool for today—they’re an investment for the future, providing high precision, fast production, and custom solutions across industries.
Industrial Use:
In industrial settings, large CO2 laser marking machines are essential for marking parts and components that require high-precision, permanent identification, such as in automotive manufacturing, electronics, and medical device production.
Fast Production Lines:
Industrial CO2 laser marking machines can be incorporated into high-speed production lines. They allow for on-the-fly marking, meaning they can mark items moving on a conveyor belt, reducing production delays and improving throughput.
Educational Use:
In educational institutions, CO2 laser marking machines serve as a powerful teaching tool. They allow students to learn about modern manufacturing techniques, and they can be used for creating customized educational materials or teaching aids.
Custom Marking Needs:
Whether it’s a custom logo or detailed design work, custom CO2 laser marking machines offer flexibility to meet unique customer requirements across industries such as textile manufacturing, personalized gifts, and product labeling.
Electric lift
Fume extractor
Foot switch
Conveyor
