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The CO2 glass laser marking machine from Kirin Laser integrates a high-quality 3D 30-point lens system paired with an advanced anti-interference isolation design. With its compact structure and aesthetically pleasing appearance, this machine offers versatile marking and cutting capabilities. It features a generous marking area of 1200 x 1200mm, which is adjustable and can be customized to suit your product requirements.
Equipped with a dynamic focusing function, this machine automatically adjusts the laser focus according to the material’s surface irregularities. This optimized focus adjustment ensures the laser tube operates in its most efficient state, minimizing wear and reducing unnecessary energy consumption. It’s an ideal solution for businesses seeking precision, efficiency, and adaptability in their laser marking processes.
Kirin Laser’s 3D CO2 laser marking machines are high-tech solutions that harness dynamic focusing technology, ensuring precision marking and engraving across a diverse range of materials in three dimensions. These machines are specifically designed to produce intricate designs and detailed engravings that go beyond the capabilities of standard 2D laser marking systems.
Expansive Marking Area: The Kirin Laser 3D CO2 laser marking machines offer generous working areas, such as 600 mm x 600 mm or even larger, making them suitable for processing bigger workpieces or handling multiple smaller items at once.
Advanced 3D Dynamic Marking: Equipped with state-of-the-art dynamic focusing scanners, the machines perform 3D marking effortlessly, delivering complex designs and detailed engravings that are not achievable with 2D laser marking systems.
High-Speed Performance: Kirin Laser’s 3D CO2 models operate at marking speeds reaching up to 10,000 mm/s, ensuring efficiency even in high-volume production environments, making them ideal for businesses aiming for rapid output.
Precision and Detail: With a focus spot diameter of under 0.01 mm and a minimum line width as fine as 0.012 mm, these machines guarantee precise, clear, and durable markings, meeting the highest quality standards.
Non-Contact Marking: The non-contact laser beam technology minimizes the risk of damage to delicate materials, making Kirin Laser’s 3D CO2 laser marking machines versatile and suitable for a wide range of applications across different industries.
Model | KR-LC100-3D |
Power | 100W |
Power stability rate | ±4% |
Laser source | Davi |
Galvanometer | 3D FWWLTEK |
Wavelength | 10.6μm |
Marking area | 600*600mm/800*800mm/1200*1200mm |
Beam quality | M2﹤1.2 |
Beam diameter (1/e²) | 2.5 |
Operating frequenc (KHZ) | 0-100% |
Input voltage/current | 48V/30A |
Maximum thermal load | 1400W |
Cooling method | Water cooling |
Kirin Laser’s advanced 3D galvanometer system offers robust three-axis control (X, Y, Z), allowing for highly precise laser positioning and processing within three-dimensional spaces.
Incorporating dynamic focusing control technology, this system continuously adjusts the laser focus position in real time, ensuring distortion-free marking across a wide range of surfaces. It is capable of handling large, 3D curved surfaces, steps, cones, slopes, and other complex geometries with exceptional accuracy, making it a versatile solution for intricate laser marking tasks.
Kirin Laser’s CO2 glass laser marking machine is equipped with a side-mounted computer display screen, which optimizes the equipment’s spatial layout, ensuring that no additional space is occupied.
This integrated computer display allows for real-time monitoring of the laser marking process and enables users to adjust parameters on the spot. With an intuitive user interface, it simplifies operations, making the marking process more straightforward and user-friendly. Additionally, this setup enhances operational efficiency, allowing quick adjustments to various marking projects.
Kirin Laser’s glass laser marking machine features an adjustable workbench, allowing it to adapt seamlessly to different sizes and shapes of workpieces, meeting a wide range of marking requirements.
The height of the workbench can be easily adjusted according to your specific needs, enhancing both work comfort and operational efficiency, while also reducing fatigue during prolonged use. This flexibility ensures that even complex or irregularly shaped workpieces can be marked with precision, making it an ideal solution for diverse production environments. Additionally, the adjustable workbench helps maintain a stable and consistent marking quality across various projects.
Kirin Laser’s 3D CO2 laser marking machines are designed to elevate your production efficiency and precision across multiple industries. Here’s why they are an indispensable tool for your business:
Kirin Laser’s 3D CO2 marking machines utilize advanced dynamic focusing technology, allowing you to achieve highly detailed and intricate engravings that traditional 2D marking systems can’t match. Perfect for applications requiring sharp, precise designs like logos, patterns, or even intricate artwork, this technology ensures flawless output every time.
Our machines are equipped to handle a wide range of non-metal materials, including but not limited to:
This versatility makes Kirin Laser’s 3D CO2 systems an ideal choice for industries like packaging, textiles, handicrafts, and advertising.
Kirin Laser’s 3D CO2 machines come with large-format marking areas, typically reaching up to 600 mm x 600 mm or even larger. This spacious work area allows you to handle bigger workpieces or process multiple smaller items at once, enhancing batch processing efficiency and significantly boosting large-scale production.
Engineered for high-speed performance, these machines can operate at speeds up to 10,000 mm/s. This efficiency ensures quick turnaround times, making them perfectly suited for high-volume production lines where meeting deadlines is crucial.
The non-contact marking technology minimizes any risk of damaging the material, making Kirin Laser’s machines the ideal choice for working with delicate or sensitive substrates.
With intuitive LCD touch screen interfaces, Kirin Laser’s 3D CO2 marking machines are easy to operate, even for operators with minimal training. Additionally, their sealed optical systems ensure a maintenance-free experience, reducing downtime and keeping your operational costs to a minimum.
Laser marking with Kirin Laser is an environmentally conscious choice. The process is clean and does not produce harmful emissions or waste, making it a sustainable alternative to conventional marking methods.
Our machines are compatible with various file formats (such as PLT, DXF, BMP) and can be seamlessly integrated into existing production lines. With customizable design and marking parameters, Kirin Laser’s 3D CO2 systems offer flexibility to meet the specific demands of any project.
Built to endure, Kirin Laser’s 3D CO2 marking machines boast a laser module lifespan that often exceeds 40,000 hours. This durability ensures your investment remains productive for the long term with minimal maintenance.
Kirin Laser’s 3D CO2 laser marking machines are versatile and can be applied in numerous industries, including:
Kirin Laser’s 3D CO2 Laser Marking Machines: Unveiling the Technology Behind Precision
Kirin Laser’s 3D CO2 laser marking machines are designed with cutting-edge technology to deliver unparalleled precision and efficiency for three-dimensional marking and engraving on various materials. Here’s a comprehensive breakdown of how these advanced machines operate:
The process kicks off with the generation of a CO2 laser beam, operating at a wavelength of 10.6 micrometers. Within a sealed laser tube, a combination of carbon dioxide, nitrogen, and helium gases is excited using an electrical current. This excitation causes the CO2 molecules to release photons, resulting in a highly coherent laser beam. This beam is the driving force behind the precision marking capabilities of Kirin Laser’s machines.
Once generated, the laser beam is directed through an advanced optical system, incorporating mirrors and lenses to focus it into a concentrated, dense spot on the material’s surface. Kirin Laser’s machines are equipped with a high-speed galvanometer scanning system that enables rapid, dynamic movement of the laser beam across three-dimensional surfaces. This capability ensures absolute control over marking depth, contours, and intricate detailing, resulting in precision marking on even the most complex surfaces.
When the focused laser beam interacts with the material, it induces a photothermal effect, which causes the material to vaporize, melt, or undergo a chemical change. This interaction leads to permanent, high-quality markings such as logos, text, or intricate designs. Adjusting parameters like laser power, scanning speed, and pulse frequency allows users to customize the depth and quality of the markings, providing unmatched flexibility and precision.
Kirin Laser’s 3D CO2 marking machines excel at processing a wide range of non-metallic materials, including:
This broad material compatibility makes these machines ideal for diverse applications across industries such as packaging, textiles, crafts, and advertising.
Many of Kirin Laser’s 3D CO2 laser marking models feature generous working areas, often reaching up to 600 mm x 600 mm or even larger. This large format capability enables efficient processing of larger workpieces or simultaneous marking of multiple smaller items, significantly boosting productivity in any production environment.
Designed for speed, Kirin Laser’s 3D CO2 laser marking machines offer marking speeds of up to 10,000 mm/s. This high-speed operation is crucial for applications requiring rapid turnaround and high-volume production, ensuring that your production lines remain efficient and profitable.
Leveraging advanced optics and precision positioning systems, Kirin Laser’s machines achieve remarkable accuracy, with a focus spot diameter of less than 0.01 mm and a minimum line width of just 0.012 mm. This exceptional precision ensures that even the most intricate designs are rendered with crystal clarity, resulting in durable, high-quality markings every time.
Kirin Laser’s 3D CO2 Laser Marking Machines excel at marking an extensive variety of non-metallic materials, including wood, glass, acrylic, leather, textiles, ceramics, and plastics. This versatility makes them an ideal solution for industries such as packaging, textiles, automotive interiors, woodworking, and beyond.
These machines go beyond traditional 2D laser marking. Kirin Laser’s 3D CO2 technology effortlessly handles uneven, curved, or irregular surfaces with unmatched precision. Whether dealing with cylindrical objects, concave, convex, or multi-layered surfaces, the results remain sharp and consistent.
With an ultra-fine laser beam, Kirin Laser’s machines ensure high-quality, detailed markings featuring sharp edges and intricate designs. This high-resolution capability makes them perfect for applications requiring exact clarity, even on complex geometries.
Kirin Laser’s 3D CO2 systems employ a contact-free marking process, preventing deformation or damage to even the most delicate or sensitive materials. This makes them an excellent choice for industries dealing with fragile items or products requiring pristine finishes.
Designed for industrial efficiency, Kirin Laser’s machines deliver rapid marking speeds, significantly enhancing productivity and throughput. Ideal for large-scale manufacturing, they effectively reduce downtime and lead times, making them a prime choice for high-demand production lines.
The markings produced are permanent and highly resistant to wear, heat, and environmental exposure. This ensures that the engravings maintain their integrity over time, making them suitable for applications where traceability, branding, or compliance is critical.
Kirin Laser’s 3D CO2 Laser Marking Machines are engineered for low operational costs, requiring minimal maintenance. Additionally, the process does not involve consumables like ink or chemicals, contributing to substantial cost savings over prolonged usage.
The laser marking process is inherently clean and doesn’t generate waste or require any chemicals. This eco-friendly approach makes it an ideal choice for companies looking to reduce their environmental footprint while maintaining high production standards.
Offering highly customizable settings, Kirin Laser’s machines accommodate varying marking depths, widths, and patterns. This flexibility is perfect for tasks ranging from intricate branding and logos to complex serialization, barcodes, and QR code applications.
Kirin Laser’s 3D CO2 Laser Marking Machines are designed for easy integration into automated production lines. Their compatibility with various automation systems makes them an efficient solution for industries that demand high-speed, high-volume marking—perfect for sectors like automotive, electronics, and packaging.
A 3D CO2 laser marking machine uses CO2 gas as its medium to generate a laser beam capable of marking materials with varying depths. Unlike 2D laser markers, it can engrave on 3D surfaces such as slopes, cylinders, cones, and other complex shapes, providing more versatility in marking applications.
These machines are suitable for marking organic materials like paper, wood, fabrics, plastics, glass, leather, stone, rubber, and even some metals, making them ideal for a wide range of applications.
While 2D marking maintains a consistent depth across the surface, 3D laser marking involves varying depths, widths, and heights, making it suitable for marking on curved and irregular surfaces.
They are widely used in industries like automotive, electronics, aerospace, consumer products, medical devices, and tooling. Applications include engraving serial numbers, barcodes, QR codes, logos, and other identification marks on products.
The main benefits include high precision, speed, and the ability to mark on different shapes and materials. It also offers non-contact marking, resulting in minimal damage to the surface.
Yes, 3D CO2 laser marking machines have the capability to mark on curved and irregular surfaces without the need for a rotary device, thanks to their dynamic focusing systems.
The CO2 laser typically operates at a wavelength of 10,600 nm, which is ideal for organic materials due to its heat absorption properties.
These machines are approximately 5x to 10x faster than traditional flatbed methods, making them highly efficient for industrial application.
Most 3D CO2 laser marking machines come with proprietary software that offers various functionalities, such as importing different file types (e.g., JPG, PNG, DXF), and providing presets for various materials.
Yes, CO2 lasers can effectively mark on transparent materials such as glass, as they possess high heat absorption properties, unlike some other laser types.
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