Specifications
A textile laser cutting machine is a specialized tool used in the textile and garment industry for precision cutting of fabrics and textiles. It utilizes a laser beam to cut through the material with high accuracy and speed, offering various advantages over traditional cutting methods such as scissors or blades.
Here are some key features and benefits of textile laser cutting machines:
- Precision cutting: Laser cutting machines can achieve intricate and precise cuts, allowing for complex designs and patterns to be easily produced on textiles. The laser beam follows a digital design file, resulting in accurate and consistent cuts.
- Versatility: Textile laser cutting machines can handle a wide range of fabrics and textiles, including natural fibers like cotton and silk, synthetic materials like polyester and nylon, as well as specialty fabrics such as leather and denim. They can cut through various thicknesses and densities of materials.
- Non-contact cutting: Unlike traditional cutting methods, laser cutting is a non-contact process. The fabric is not physically touched or pressed down during cutting, minimizing the risk of distortion or damage to delicate materials.
- Sealed edges: When a laser cuts through fabric, it simultaneously fuses the edges, creating sealed edges that help prevent fraying and unraveling. This eliminates the need for additional finishing steps, such as hemming or binding, saving time and labor.
- High speed and efficiency: Laser cutting machines can rapidly cut through fabrics, increasing production speed and efficiency. They are capable of cutting multiple layers of fabric simultaneously, further enhancing productivity.
- Design flexibility: Textile laser cutting machines offer great design flexibility, as they can easily switch between different cutting patterns and designs without the need for physical tool changes. This makes them ideal for customization and small-batch production.
- Minimal material waste: Laser cutting is a highly precise process, resulting in minimal material waste compared to traditional cutting methods. The digital control allows for optimized nesting of pattern pieces, maximizing material utilization.
- Automation integration: Textile laser cutting machines can be integrated into automated production lines, enabling seamless material handling, design transfer, and production workflow. This integration enhances productivity and reduces labor requirements.
It’s worth noting that different models and brands of textile laser cutting machines may have varying specifications, capabilities, and additional features. Therefore, it’s essential to research and select a machine that aligns with your specific requirements and production needs.
Model | AccuCut – XXXX |
Laser type | CO2 DC glass tube / RF metal laser tube |
Laser power | |
Glass tube | 60 W/ 80 W/ 100 W/ 130 W / 150 W |
Metal tube | 40 W/ 60 W/ 80 W/ 100 W/ 200 W |
Wavelength | 10.6 μm |
Supply voltage | AC 230 V ± 10% |
Reposition accuracy | 0.1 mm (MAX) |
Cutting speed | 0-30000 mm/min |
Engraving speed | 0-64000 mm/min |
Cooling | Water cooled |
Work environment | Temp: 0 ˚C – 45 ˚C Humidity: 5% – 95% |
Acceleration speed | 1 G |
Graphic file support | .plt, .cdr, .al, .dwg, .dst, .dxf, .bmp, .jpeg, .tiff, .gif, .pcx etc. |