QH - 3015F Single Platform Open Type Sheet Metal Laser Cutting Machine
Description
The Single Platform Open Type Sheet Metal Laser Cutting Machine is a core equipment in modern metal processing, renowned for its high precision, efficiency, and flexibility. Leveraging focused laser beams (typically fiber lasers with 1064nm wavelength), it melts, vaporizes, or blows away metal materials, achieving smooth and accurate cuts without physical contact. Unlike traditional mechanical cutting, it avoids tool wear and material deformation, with a positioning accuracy of up to ±0.03mm and a cut edge roughness (Ra) as low as 6.3μm. Its adjustable laser power (500W-30KW) and large worktable (common 1500×3000mm) enable it to handle diverse metal sheets—from thin 0.5mm carbon steel to thick 50mm stainless steel—meeting both small-batch customization and large-scale mass production needs.
Widely used in industries like automotive, aerospace, electrical equipment, and hardware, this machine drives production upgrades. Its fast cutting speed (e.g., 10-15m/min for 1mm carbon steel with 1000W power) and intelligent nesting software reduce material waste to less than 5%, cutting down production costs. Equipped with safety protection (IP54 worktable) and dust extraction systems, it ensures a safe and clean working environment. Whether for complex parts like automotive chassis components or simple hardware fittings, the Sheet Metal Laser Cutting Machine has become an indispensable tool for high-quality, efficient metal processing.
Quick Detail
The Single Platform Open Type Sheet Metal Laser Cutting Machine achieves precise processing by virtue of a high-energy-density laser beam, with remarkable core features. First, it boasts outstanding cutting precision—the minimum kerf width can reach 0.1mm, enabling it to handle complex irregular parts and tiny structures, thus meeting the needs of precision sheet metal processing. Second, it offers exceptional efficiency: its cutting speed is 3-5 times faster than that of traditional mechanical cutting, and there is no need for frequent tool replacement, which significantly shortens the production cycle. Third, it has strong processing adaptability, capable of cutting various metal sheets such as stainless steel, carbon steel, and aluminum alloy, with a thickness range of 0.1-20mm, compatible with the processing of sheet metal parts made of different materials. Fourth, it delivers excellent kerf quality: the cross-section is smooth without burrs, and the heat-affected zone is extremely small, reducing subsequent processes like grinding. Additionally, the equipment adopts a numerical control system, supports direct import of CAD drawings, and features high automation, which can stably realize mass production and reduce labor costs as well as operational errors.
Technical Specifications
| Processing Area |
3000 * 1500mm |
| Maximum Loading Weight |
800kg |
| Machine Weight |
1600kg |
| Overall Dimensions |
4800 * 2350 * 1900mm |
| Laser Power Range |
1500W - 20KW |
| X/Y-axis Positioning Accuracy |
±0.03mm |
| X/Y-axis Repositioning Accuracy |
±0.03mm |
| Maximum Linkage Acceleration |
1.0G |
| Maximum Linkage Speed |
100m/min |
| Transmission System |
Double rack & pinion transmission with servo drive |
| Voltage Requirement |
380V |
| Frequency |
50Hz |
Advantage
High-Speed & High-Precision Processing: Adopting a dual-drive gantry structure , imported precision transmission components, and an independent numerical control system , it achieves a cutting speed of up to 40 m/min for 1mm stainless steel and 85-100 m/min for 0.5mm stainless steel.
Economical & Energy-Saving Performance: With a photoelectric conversion efficiency of 70%-80% , its power consumption is only 20%-30% of traditional CO₂ equipment.
Strong Adaptability: Boasting a standard processing area of 3000×1500mm, it can cut carbon steel, stainless steel, aluminum, copper (highly reflective materials ), titanium alloy, and other special metals, with a thickness range of 0.5mm to 25mm (depending on power configuration).
Low-Consumption & Maintenance-Free Design: Fiber optic transmission eliminates the need for optical path adjustment and reflective lens replacement.
