Applications of Laser Power Supplies in Mechanical Manufacturing

CO2 laser power supplies are primarily used in mechanical manufacturing to drive high-power lasers, providing stable energy output for processes such as cutting, welding, marking, and surface treatment. Key application areas include laser engravers, laser cutters, laser marking machines, die-cutting machines, laser drilling machines, advertising engravers, leather engravers, and portable cutting systems.

In metal sheet cutting, CO2 laser power supplies enable high-precision continuous cutting, making them suitable for processing complex contours in automotive sheet metal and aerospace components. In welding applications, they facilitate high-speed welding of thin sheets and encapsulation of precision parts. They are also used for surface modification processes such as hardening and cladding. Compared to traditional machining methods, CO2 laser systems offer advantages such as a small heat-affected zone, high processing efficiency, and excellent automation integration, making them ideal for high-volume, high-precision modern mechanical manufacturing.

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Applications of Portable Laser Devices in Mechanical Manufacturing

Handheld portable laser marking and cleaning machines are increasingly becoming essential solutions in mechanical manufacturing due to their flexibility, efficiency, and environmental friendliness. They offer significant advantages in portability, multi-scenario applicability, and broad material compatibility.

Handheld laser markers are widely used for permanent part identification and traceability in mechanical manufacturing. They can quickly engrave information such as serial numbers, QR codes, and production dates on materials including metal, plastic, and ceramic, ensuring full lifecycle product management. Their portability allows for direct operation on large workpieces (e.g., machine tool bodies, engineering machinery structures) or at assembly sites without moving the workpiece, significantly improving efficiency. Compared to traditional mechanical engraving or inkjet printing, laser marking is non-contact, consumable-free, and highly tamper-proof, making it especially suitable for anti-counterfeiting marks on high-precision components such as engine parts and bearings. Marking content can be adjusted in real time via software and integrated with MES/ERP systems, meeting the demands of flexible production and serving as an indispensable process in smart manufacturing.

Handheld laser cleaners are mainly used for efficient and eco-friendly surface treatment in mechanical manufacturing. They can quickly remove oxidation, oil, rust, or coatings from metal surfaces, making them suitable for pre-treatment before welding or painting, mold maintenance, and part refurbishment. The non-contact cleaning method avoids environmental pollution caused by chemical solvents or sandblasting, while allowing precise parameter adjustment for layer-by-layer cleaning without damaging the substrate. This equipment is particularly well-suited for cleaning complex structures of precision components such as hydraulic valve blocks and gears. It effectively removes oxides, rust, coatings, oil, mold residues, and paint, and supports on-site maintenance of large machinery (e.g., ships, engineering equipment), significantly improving cleaning efficiency and aligning with green manufacturing trends.

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