Application of Laser Power Supplies in Mechanical Manufacturing

Application of Laser Power Supplies in Mechanical Manufacturing

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

In the field of metal sheet cutting, CO2 laser power supplies enable high-precision continuous cutting, making them ideal for processing complex contours in automotive panels, aerospace components, and more. For welding applications, they facilitate high-speed joining of thin sheets and precise encapsulation of delicate parts. Additionally, they are used for surface modification techniques like hardening and cladding. Compared to traditional methods, CO2 laser systems offer advantages such as minimal heat-affected zones, high processing efficiency, and seamless automation integration, making them perfect for modern mechanical manufacturing that demands mass production and high accuracy.

Application of Portable Laser Devices in Mechanical Manufacturing

Handheld portable laser marking and cleaning machines are becoming essential solutions in mechanical manufacturing due to their flexibility, efficiency, and eco-friendliness. These devices excel in portability, multi-scenario adaptability, and compatibility with a wide range of materials.

Handheld laser markers are extensively used for permanent part identification and traceability. They can quickly engrave serial numbers, QR codes, production dates, and other information on metals, plastics, ceramics, and more, ensuring full lifecycle product management. Their portability allows for on-site marking of large workpieces (e.g., machine tool frames, construction machinery components) without the need to move them, significantly improving efficiency. Unlike traditional mechanical engraving or inkjet printing, laser marking is contactless, consumable-free, and highly tamper-proof, making it ideal for high-precision components like engine parts and bearings. Moreover, marking content can be adjusted in real-time via software and integrated with MES/ERP systems, meeting the demands of flexible production and smart manufacturing.

Handheld laser cleaners are primarily used for efficient and environmentally friendly surface treatment. They quickly remove oxidation, oil, rust, or coatings from metal surfaces, making them suitable for pre-welding/pre-painting preparation, mold maintenance, and part refurbishment. The non-contact cleaning method eliminates the environmental hazards of chemical solvents or sandblasting while allowing precise parameter adjustments for layer-by-layer cleaning to protect the substrate. These devices are particularly effective for cleaning intricate structures like hydraulic valve blocks and gears, as well as large machinery (e.g., ships, construction equipment) during on-site maintenance. By enhancing cleaning efficiency and supporting green manufacturing initiatives, handheld laser cleaners are revolutionizing industrial maintenance practices.