Precision Welding: Offers high-precision welds with minimal distortion, ideal for fine and delicate work.
Fiber Laser Source: Utilizes a fiber laser for efficient, high-quality, and energy-saving performance.
Table Design: A worktable design allows for easy handling and positioning of workpieces, making it suitable for manual or automated operations.
Adjustable Welding Parameters: Provides flexibility with adjustable laser power, pulse frequency, and welding speed for various material types and thicknesses.
Compact and User-Friendly: Designed with ease of use in mind, featuring intuitive interfaces and easy setup.
Low Maintenance: The fiber laser technology is solid-state and requires less maintenance compared to traditional CO2 lasers.
Cooling System: Water-cooled system to maintain the laser source and keep the machine working efficiently.
High Efficiency: Faster processing speeds and reduced energy consumption compared to conventional welding methods.
2. Technical Specifications:
Laser Power: Typically ranges from 500W to 3000W (higher power options are available for specialized needs).
Wavelength: 1070 nm (standard for fiber lasers).
Laser Type: Single-mode or multi-mode fiber laser.
Beam Quality: M² < 1.2 (ensuring a highly focused and stable laser beam).
Cooling System: Water-cooled with temperature regulation for optimal performance.
Welding Speed: Up to 10 m/min, depending on material and thickness.
Work Table Size: Varies, typically 600 x 600 mm to 1500 x 1500 mm, depending on the model.
Pulse Duration: Adjustable, typically in the nanosecond to millisecond range.
Accuracy: ±0.1 mm or better, ensuring precision welding.
Voltage: 220V-380V depending on the model.
Control System: CNC or user-friendly interface with easy parameter adjustments.
3. Applications:
Automotive Industry: Welding of thin metal parts, body panels, and exhaust systems.
Aerospace: Precision welding of critical components and thin-walled structures used in aircraft manufacturing.
Medical Equipment: Welding of delicate components such as surgical instruments and implants.
Jewelry Manufacturing: Fine welding of small metal parts, such as rings, chains, and other accessories.
Electronics: Laser welding for components like circuit boards, connectors, and sensors.
Tool and Mold Making: Welding of small and medium-sized components in tool and die manufacturing.
Consumer Goods: Production of metal items such as watches, eyeglass frames, and small appliances.
4. Benefits:
High Precision: Produces high-quality, precise welds with minimal distortion, making it perfect for fine and detailed work.
Energy Efficient: Fiber lasers are more energy-efficient than traditional laser sources, reducing operational costs.
Minimal Heat Affected Zone (HAZ): Reduces thermal distortion, making it ideal for sensitive materials.
No Consumables Required: Eliminates the need for additional filler materials or welding rods, saving cost.
Low Maintenance: Fiber laser sources require very little maintenance compared to other types of lasers, leading to lower long-term costs.
Fast and Efficient: Increased welding speed, allowing for higher productivity and faster turnaround times.
Environmentally Friendly: Reduced waste and emissions, contributing to greener manufacturing processes.
Versatility: Can be used on a wide range of materials, including metals like stainless steel, aluminum, copper, and titanium.
