PVS Reflective Coaxial Strip-Type Laser Cladding Head
Presentation of the equipment's characteristics
The reflective laser cladding head adopts a Z-type reflective optical path, and its terminal end can be equipped with various nozzle configurations—including coaxial ring, coaxial broadband, and off-axis broadband nozzles. This design achieves exceptionally high overall powder utilization efficiency, enabling the system to meet the laser cladding and laser hardening requirements for the majority of industrial components.
With its optimized reflective beam delivery and multi-nozzle compatibility, the cladding head provides stable melt-pool control, uniform deposition, and high processing efficiency across a wide range of industrial applications.
High Stability
Equipped with high-quality beam homogenization technology, the system delivers exceptional process stability and outstanding resistance to high-reflective materials, ensuring reliable performance across demanding industrial applications.
High-Efficiency Powder Feeding
Supports high-power needle-type powder feeding, ring-shaped powder delivery, and coaxial broadband powder nozzles, meeting the requirements of high-power laser cladding and precision material processing.
Enhanced Safety
Integrated temperature-monitoring protection modules allow real-time tracking of the protective lens temperature during cladding operations, ensuring safe and stable long-term use of the optical components.
Wide Powder Particle Size Compatibility
The optimized powder delivery nozzles ensure smooth, stable feeding without clogging, supporting 100–400 mesh metal powders with high powder concentration and consistent flow.
Extended Service Life
The improved coaxial shielding gas injection module provides excellent molten-pool protection and reduces contamination, significantly extending the service life of protective lenses and key optical components.
Rich Functionality
By simply replacing the end-component module, the system can perform metal 3D printing, welding, hardening, coaxial cladding, off-axis cladding, and other advanced laser processing tasks, offering strong adaptability for diverse industrial needs.
| Category | Specification |
|---|---|
| Optical Interface | QBH, QD, LLK-D, LOE |
| Optical Path Design | Z-type reflective structure |
| Lens Configuration | Collimating lens + focusing lens |
| Protective Lens | 3 layers |
| Cooling Method | Water cooling |
| Power Endurance | ≤ 20,000 W |
| Focal Spot | 20 × 4 mm, 12 × 3 mm (customizable) |
| Applicable Wavelength | 900–1080 nm |
| Laser Transmission Efficiency | > 99.25% |
| Optical Adjustment Module | Included |
| Temperature Sensor | Protective lens |
| Powder Feeding Structure | Coaxial strip powder feeding |
| Powder Utilization Rate | > 85% |
| Weight | 7.5 kg |
| Optional Features | Temperature ring, CCD monitoring, height-following system, oscillation system |
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Explore Greenstone’s related portfolio of high-performance industrial equipment, engineered to complement your manufacturing objectives across laser cladding, DED additive manufacturing, laser cleaning, surface engineering, precision automation, and advanced material processing. Each solution is strategically designed to expand production capabilities, enhance process efficiency, and support scalable industrial innovation.
From modular laser systems to fully integrated intelligent manufacturing platforms, Greenstone provides customers with interconnected technologies that deliver greater flexibility, precision, and operational excellence for modern global manufacturing environments.
