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3D Laser Marking Machine for deep engraving, curved surface marking, high-power galvanometer cutting
Product Features
1. 3D scanning systems are suitable for complex surface processing, 3D deep engraving, high-power galvanometer cutting, drilling, laser micro-machining, 3D applications, and laser rapid prototyping.
2. Depending on the wavelength and lens used, it can process various materials such as metal, leather, rubber, wood, bamboo products, ceramic tiles, plastics, marble, and jade.
Product Introduction
1. Larger Range and More Refined Light Efficiency
3D marking employs a focusing optics mode. Jin Chengzi uses a rear-focusing galvanometer, while Firaitec uses a front-focusing galvanometer. Using larger X and Y-axis deflection lenses allows for a larger laser spot, better focusing accuracy, and superior energy efficiency. When 3D marking operates with the same focusing accuracy as 2D marking, the marking range can be significantly larger.
2. Capable of Marking Objects of Different Heights, with Greater Variable Focal Length
Because 3D Fiber Laser Marking Machine can rapidly change the laser focal length and beam position, marking curved surfaces—previously impossible with 2D—becomes possible. With 3D, cylindrical marking within a certain curvature can be completed in a single pass, greatly improving processing efficiency. Furthermore, in real-world applications, many parts have irregular surface shapes, and some have significant height differences, making 2D marking ineffective. In these cases, the advantages of 3D marking become even more apparent.
3. More Suitable for Deep Engraving
Traditional 2D marking for deep surface engraving has inherent drawbacks. As the laser focus moves upward during the engraving process, the laser energy acting on the actual surface of the object decreases sharply, severely affecting the engraving effect and efficiency. Traditional deep engraving methods involve periodically moving a lifting platform electrically to maintain good laser focus. 3D Laser Portable Marking Machine for deep engraving eliminates these problems, ensuring both quality and efficiency while eliminating the cost of the electric lifting platform.
4. More Suitable for Deep Engraving
Traditional 2D marking for deep surface engraving has inherent drawbacks. As the laser focus moves upward during the engraving process, the laser energy acting on the actual surface of the object decreases sharply, severely affecting the engraving effect and efficiency. Traditional deep engraving methods involve periodically moving a lifting platform electrically to maintain good laser focus. 3D marking for deep engraving eliminates these problems, ensuring both quality and efficiency while eliminating the cost of the electric lifting platform.
Marking Samples
Machine Specification
| Model | FP-3D-10-1064 |
| Galvo. Scanner parameters | |
| 2D galvo. aperture | 10mm |
| Following error(ms) | 0.25 |
| Max. marking speed(mm/s) | 4000 |
| Positioning speed(mm/s) | 10000 |
| 1% Full stroke (ms) | 0.4 |
| Max. gain drift | <50 ppm/K |
| Max. zero-position drift | <15 urad/K |
| 8-hour continuous working drift | <0.3 mrad |
| Interface protocol | XY2-100 |
| Working offset angle | ±12.5° |
| Dynamic zoom system parameters | |
| System incident light spot | 7mm |
| Beam expansion ratio | 1.4 |
| Z axis zoom range | ±30mm |
| Optic parameters | |
| wavelength | 1064nm |
| Max. withstand power | 100W |
| Basic Parameters | |
| Laser Source | Raycus 100QB |
| Digital Galvo. | BJ JCZ 3D |
| F-theta focus lens | Quartz Field Lens |
| Control board | BJ JCZ 3D |
| Control system | BJ JCZ 3D |
| Working area size | 150x150mm |
| Power supply | ±15VDC, ≥5A |
Note: this parameter is based on a 150mm lens