Machine foto
Product Parameters
| Parameter |
Value |
| Model |
ITE-LC-1000W/1500W/2000W/3000W |
| Laser Type |
Continuous Fiber Laser |
| Rated Output Power |
1000W/1500W/2000W/3000W |
| Power Adjustment Range |
0%~100% |
| Laser Center Wavelength |
1080±5nm |
| Output Mode |
Continuous |
| Modulation Frequency |
50-5KHZ |
| Power Instability |
±1.5% |
| Fiber Output Interface |
QBH |
| Indication System |
Red Light |
| Fiber Length |
15m |
| Cleaning Gun Cable Length |
15m |
| Cleaning Gun Type |
Left and Right Swing Mirror Welding Head |
| Collimation Focus Distance |
60mm |
| Focusing Focus Distance |
400mm/800mm |
| Cleaning Width |
0-300mm |
| Cleaning Gun Weight |
0.8kg |
| Protection Gas Mode |
Coaxial Protection |
| Focal Distance |
400mm/800mm±10mm |
| Water Flow |
2L/min+18L/min |
| Product Structure |
Split-type |
| Product Dimensions |
1085*600mm*1150mm |
| Product Weight |
200kg |
| Operating Temperature |
-10ºC~40ºC |
| Operating Humidity |
<70% |
| Operating Voltage |
Three-phase Five-wire 380VAC,as resquest |
| Total Power |
<13kw |
Main Technical Parameters
| Main Component |
Brief Description |
| Laser |
Continuous fiber laser. Center wavelength 1080±5nm |
| Transmission Fiber |
10m flexible fiber with QBH interface |
| Swing Cleaning Head |
Super lightweight and compact, with left and right swing spot |
| Control System |
Chinese and English operation interface, touchscreen control |
| Enclosure |
Integrated design, with universal walking casters |
| Chiller |
Special chiller for fiber laser |
how to choose a suitable power of a laser cleaning machine
Choosing the suitable power of a laser cleaning machine depends on several factors and considerations. Here are some key points to keep in mind when selecting the power of a laser cleaning machine:
1,Cleaning Application: Consider the specific cleaning application you intend to use the laser cleaning machine for. Different materials, surfaces, and contaminants may require different power levels for optimal cleaning. For example, removing heavy rust or thick coatings may require higher power compared to cleaning delicate electronic components.
2,Surface Sensitivity: Evaluate the sensitivity of the surface being cleaned. Some materials or surfaces may be more sensitive to heat or energy, requiring lower power levels to avoid damage. Delicate surfaces may need precise control over power and intensity settings.
3,Cleaning Speed: Determine the desired cleaning speed for your application. Higher power laser cleaning machines can typically achieve faster cleaning speeds. If time is a critical factor, choosing a higher power machine may be beneficial.
4,Budget and Cost Considerations: The power of a laser cleaning machine can affect its cost. Higher power machines often come at a higher price point. Evaluate your budget and cost constraints while considering the necessary power for your cleaning requirements.
5,Versatility and Future Needs: Consider the versatility of the laser cleaning machine. If you anticipate the need for cleaning different types of surfaces or expanding your cleaning applications in the future, it may be advantageous to select a laser cleaning machine with adjustable power settings or the ability to upgrade power levels.
6,Consult with Experts: Seek advice from laser cleaning machine manufacturers, distributors, or industry experts who can provide guidance based on your specific cleaning needs. They can help assess the appropriate power requirements and recommend suitable machines for your application.
It's important to note that the power alone is not the sole determining factor for effective cleaning. Other factors such as beam quality, pulse duration, spot size, and control options also play a significant role in achieving optimal cleaning results. Therefore, it's essential to consider a holistic approach and consult with experts to ensure the laser cleaning machine meets your specific cleaning requirements.
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