EN
Stand-alone Offline Fiber Laser Cutter for PCB Substrates & Various Metal Materials CT-MiniC2
As a flexible stand-alone processing solution, this offline fiber laser cutter performs high-quality cutting on PCB aluminum substrates, copper substrates, silicon steel, alloy steel, stainless steel, carbon steel and aluminum alloy. It supports flexible deployment, simple operation and precise positioning, ideal for sample making, small-batch processing and multi-variety variable production scenarios.
- Overview
- Recommended Products
As a flexible stand-alone processing solution, this offline fiber laser cutter performs high-quality cutting on PCB aluminum substrates, copper substrates, silicon steel, alloy steel, stainless steel, carbon steel and aluminum alloy. It supports flexible deployment, simple operation and precise positioning, ideal for sample making, small-batch processing and multi-variety variable production scenarios.
Product Parameters
Model |
CT-MiniC2 |
Product Name |
Off-line Fiber Laser Cutting Machine |
Laser Type |
Fiber Laser |
Laser Power |
≥1500W (Optional) |
Flat Processing Area |
1200×550mm |
Max. Processable Material Thickness |
≤2mm |
Operation Mode |
Manual loading and unloading (upgradable to in-line cutting) |
Laser Cooling Method |
Water Cooling |
Platform Structure |
Marble + Linear Motor |
Cutting Head |
2D/3D Cutting Head Optional |
Positioning Accuracy |
±3μm |
Repeat Positioning Accuracy |
±1.5μm |
Cutting Product Accuracy |
±0.05mm |
X/Y Resolution |
0.2μm |
Max. X/Y Axis Speed |
1000mm/s |
Max. X/Y Acceleration |
1.5G |
Air Source (Dry Filtered Air) |
0.5–0.6MPa |
High-Pressure Air Source (Dry Filtered Air) |
1.2–1.5MPa |
Working Height |
900±30mm |
CCD Resolution |
5 Megapixels |
Industrial Dust Collection System |
Standard |
Cutting System |
SMIDA |
File Format |
DXF Format |
Operating Environment |
Temperature: 25℃±2℃, Humidity: ≤60%RH |
MES System Connection |
Reserved Interface, Customizable Data Collection (Optional) |
Barcode Scanning |
Optional |
Main Unit Power Supply |
AC 220V, 50Hz |
Dust Collection System Power Supply |
AC 380V, 50Hz |
Main Unit Power |
7kW |
Dust Collection System Power |
3kW |
Main Unit Dimensions |
L2360×W1560×H1865mm |
Dust Collection System Dimensions |
L950×W950×H1760mm |
Main Unit Weight |
2700kg |
Dust Collection System Weight |
370kg |
Product Advantages
Independent offline working mode, flexible layout and installation, no need to connect with assembly lines.
Efficient fiber laser technology, ensuring stable cutting quality and high dimensional accuracy for various metals.
Full coverage of applicable materials, compatible with PCB metal substrates and common industrial metal sheets.
Compact and reasonable structure, small footprint, saving workshop space and easy to relocate.
Simple human-computer interaction interface, low learning cost, suitable for small-batch and proofing processing.
Low heat impact and non-contact processing, effectively protecting thin metal sheets and precision substrates from damage.
Low energy consumption and low maintenance cost, providing reliable and economical processing for diversified production.
Product Application
Aluminum Substrate, Copper Substrate, Aluminum Alloy, Stainless Steel, Carbon Steel, Alloy Steel, Silicon Steel
FAQ
1.Q: Does this fiber laser machine ensure good precision and edge finish for PCB substrates and thin metals?
A: Adopting low-heat fiber laser technology, it provides non-damaging cutting with clean, burr-free edges. It avoids thermal deformation and damage, fully satisfying high-standard processing requirements.
2.Q: Is this equipment applicable for stable cutting of diverse metals including reflective materials?
A: Absolutely. It supports efficient and stable cutting for aluminum/copper substrates, alloy steel, stainless steel, carbon steel and silicon steel. Professional laser configuration guarantees stable performance on reflective metals.
3.Q: What are the operating cost and service life of this fiber laser cutter?
A: The laser source features long service life and high stability. With no wearing parts, daily consumable cost is very low. Simple routine maintenance enables long-hour continuous industrial use.
