Description
CNC Fiber Laser 3in1 1500-20000W
CNC Fiber Laser Cutting System


Introducing the new Fiber Laser 1500W 3-in-1 model. Acquire advanced laser cutting capabilities without exceeding a million budget.
The FB16 CNC Fiber Laser is an intelligent laser system capable of cutting various metals, including steel, aluminum, copper, brass, stainless steel, silver, titanium, and more. It features a state-of-the-art, intelligent controller that optimizes cutting paths for maximum efficiency and speed, achieving traverse speeds up to 50m/min for reduced processing time and enhanced machine longevity.
Equipped with high-speed sensors and powerful servo motors (4 Japanese servo motors), this machine delivers rapid torque response and operates at 3,000 rpm. The CNC Fiber Laser boasts an impressive operational lifespan of up to 100,000 hours. Available power options range from 500W to 20000W to meet diverse production requirements.
Optional Upgrade: Automatic Material Feeder – Additional 150,000 THB
**3-in-1 Capability:**
1. Flat metal sheet cutting
2. Box section material cutting
3. Add-on Rotary attachment for tube cutting
Efficient cutting of sheet metal.

Cutting of box section and assembled high-profile steel components.

Optional rotary attachment for cutting round and square tubes!

New Generation Fiber Laser 1500W 3-in-1: Sheet Metal, Box Sections, and Rotary Cutting
Achieve exceptional cutting quality on sheet metal with the 1000W Fiber Laser.
Fiber Laser Cutting Head

- Latest Fiber Laser Head designed for continuous 24/7 operation.
- Integrated object detection sensors (for steel, brass, aluminum, etc.).
- Collision protection system for the cutting head.
- Additional Z-axis proximity sensor for enhanced safety.

- Easy manual adjustment of laser focus (some models may require a hex wrench).
- Integrated water cooling system connected to a chiller.
Machine Capability
- Maximum cutting speed: 40 meters/minute.
- Steel cutting capacity: up to 12 mm.
- Stainless steel cutting capacity: up to 5 mm.
- Aluminum cutting capacity: up to 3 mm.
- Working area: 1.5 x 3 meters.


- Highly stable machine construction ensures minimal vibration during high-speed operation.
- Produces exceptionally clean and precise cut edges.
- Standard power requirement: 3-phase 380V (220V configuration available upon request).
Cutting 2mm Steel at 24 meters/minute
Control Software

- Software Name: NC Editor
- User-friendly interface with high flexibility.
- Compatible Operating Systems: Windows 10, Windows 7.
- Supports design file formats: AI, AutoCad, SolidWork, CorelDraw, etc.
- Supported file extensions:
- G Code (*.g ; *.nc)
- DXF File (*.dxf)
- DWG File (*.dwg)
- PLT File (*.plt)
- ENG File (*.eng)
- Multi-language support: English, Japanese, Korean, Russian, Chinese.
- Integrated design tools and 3D design capabilities.
- Teaching mode for intuitive operation.
- Simulation feature for pre-cutting workpiece verification.
- Edge detection functionality.
Controller Quality

- Controller developed and researched by MIT faculty from the Massachusetts Institute of Technology, USA.
- Designed for high-temperature environments.
- Supports wireless control capabilities.
- Utilizes the latest advanced architecture.
- Internet connectivity for firmware updates.

X, Y, Z Drive System Components


- Servo Motor Drive (X, Y, Z): FUJI ELECTRIC ALPHA Smart series, Japan.
- Motors: Full Servo Motor configuration from Japan.
- Rack & Pinion (X, Y Axes): USA manufactured.
- Ball Screw (Z Axis): Germany manufactured.


Controller Placement for FB-16-1530 CNC Fiber Laser

- Controller is integrated into the front of the machine with a protective cover, optimizing space.
- Unlike machines with separate external controller cabinets, this design minimizes footprint, ideal for space-constrained environments.
- The controller operates reliably in high-temperature conditions.
- Built-in cooling system ensures optimal performance even at elevated temperatures.
- Advanced noise filtering protects against electromagnetic interference common in industrial settings.
- Enclosed controller unit with a lock for security and protection against contaminants.
- External grounding connection point.
Monitor

- Monitor includes 2 axes: A and B.
- Axis A: 360° rotation.
- Axis B: 180° rotation.
Fiber Laser Swing Monitor
- Mouse, Keyboard, and Monitor cables are shielded against external interference.
Wireless Remote Control

- Wireless control for the laser machine.
- Alternative to operating via the monitor interface.
- Uses a dedicated, encrypted signal for robust protection against external interference.
Machine Structure

- Constructed from high-quality steel for superior rigidity and resistance to deformation.
- Machine weight exceeds 4.5 tons, contributing to exceptional stability during operation.

- Integrated fume extraction system for enclosed environments.

- Includes workpiece loading assistance.

Cut Material Specifications (Maximum Thickness in mm)


Machine Specification Overview

Actual machine dimensions: 4.7 x 2.3 x 1.5 meters for FB16-1530 model.
Sample Workpieces











Initial Setup of 1000W Fiber Laser Machine
Drawing and Cutting Steel Demonstration
Watch Cutting Clock Parts with FB16-1530 1000W CNC Fiber Laser
Workpieces Produced by FB16-1530 1000W CNC Fiber Laser for All Metal Types
Cutting Small Circles for Part Integration with FB1630 CNC Fiber Laser

- Power Consumption: Fiber laser technology offers significantly lower energy consumption compared to plasma. A 1000W laser system operating at 380V consumes approximately 2.6A, whereas plasma cutters can draw upwards of 60A or 100A at the same voltage. This translates to substantial electricity cost savings, potentially reducing monthly bills by a factor of 38.
- Consumables: Plasma cutting requires frequent replacement of tips. A single fiber laser cutting head can process a large volume of metal sheets, drastically reducing consumable costs and downtime associated with setup and replacement.
- Cutting Speed: Fiber lasers offer superior cutting speeds, often achieving up to 10 times faster processing than plasma. The low center of gravity and compact gantry design of fiber laser machines allow for high-speed, stable movements, unlike taller, heavier plasma machines that are limited by their structure.
- Beam Quality and Stability: Fiber lasers possess superior beam quality, characterized by lower radiation compared to plasma. This results in less interference with other electronic equipment and enhanced operational stability.
| Power (W) | Steel (mm) | Stainless Steel (mm) | Aluminum (mm) | Copper (mm) |
| 500 | 4 | 4 | 2 | 2 |
| 1,000 | 12 | 6 | 3 | 3 |
| 2,000 | 20 | 10 | 8 | 8 |
| 3,000 | 25 | 12 | 8 | 8 |
| 4,000 | 25 | 14 | 10 | 10 |
| 6,000 | 25 | 20 | 16 | 16 |
| 8,000 | 25 | 25 | 18 | 18 |
| 10,000 | 40 | 40 | 20 | 20 |
| 12,000 | 45 | 50 | 22 | 22 |
| 15,000 | 50 | 70 | 25 | 25 |
| 20,000 | 70 | 110 | 65 | 35 |
| Unit: mm |
Laser Cutting Machine vs. Hydraulic Cutting Machine
Laser Cutting Machine:
Principle of Operation: Utilizes a highly concentrated laser beam to generate thermal energy for precise material cutting. Capable of intricate and fine cuts.
Advantages:
- Cuts a wide range of materials (metals, plastics, wood, glass).
- High precision for complex geometries.
- Minimal kerf width and smooth cut edges, reducing material damage.
- Reduced risk of material warping due to localized heat application.
Disadvantages:
- High initial investment and maintenance costs.
- Requires significant electrical power.
- Limitations in cutting extremely thick materials.
Hydraulic Cutting Machine:
Principle of Operation: Employs hydraulic power to generate pressure for material cutting, typically using blades or pressing force.
Advantages:
- Effective for cutting thick materials.
- Robust and suitable for high-force cutting applications.
- Can be more energy-efficient than laser cutters in certain scenarios.
Disadvantages:
- Lower precision compared to laser cutters.
- Cut edges may be rough and exhibit burrs.
- Limited capability for intricate shapes.
- Potential for material distortion due to high pressing force.
Conclusion:
Laser cutting machines are ideal for applications demanding high precision and complex designs. Hydraulic cutting machines are better suited for cutting thick materials where high force is required. The optimal choice depends on the specific application, material, budget, and technical requirements.
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