Features of the Lathe Laser Machine for Cutting Metal Material
Its system has super computing power, a clear human-computer interaction interface and a powerful expert laser process database, making cutting program generation and debugging simple and convenient.
It has a compact structure, optimized layout, and occupies a very small area. Multiple equipment can be arranged according to the production workshop.
Green, environmentally friendly and safe design concept, fully enclosed machine tool cover, double grating protection, protective doors with interlocking protection, video monitoring machine tools to ensure human and machine safety.
Core Operational Advantages for Smart Factories
Expert Laser Process Database: The onboard CNC interface features massive processing libraries that automatically adapt gas pressures, focal positions, and laser power scaling based on material thickness, drastically simplifying program debugging for operators.
Minimized Footprint Design: Despite its high weight profile (≈ 20T), the compact structural layout utilizes a minimal shop floor footprint, permitting multi-device cluster arrangements inside optimized production cells.
Intelligent Fail-Safe Protection: Outfitted with a fully enclosed machine tool cover, dual grating light curtains, interlocking security doors, and high-definition video monitoring to safeguard personnel against industrial stray laser radiation.
Specifications of the Lathe Laser Machine for Cutting Metal Material
The main technical parameters
| product name | High-precision small metal 3D five-axis laser cutting machine |
| Main models | Soft mold trial production machine, automobile hot forming production line machine, inlet and outlet double station machine, special-shaped pipe fitting machine |
| X Axis travel | Standard: 3000 m, Optional 4000 mm ~6000 mm |
| Y Axis travel | Standard: 1500 mm, Optional 2000 mm ~ 2500 mm |
| Z Axis travel | Standard: 650 mm, Optional 750 mm~800mm |
| A Axis travel (swing axis) | ±125° |
| C Axis travel (rotation axis) | ±360° |
| Follower axis travel (floating axis) | ±13.5mm |
| X/Y/Z Maximum axis speed | 100/100/100m/min |
| X/Y/Z Axis comprehensive speed | 173m/min |
| A/C Maximum axis speed | 90r/min |
| X/Y/Z Axis maximum acceleration | 1.0G |
| A/C Axis maximum acceleration | 200rad/s2 |
| X/Y/Z Axis positioning accuracy | ±0.03mm |
| X/Y/Z Axis repeatability | ±0.02mm |
| A/C positioning accuracy | ±0.015° |
| A/C Axis repeatability | ±0.005° |
| Turntable load (one side) | 500KG |
| Turntable rotation radius | 4200mm |
| Fastest rotation time of turntable | 2.5s |
| Maximum laser power | 6000W |
| Power parameters | Three-phase 380 V/50Hz |
| Protection level | IP54 |
| Total Weight | standard: ≈20T |
| Floor space (length *Width *high) | Standard: 6600 *6400*3970mm, Optional 6600 *7100*3970mm,6750*5300*4300mm,8250*5300*4300mm |
Frequently Asked Questions (FAQ) for Sourcing Managers
What makes a 5-axis laser lathe machine better than a flatbed laser cutter?
A traditional flatbed fiber laser is restricted to 2D planar cutting (X and Y axes). A premium 5-axis laser cutting machine incorporates A-axis swing (±125℃) and C-axis rotation (±360℃). This spatial flexibility allows the laser beam to remain perfectly perpendicular to complex, contoured, or stamped metallic surfaces, making it an irreplaceable asset for trimming automotive hot-stamped parts and complex tubular structures.
Can this machine be integrated into an automated smart production environment?
Yes, seamlessly. The machine frame is engineered with unified structural tie-ins that sync perfectly with industrial robotic arms and automated manufacturing cells. For facilities running continuous fabrication lines, this machine can be positioned right alongside heavy-duty workshops featuring a high-performance MMA welding machine. This structural architecture enables continuous automated raw material feeding, precise 5-axis laser partitioning, and automated robotic part removal, accelerating total throughput for Tier-1 industrial manufacturers.
What thickness of steel can the 6000W fiber laser configuration process?
A 6,000W industrial configuration efficiently processes carbon steel up to 25 mm and stainless steel up to 20 mm with clean, dross-free edges. When cutting highly reflective or specialized materials like non-ferrous alloys, maintaining dynamic stability is crucial. If your downstream fabrication also involves advanced non-ferrous joining, you can review our technical parameters for high-spec aluminum copper welding wire. When combined with specialized gases (Oxygen or Nitrogen), the high dynamic response of the crossbeam maintains tight tolerances (±0.03mm) even at high feed rates.
Does Minghua provide matching heavy-duty consumables for post-cutting assembly?
Yes. After high-precision cutting is achieved via our laser machinery, downstream structural assembly often requires heavy-duty welding. Minghua manufactures an extensive industrial portfolio to complete your fabrication loop. We supply high-tensile alloy steel welding filler wire for extreme load-bearing joints, corrosion-resistant stainless steel flux cored welding wire for critical refinery infrastructure, and robust hardfacing products like our premium anti-wear tungsten carbide welding rod to prolong machine component lifespans in harsh environments. For detailed system customization, please contact our engineering group.
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