Audited Supplier
GY 1530-3KW
24 Hours
12 M
Home Appliance, Petroleum Machinery Manufacturing, Aerospace Industry, Automotive Industry, Advertising Industry
Water Cooling
Continuous Wave Laser
Metal
Desktop
Semiconductor Laser
Laser Control Fault Cutting
3000*1500
3kw
Chinese Brand
Standard Packing
Different models
Made in China
Product Description
| NO. | Name | Para. | Unit |
| Processing countertop and working area | |||
| 1 | Cutting range(LxW) | 3000×1500 | mm |
| 2 | X axis stroke | 3040 | mm |
| 3 | Y Axis stroke | 1520 | mm |
| 4 | Z Axis stroke | 240 | mm |
| Speed | |||
| 5 | X-Y Max trajectory Speed | 140 | m/min |
| 6 | X / Y Acceleration | 1.5 | G |
| 7 | Z height control | CNC/other | |
| Accuracy | |||
| 8 | Positioning accuracy | ±0.03 | mm |
| 9 | Repetitive positioning accuracy | ±0.02 | mm |
| Power required | |||
| 10 | Voltage | 380 | V |
| 11 | Phase | 3 | |
| 12 | HZ | 50 | Hz |
| Laser | |||
| 13 | Center radiation wavelength | 1070-1080 | nm |
| 14 | Transmission fiber diameter | ≥50 | μm |
| 15 | Laser power | 3000 | w |
| Size and weigth | |||
| 16 | Max weight of working table | 900 | kg |
| 17 | Total weight | 7000 | kg |
| 18 | Machine used area(L×W×H) | 9000×4800×2200 | mm |
Developed technology
- CNC control technology
The latest closed-loop servo control algorithm greatly improves the response speed and servo accuracy;
Control the number of axes 3+1 (X1, X2, Y, Z axes)
Power control function.
The action of the machine tool is controlled by the upper interface and operation panel.
Power control function.
Absolute and relative coordinates.
Machine tool idle running function
- HMI Control Tech.
- Supporting multitasking and multi-station production scheduling and processing
- Support for starting processing function at any point
- Integrated monitoring software monitoring function for more effective problem-solving
- Professional process database management
- Support the generation of processing report forms and production layout reports
- The latest embedded CAM software, with more powerful and convenient functions
- Frame
- The gantry steel structure is welded to the bed, and a large tempering furnace is used for overall annealing to eliminate internal stress. It has good rigidity and is stable without deformation.
- The machine tool adopts an integral welding form, which is processed and formed in one go by a high-precision gantry machining center imported from Europe. It does not require a foundation to ensure long-term stable operation of the equipment and shorten the debugging cycle;
- Overall annealing and stress relief treatment for welded bed, with rack surface deformation ≤ 25 μ M.
- Unique mechanical design - crossbeam
Adopting steel structure laser welding beam, vibration aging treatment and precision processing to ensure the strength, rigidity and stability of the beam;
The crossbeam is equipped with an organ type protective cover, ensuring that the rack and linear guide rail operate in a closed environment and are not affected by the external environment.
- Exchange Workbench
The APC consists of an exchange device and two movable cutting workbenches: the exchange device is fixed on both sides behind the bed, and the workbench
The exchange speed is fast, and the work area and exchange area are automatically positioned to ensure repeated processing accuracy.
- Z Axis
The signal is fed back to the control system, and then the Z-axis motor is controlled by the control system to drive the cutting head up and down, thereby controlling the distance between the cutting nozzle and the plate to remain unchanged, effectively ensuring cutting quality.
The Z-axis adopts high-precision PMI (ball screw) transmission; Linear guide rail guidance, smooth operation and fast response.
Fiber laser
Max fiber laser has high conversion efficiency between electricity and light, with a conversion efficiency of over 32%. The medium power fiber laser adopts water cooling, which can greatly save power consumption during operation, save operating costs, and achieve the highest production efficiency;
When the laser operates, it only requires electrical energy and does not require the generation of additional gas from the laser, with the lowest operating and maintenance costs;
The fiber laser adopts semiconductor modular and redundant design, with no optical lenses in the resonant cavity and no need for startup time. It has the advantages of no adjustment, no maintenance, and high stability, reducing accessory costs and maintenance time, which is incomparable to traditional lasers;
The output wavelength of the fiber laser is 1.07 micrometers, which is 1/10 of the CO2 wavelength. The output beam has good quality, high power density, and is conducive to the absorption of metal materials. It has excellent cutting ability, thus minimizing the processing cost;
The entire machine is transmitted through fiber optic transmission, without the need for complex light guide systems such as mirrors. The optical path is simple, the structure is stable, and the external optical path is maintenance free
☆ The appearance of the laser shall be based on the actual image
- Air and water systems
The gas path system of the fiber laser cutting machine consists of two parts, one of which is the cutting gas provided to the cutting head, with clean and dry compression
Air, oxygen, and nitrogen. The other part is auxiliary gas, which is clean and dry compressed air.
High pressure nitrogen enters the cutting head directly through a high-pressure solenoid valve controlled by a high-pressure pipeline, and is equipped with a manually adjustable high-pressure pressure reducing valve. When cutting different plate thicknesses, the nitrogen pressure can be adjusted to save nitrogen consumption
There is not a high requirement for the cutting section, and high-pressure air can be used for cutting. The pipeline is shared with high-pressure nitrogen, and a three-way ball valve is used for switching, which is convenient and fast, and can save the cost of cutting auxiliary gas consumption
The waterway system consists of two parts: one part is the cooling water that comes out of the chiller and enters the laser. After cooling the laser through the internal heat sink of the laser, it returns to the chiller. This part belongs to the low-temperature part; After a portion of the cooling water comes out of the chiller, it enters the QBH through the laser and returns to the chiller.
Cutting head
θ Cutting head and follow-up part
Adopting a fiber optic dedicated laser cutting head, the performance is stable and reliable, ensuring the best cutting quality while achieving a high cutting speed.
The standard 5-inch focal length lens can be used for cutting plates of different thicknesses, eliminating the hassle of replacing different focusing lenses.
One click start, automatic calibration, non-contact capacitive sensor, ensuring stable cutting follow-up gap. Even if the surface of the board is not flat enough, it can achieve good cutting results.
By using sensors on the cutting head, the edge of the sheet is automatically and quickly found, its vertex position and angle are detected, and the cutting program is automatically adjusted and corrected based on the actual measured position, saving operation time and reducing labor intensity.
After the cutting is completed, the cutting nozzle is automatically cleaned, extending the service life of the cutting nozzle and improving the processing quality
Programming software
- Embedded programming software (included in the system)
- The perfect combination of online programming and HMI human-machine interaction interface provides users with a green and friendly programming environment, achieving ultra fast programming and improving programming efficiency;
- Support graphic import in DWG and DXF formats, with commonly used drawing functions;
- Capable of quickly setting up processes such as lead-in, slot compensation, micro connection, yin and yang cutting, and over cutting;
- Automatically distinguish the inner and outer contours, and determine the direction of cutting compensation based on the inner and outer contours, and conduct lead inspection.
