The laser of the fiber laser can be transmitted through the optical fiber, which is convenient to connect with the motion platform and realize flexible processing, which greatly simplifies the system design of the traditional laser cutting machine, improves the stability of the system,
reduces the amount of maintenance, and is really suitable for the field of industrial processing. Applications. I
t has better cutting quality, lower system cost, longer service life, lower maintenance cost, and lower power consumption. The designed body can be more ergonomic and easy to operate.
1) Excellent beam quality: smaller focus spot, finer cutting lines, higher work efficiency and better processing quality;
2) Extremely high cutting speed: twice that of the same power CO2 laser cutting machine;
3) Extremely high stability: It adopts the world's top imported fiber laser with stable performance.
4) High electro-optical conversion efficiency, energy saving and environmental protection;
5) Very low cost of use: the power consumption of the whole machine is lower than that of CO2, which saves production costs
6) Extremely low maintenance costs: no laser working gas; optical fiber transmission, no need for reflective lenses; a lot of maintenance costs can be saved;
7) The product is easy to operate and maintain: optical fiber transmission, no need to adjust the optical path;
8) Super flexible light guide effect: small size, compact structure, easy to meet flexible processing requirements. The fiber laser cutting machine is uniquely designed with German technology, and the special inner cavity ensures stable operation of the system and constant and long-lasting power. The cutting gap is uniform, and the light calibration and maintenance are convenient. The closed optical path guides light to ensure the cleanliness and service life of the lens.
Before cutting materials, the steps to start the laser cutting machine are as follows:
1. Strictly follow the regulations, follow the principle of start and stop, open the machine, and do not forcibly close or open;
2. Turn on the air switch, emergency stop switch, and key switch (see if there is an alarm display for the temperature of the water tank);
3. Turn on the computer, and turn on the start button after the computer is fully started;
4. Turn on the motor in sequence, enable, follow, laser, and red light buttons;
5. Start the machine and import CAD drawings;
6. Adjust the initial processing speed, tracking delay and other parameters;
7. Adjust the focus and center of the laser cutting machine.
When starting to cut, the laser cutter operates as follows:
1. Fix the cutting material, and fix the material to be cut on the workbench of the laser cutting machine;
2. According to the material and thickness of the metal plate, adjust the equipment parameters accordingly;
3. Select the appropriate lens and nozzle, check its integrity and cleanliness before starting the inspection;
4. Adjust the focal length and adjust the cutting head to a suitable focus position;
5. Check and adjust the nozzle center;
6. Calibration of cutting head sensor;
7. Select the appropriate cutting gas and check whether its spraying state is good;
8. Attempt to cut the material. After the material is cut, check whether the cutting end face is smooth, and check the cutting accuracy. If there is an error, adjust the equipment parameters accordingly until the proofing meets the requirements;
9. Carry out workpiece drawing programming and corresponding typesetting, and import the equipment cutting system;
10. Adjust the position of the cutting head and start cutting;
11. During the operation, there must be staff present to observe the cutting situation carefully. If there is an emergency that requires quick response, press the emergency stop button;
12. Check the cutting quality and precision of the first sample.
Cutting Ability-(for reference only, the real cutting speed depends on the material and gas)
1500W | |||
Material | Thickness(mm) | Speed: m/min | Gas |
SS | 1 | 45.6 | N2 |
SS | 1.8 | 19.2 | N2 |
SS | 2.8 | 4.8 | N2 |
SS | 4.6 | 1.8 | N2 |
SS | 6 | 0.9 | N2 |
SS | 7.5 | 0.3 | N2 |
CS | 1.5 | 19.2 | O2 |
CS | 2 | 8.4 | O2 |
CS | 3 | 4.8 | O2 |
CS | 4.7 | 2.1 | O2 |
CS | 5.7 | 2 | O2 |
CS | 7.8 | 1.5 | O2 |
CS | 9.7 | 1.32 | O2 |
CS | 13.8 | 0.72 | O2 |
CS | 16 | 0.7 | O2 |
Al | 2 | 7.8 | N2 |
Al | 3 | 5.7 | N2 |
Al | 5 | 0.78 | N2 |
Al | 6 | 0.54 | N2 |
Brass | 1 | 33.6 | N2 |
Brass | 3 | 2.7 | N2 |
Brass | 5 | 0.78 | N2 |