LASER CUTTING METHOD AND LASER CUTTING DEVICE

摘要

A laser cutting device includes a control unit which sets a steady oxygen concentration, a moving speed of a laser nozzle and laser beam steady control conditions based on a material and a plate thickness of the workpiece, decreases the moving speed of the laser nozzle to a first setting speed when the laser nozzle arrives a first setting position in front of an end point of a cutting trajectory, and decreases a relative moving speed of the laser nozzle to a second setting speed by varying the oxygen concentration of the cutting gas and the control condition of the laser beam when the laser nozzle arrives at a second setting position.

主权项

1. A laser cutting method of injecting a cutting gas while radiating a laser beam from a laser nozzle with respect to a workpiece, and moving the laser nozzle and the workpiece in relation to each other to cut the workpiece in a state in which an area of the workpiece irradiated with the laser beam is covered with the cutting gas, the laser cutting method comprising:
based on a material and a plate thickness of the workpiece, setting a steady oxygen concentration contained in the cutting gas when steady cutting is performed with respect to the workpiece, a steady relative moving speed of the workpiece and the laser nozzle when the steady cutting is performed with respect to the workpiece, and laser beam steady control conditions when the steady cutting is performed with respect to the workpiece based on laser beam control conditions including a frequency, a duty, and a peak or average output of the laser beam; when the laser nozzle arrives at a first setting position located in front of an end point of a cutting trajectory or a corner section, decreasing a relative moving speed of the workpiece and the laser nozzle to a first setting speed which is less than the steady relative moving speed; and when the laser nozzle arrives at a second setting position which is closer to the end point or the corner section than the first setting position, decreasing heat input to the workpiece by varying at least one of the oxygen concentration of the cutting gas and the control condition of the laser beam, and decreasing the relative moving speed of the workpiece and the laser nozzle to a second setting speed, which is less than the first setting speed, corresponding to the heat input to the workpiece.