Laser machining method

The invention claimed is: 1. A laser machining method comprising: providing a laser machining apparatus that includes: a head having an optical outlet from which laser light is output; an optical cable attached to the head; a nozzle attached to the head to direct a material supplied to a target; and a moving mechanism having a driving portion, a first mechanism and a second mechanism, the first mechanism being configured to allow the head to move in a curved manner in at least a two-dimensional plane, the second mechanism having a rotational axis and a cavity unit that has a body having a cavity provided along at least the rotational axis, wherein a tilting mechanism is arranged between the cavity unit and the head, the tilting mechanism is attached to the cavity unit and is configured to change an angle of the head with respect to the rotational axis; and controlling the moving mechanism of the laser machining apparatus by: moving the head in a curved manner in at least a two-dimensional plane; and rotating, all together, the head, the nozzle and the tilting mechanism 360° or more around the rotational axis in a state in which the optical cable and the material are inserted through the cavity of the cavity unit. 2. The laser machining method according to claim 1 , wherein the moving mechanism is controlled so that a location of at least one of the optical outlet of the head and a distal end of the nozzle is upheld in front of a machining position while the head moves in the curved manner in at least the two-dimensional plane. 3. The laser machining method according to claim 1 , wherein the moving mechanism is controlled so that an irradiation direction of the laser light is in a tangential direction of a curved line of a curved machining target. 4. A method for manufacturing a bearing, the method comprising: arranging a roller between an inner ring and an outer ring; and joining a plate member and an end portion of a pin, which is inserted into the roller, by using the laser machining method according to claim 1 . 5. A laser machining method comprising: providing a laser machining apparatus that includes: a head having an optical outlet from which laser light is output; an optical cable attached to the head; a nozzle attached to the head to direct a material supplied to a target; and a moving mechanism having a driving portion, a first guiding mechanism and a second guiding mechanism, the first guiding mechanism being configured to allow the head to move in a curved manner in at least a two-dimensional plane, the second guiding mechanism having a rotational axis and a cavity unit that has a body having a cavity provided along at least the rotational axis, wherein a tilting mechanism is arranged between the cavity unit and the head, the tilting mechanism is attached to the cavity unit and is configured to change an angle of the head with respect to the rotational axis; and controlling the moving mechanism of the laser machining apparatus by: moving the head in a curved manner in at least a two-dimensional plane; and rotating, all together, the head, the nozzle and the tilting mechanism 360° or more around the rotational axis in a state in which the optical cable and the material are inserted through the cavity of the cavity unit. 6. The laser machining method according to claim 5 , wherein the moving mechanism is controlled so that a location of at least one of the optical outlet of the head and a distal end of the nozzle is upheld in front of a machining position while the head moves in the curved manner in at least the two-dimensional plane. 7. The laser machining method according to claim 5 , wherein the moving mechanism is controlled so that an irradiation direction of the laser light is in a tangential direction of a curved line of a curved machining target. 8. A method for manufacturing a bearing, the method comprising: arranging a roller between an inner ring and an outer ring; and joining a plate member and an end portion of a pin, which is inserted into the roller, by using the laser machining method according to claim 5 .