Side nozzle, laser welding machine, and laser welding method

1 . A side nozzle comprising: a head attachment attached to a welding head of a laser welding machine and including an opening through which a laser beam emitted from the welding head for irradiation to a weld position passes; and a gas blow nozzle attached to a side of the head attachment and configured to blow shielding gas to the weld position, wherein the gas blow nozzle includes a main nozzle that is disposed closer to the head attachment and is supplied with the shielding gas by a first gas pipe, and a sub-nozzle that is disposed so as to be adjacent to the main nozzle and farther away from the head attachment than the main nozzle and is supplied with the shielding gas by a second gas pipe, and the sub-nozzle is removable from the main nozzle. 2 . The side nozzle according to claim 1 , wherein the main nozzle is made of copper, and the sub-nozzle is made of aluminum or an aluminum alloy. 3 . The side nozzle according to claim 1 , wherein the main nozzle includes a main conduit including a through hole formed in a metal columnar body, the sub-nozzle includes first and second sub-conduits including two through holes formed in a metal plate-shaped body, each of the main conduit and the first and second sub-conduits includes a straight portion formed closer to a first end at which the shielding gas is injected, an inclined straight portion formed closer to a second end from which the shielding gas is blown, the inclined straight portion being inclined to approach the weld position, and a bend that is a boundary between the straight portion and the inclined straight portion at which a traveling direction of the shielding gas is bent, the bend is formed close to the first end relative to a center between the first end and the second end, and no bend is formed in the inclined straight portion. 4 . The side nozzle according to claim 3 , wherein each of the straight portions of the main conduit and the first and second sub-conduits is mounted with a rectifying member made of a porous metal material and configured to rectify the shielding gas. 5 . A laser welding machine comprising: a laser oscillator; a welding head to which a laser beam emitted from the laser oscillator is supplied; and a side nozzle attached to the welding head, wherein the side nozzle includes a head attachment attached to the welding head and including an opening through which the laser beam emitted from the welding head for irradiation to a weld position passes, and a gas blow nozzle attached to a side of the head attachment and configured to blow shielding gas to the weld position, the gas blow nozzle includes a main nozzle that is disposed closer to the head attachment and is supplied with the shielding gas by a first gas pipe, and a sub-nozzle that is disposed so as to be adjacent to the main nozzle and farther away from the head attachment than the main nozzle and is supplied with the shielding gas by a second gas pipe, and the sub-nozzle is removable from the main nozzle. 6 . A laser welding method comprising: supplying a laser beam emitted from a laser oscillator to a welding head; irradiating a weld position with the laser beam supplied to the welding head via a head attachment that is provided in a side nozzle and attached to the welding head and includes an opening through which the laser beam passes; blowing, at a time of welding a weld position on a mountain portion on an outside of a product, shielding gas from a main nozzle and a sub-nozzle to the weld position with a gas blow nozzle that is attached to a side of the head attachment in a state where the main nozzle and the sub-nozzle are integrated, the main nozzle being disposed closer to the head attachment and being supplied with the shielding gas by a first gas pipe, the sub-nozzle being disposed so as to be adjacent to the main nozzle and farther away from the head attachment than the main nozzle and being supplied with the shielding gas by a second gas pipe; and blowing, at a time of welding a weld position on a valley portion on an inside of the product, the shielding gas from the main nozzle to the weld position with the gas blow nozzle in a state where the sub-nozzle is separated from the main nozzle and only the main nozzle is provided. 7 . The laser welding method according to claim 6 , wherein the shielding gas is rectified by a rectifying member made of a porous metal material at each of ends of the main nozzle and the sub-nozzle at which the shielding gas is injected.