Laser welding apparatus and laser welding method

What is claimed is: 1. A laser welding apparatus adapted to weld a crimp portion of each of a plurality of crimp terminals of a chained terminal by laser light irradiation, the chained terminal including the plurality of crimp terminals supported by a carrier portion at regular intervals, the crimp portion being of a bent plate material and having a butted interface and a lapped portion, at least a portion of the crimp portion being of a tubular shape, the butted interface including first and second ends of the bent plate material adjacent and opposite to each other, the lapped portion having a first portion of the plate material and a second portion of the plate material overlapping each other, the laser welding apparatus comprising: a measuring device adapted to measure a first gap and a second gap, the first gap being a distance from the first end to the second end, the second gap being a distance from the first portion of the plate material to the second portion of the plate material; a holding mechanism adapted to hold the crimp portion of one of the plurality of crimp terminals; an X- and Y-axis scanner adapted to scan laser light outputted from a laser light source in an X-axis direction and a Y-axis direction, the X-axis direction being orthogonal to the Y-axis direction; a scanner control device adapted to control driving of the X- and Y-axis scanner based on the measured first and second gaps when the butted interface and the lapped portion are being welded via laser light irradiation; a welding device adapted to weld, via laser light irradiation, the crimp portion held by the holding mechanism; and a conveying device adapted to convey the chained terminal at a constant pitch corresponding to intervals at which the plurality of crimp terminals are arranged. 2. The laser welding apparatus according to claim 1 , wherein the measuring device is adapted to measure the first and second gaps by irradiating light onto the butted interface and the lapped portion, respectively, and detecting light leaking through the first and second gaps. 3. The laser welding apparatus according to claim 1 , wherein the holding mechanism has a pair of clamp jigs adapted to sandwich the crimp portion, and one of the clamp jigs has a slit formed therein, the slit being adapted to enable laser light to pass therethrough and irradiate the butted interface of the crimp portion. 4. The laser welding apparatus according to claim 1 , wherein the scanner control device is adapted to control driving of the X- and Y-axis scanner based on measurement results of the first and second gaps. 5. The laser welding apparatus according to claim 1 , wherein the measuring device is adapted to issue an alert indicating that a welding defect has occurred when at least one of the first and second gaps exceeds a predetermined limit. 6. A method of laser welding a crimp portion of each of a plurality of crimp terminals of chained terminal by laser light irradiation, the chained terminal including the plurality of crimp terminals supported by a carrier portion at regular intervals, the crimp portion being of a bent plate material and having a butted interface and a lapped portion, at least a portion of the crimp portion being of a tubular shape, the butted interface including first and second ends of the plate material adjacent and opposite to each other, the lapped portion having a first portion of the plate material and a second portion of the plate material overlapping each other, the laser welding method comprising: measuring a first gap and a second gap, the first gap being a distance from the first end to the second end, the second gap being a distance from the first portion of the plate material to the second portion of the plate material; holding one of the plurality of crimp terminals; driving, with a scanner control device, an X- and Y-axis scanner based on the measured first and second gaps while irradiating the butted interface and the lapped portion of the crimp terminal so as to weld the butted interface and the lapped portion of the crimp terminal via laser light irradiation, the X- and Y-axis scanner scanning laser light outputted from a laser light source in a two dimensional plane in an X-axis direction and a Y-axis direction, the X-axis direction being orthogonal to the Y-axis direction; performing welding via laser light irradiation while the crimp terminal is being held by the holding mechanism; and conveying the chained terminal at a constant pitch corresponding to intervals at which the crimp terminals are arranged. 7. The laser welding apparatus according to claim 3 , wherein one of the pair of clamps has a pair of inclined contact surfaces and the other clamp has a substantially flat contact surface, the pair of clamps being adapted such that the pair of clamps contacts the crimp portion at three contact points while sandwiching the crimp portion. 8. The laser welding apparatus according to claim 1 , wherein: the butted interface includes two straight portions and a curved portion between the straight portions; the measuring device is further adapted to measure sizes of the straight portions and the curved portion; and the welding device is further adapted to carry out laser irradiation based on data of measured sizes. 9. The laser welding apparatus according to claim 1 , wherein the lapped portion is welded at a position at a predetermined distance from the lowest point of the curved portion so that a scan line for the lapped portion crosses a scan line for the butted interface. 10. The laser welding apparatus according to claim 1 , wherein the curved portion is inclined with respect to the straight portions. 11. The laser welding apparatus according to claim 1 , further comprising a Z-axis scanner, wherein the scanner control device is adapted to further control driving of the Z-axis scanner when the butted interface and the lapped portion are being welded via laser light irradiation.