Welding equipment for metallic materials and method for welding metallic materials

What is claimed is: 1. A method for spot-welding metallic materials by sandwiching the metallic materials with respective tips of a pair of electrodes opposing to each other and energizing the metallic materials, wherein: a spot-welding power source is connected to the pair of electrodes for supplying a spot-welding power to the pair of electrodes to heat and spot-weld a prescribed region of the metallic materials sandwiched by the tips of the pair of electrodes, the spot-welding power being either AC electric power having a first frequency or DC electric power, and a high-frequency power source is connected to the pair of electrodes for supplying AC electric power having a second frequency to the pair of electrodes to heat a region of the metallic materials different from the prescribed region, the method comprising: a first step for heating and spot-welding the prescribed region of the metallic materials sandwiched by the tips of the pair of electrodes by a first energization applying, via said spot-welding power source, the AC electric power having the first frequency or the DC electric power to the pair of electrodes; and a second step for heating said region different from the prescribed region in the first step by a second energization applying, via the high-frequency power source, the AC electric power having the second frequency to the pair of electrodes that are maintained at the same position as in the first step, wherein the spot-welding power source and the high-frequency power source are respectively connected to the pair of electrodes in parallel, wherein the first frequency is lower than the second frequency, and wherein the heating time in the first step and that in the second step are independently controlled. 2. The spot-welding method for metallic materials according to claim 1 , wherein the inside of the prescribed region of the metallic materials is heated by the AC electric power having the first frequency or the DC electric power, a proximity of the prescribed region of the metallic materials is heated by the AC electric power having the second frequency, and the heating by the spot-welding power source in the first step and that by the high-frequency power source in the second step are independently controlled. 3. The spot-welding method for metallic materials according to claim 2 , wherein the prescribed region heated by the AC electric power having the first frequency or the DC electric power is an internal area of a circle defined by projecting contacting area of the opposing tips of the pair of electrodes on the metallic materials, and the different region heated by the AC electric power having the second frequency is a ring-shaped area along a circumference of said prescribed region of the metallic materials. 4. The spot-welding method for metallic materials according to claim 3 , wherein the ring-shaped are undergoes either resistance heating induction heating or both resistance heating and induction heating by the AC electric power having the second frequency. 5. A method for spot-welding metallic materials using a pair of electrodes having respective tips opposing to each other, wherein: a spot-welding power source is connected to the pair of electrodes for supplying a spot-welding power to the pair of electrodes to heat and spot-weld a prescribed region of the metallic materials sandwiched by the tips of the pair of electrodes, the spot-welding power being either AC electric power having a first frequency or DC electric power, and a high-frequency power source is connected to the pair of electrodes for supplying AC electric power having a second frequency to the pair of electrodes, the method comprising: a first step for sandwiching the metallic materials with the tips of the pair of electrodes; a second step for heating and spot-welding the prescribed region of the metallic materials sandwiched by the tips of the pair of electrodes by applying, via said spot-welding power source, the AC electric power having the first frequency or the DC electric power to the pair of electrodes; and a third step for heating the welded prescribed region of the metallic materials or a region different from the prescribed region by applying, via the high-frequency power source, the AC electric power having the second frequency to the pair of electrodes, wherein the spot-welding power source and the high-frequency power source are respectively connected to the pair of electrodes in parallel, wherein the first frequency is lower than the second frequency, and wherein the heating time in the second step and that in the third step are independently controlled. 6. A method for spot-welding metallic materials using a pair of electrodes having respective tips opposing to each other, wherein a spot-welding power source is connected to the pair of electrodes for supplying a spot-welding power to the pair of electrodes to heat and spot-weld a prescribed region of the metallic materials sandwiched by the tips of the pair of electrodes, the spot-welding power being either AC electric power having a first frequency or DC electric power, and a high-frequency power source is connected to the pair of electrodes for supplying AC electric power having a second frequency to the pair of electrodes, the method comprising; sandwiching the metallic materials with the tips of the pair of electrodes; a welding step for heating and spot-welding the prescribed region of the metallic materials sandwiched by the tips of the pair of electrodes by applying, via said spot-welding power source, the AC electric power having the first frequency or the DC electric power to the pair of electrodes; and a heat-treating step for heating the welded prescribed region of the metallic materials or a region different from the prescribed region by applying, via the high-frequency power source, the AC electric power having the second frequency to the pair of electrodes, wherein the spot-welding power source and the high-frequency power source are respectively connected to the pair of electrodes in parallel, wherein the first frequency is lower than the second frequency, wherein the heating time in the welding step and that in the heat treating step are independently controlled, and wherein a power of the AC electric power having the second frequency is controlled. 7. The method for spot-welding metallic materials according to claim 6 , wherein before ending applying the AC electric power having the first frequency or the DC electric power in the welding step, applying the AC electric power having the second frequency to the pair of electrodes in the heat-treating step starts. 8. A method for spot-welding metallic materials using a pair of electrodes having respective tips opposing to each other, wherein: a spot-welding power source is connected to the pair of electrodes for supplying a spot-welding power to the pair of electrodes to heat and spot-weld a prescribed region of the metallic materials sandwiched by the tips of the pair of electrodes, the spot-welding power being either AC electric power having a first frequency or DC electric power, and a high-frequency power source is connected to the pair of electrodes for supplying AC electric power having a second frequency to the pair of electrodes to heat a region of the metallic materials different from the prescribed region, the method comprising: sandwiching the metallic materials with the tips of the pair of electrodes; a welding step for heating the prescribed region of the metallic materials sandwiched by the tips of the pair of electrodes by applying, via said spot-welding power source, the AC electric power having the first frequency or the DC electric power to the pair of electrodes; and