Metal plate joining method and apparatus

The invention claimed is: 1. A metal plate joining method including: joining end portions of two metal plates to each other by welding that defines a step at a joint portion formed at the respective end portions of the two metal plates; traveling a pair of pressure rollers, including an upper pressure roller and a lower pressure roller, in the same direction as a joining line of the joint portion; rolling the step defined at the joint portion of the two metal plates by the pair of pressure rollers while tilting respective axes of the pair of pressure rollers in a horizontal plane with respect to a straight line perpendicular to the joining line of the joint portion, pressing the pair of pressure rollers against the step defined at the joint portion using a pressure roller pressing device to reduce a thickness of the step defined at the joint portion, and generating shear deformation in the step defined at the joint portion, in the direction perpendicular to the joining line of the joint portion, thereby reducing a gradient of the step defined at the joint portion, by pressing the pair of pressure rollers having the tilted respective axes against the step defined at the joint portion using the pressure roller pressing device and by driving the pair of pressure rollers using respective motors and thereby rolling the step defined at the joint portion in the traveling direction of the pressure rollers. 2. The metal plate joining method according to claim 1 , including tilting the respective axes of each of the pair of pressure rollers with respect to the straight line perpendicular to the joining line so that respective travel-directional portions of the pair of pressure rollers are facing in the horizontal plane toward the side of the metal plate with which the pressure rollers first come into contact when the pair of pressure rollers are rolling the step defined at the joint portion in the traveling direction. 3. The metal plate joining method according to claim 1 , including setting respective tilt angles of each of the pair of pressure rollers according to a step amount of the joint portion and rolling the joint portion in the traveling direction. 4. The metal plate joining method according to claim 1 , including raising a temperature of the joint portion to 300° C. or higher by using residual heat of the joint portion occurring due to the welding of the two metal plates and the rolling of the joint portion in the traveling direction by the pair of pressure rollers. 5. The metal plate joining method according to claim 1 , wherein before the start of rolling of the joint portion and/or after the completion of the rolling of the joint portion, where the joint portion is not present between electrode wheels, the pair of pressure rollers are brought into contact with each other and not driven, the pair of pressure rollers are not brought into contact with each other and are driven, or the pair of pressure rollers are brought into contact with each other at a light load compared with the pressing force during the rolling and are driven. 6. The metal plate joining method according to claim 1 , including joining the two metal plates to each other by any one of metal plate joining, laser beam welding, flash butt welding and friction stir welding. 7. A metal plate joining apparatus comprising: heat joining means for joining respective end portions of two metal plates together by welding that defines a step at a joint portion formed at the respective end portions of the two metal plates; a pair of pressure rollers, including an upper pressure roller and a lower pressure roller, supported to travel in the same direction as a joining line of the joint portion and to roll the step defined at the joint portion of the two metal plates after the end portions of the two metal plates have been joined to each other by the heat joining means; means to support the pair of pressure rollers in such a manner that respective axes of the pair of pressure rollers are each tilted in a horizontal plane with respect to a straight line perpendicular to the joining line of the joint portion; a pressure roller pressing device for pressing the pair of pressure rollers against the step defined at the joint portion; and motors for positively driving the pair of pressure rollers, respectively, wherein the pair of pressure rollers having the tilted respective axes are each pressed against the step defined at the joint portion by the pressure roller pressing device to reduce a thickness of the step defined at the joint portion while the pair of pressure rollers are each positively driven by the respective motors to thereby roll the step defined at the joint portion of the two metal plates to generate shear deformation in the step defined at the joint portion, in the direction perpendicular to the joining line of the joint portion, to thereby reduce a gradient of the step defined at the joint portion. 8. The metal plate joining apparatus according to claim 7 , further comprising: means to independently tilt each of the axes of the pair of pressure rollers in the horizontal plane with respect to the straight line perpendicular to the joining line.