Method for manufacturing torsion beam

The invention claimed is: 1. A method of manufacturing a torsion beam, comprising: preparing a blank obtained by processing a plate material; forming an indented groove portion of the torsion beam by pressing the blank with a lower mold; rolling up the blank in such a manner that edge portions of the blank in a width direction oppose each other; a flattening operation of flattening the edge portions of the blank to be plastically deformed, by pressing the edge portions of the blank in the width direction with a protruding portion of an upper mold, in a state in which the edge portions of the blank in the width direction are supported to oppose each other by side cams; welding and joining the edge portions of the blank in the width direction, flattened in the flattening operation; and a quenching operation of heating an entirety of the welded and joined blank at a temperature ranging from 900 to 970° C. for a retaining time within a range of 1 to 20 minutes and cooling the blank in a treatment liquid including at least one of oil and water in a range of 20 to 90° C. 2. The method of manufacturing a torsion beam of claim 1 , wherein after the quenching operation, the method comprises a tempering operation of heating the entirety of the blank subjected to the quenching operation to 150 to 600 degrees (° C.) for a holding time in a range of 10 to 120 minutes, and cooling the blank in air. 3. The method of manufacturing a torsion beam of claim 1 , wherein prior to the flattening operation, the method comprises forming a protruding line in a direction opposite to an inward direction of the indented groove portion by pressing the blank with an upper mold having a protruding portion formed thereon. 4. The method of manufacturing a torsion beam of claim 1 , wherein the flattening operation is performed by horizontally processing a matching surface of the blank, in a state in which the edge portions of the blank in the width direction oppose each other. 5. The method of manufacturing a torsion beam of claim 1 , wherein the flattening operation is performed by flattening such that a matching surface of the blank has an inclination angle ranging from −3.5 degrees to +3.5 degrees in a horizontal state, in a state in which the edge portions of the blank in the width direction oppose each other. 6. The method of manufacturing a torsion beam of claim 1 , wherein the flattening operation is performed to plastically deform the blank in a state in which the protruding portion of the upper mold is located in a position corresponding to a protruding line of the blank. 7. The method of manufacturing a torsion beam of claim 1 , wherein a size of the protruding portion formed on the upper mold is equal to or relatively smaller than a size of a protruding line of the blank. 8. The method of manufacturing a torsion beam of claim 1 , wherein the rolling up the blank comprises: a U-shape processing operation of fixing the blank with the upper mold and a pad, pushing the blank into the lower mold and rolling up the blank in such a manner that the blank has a ‘U’-shaped cross-section; and an O-shape processing operation of rolling up the blank up to a weldable position such that the edge portions of the blank in the width direction oppose each other and thus, the blank has an ‘O’-shaped cross-section. 9. The method of manufacturing a torsion beam of claim 1 , wherein the rolling up the blank is performed, by rolling up the edge portions of the blank in the width direction, in an inward direction of a protruding line, in a state in which a fixed mold is disposed in both end regions of the blank in a length direction. 10. The method of manufacturing a torsion beam of claim 1 , wherein the torsion beam comprises: a beam body extending in a length direction, and having a cross-section in a width direction, forming a closed cross section; an indented groove portion formed to be inwardly indented in the length direction in the beam body; and a protruding line protruding from the indented groove portion toward an outside of the closed cross-section and extending in the length direction.