Manufacturing method and manufacturing device for composite cross-section member

The invention claimed is: 1. A method for manufacturing a composite cross-section member, the method comprising: feeding a continuous metal strip to a roll former for bending and roll forming the metal strip into a predetermined cross-sectional shape; locally inserting a discontinuous light-metal core at an arbitrary stage of the roll forming; and bending the metal strip so as to integrate the core and the metal strip and obtaining a composite cross-section member, wherein the discontinuous light-metal core has a predetermined length that is equal to or smaller than a length between an adjacent pair of rolls of the roll former. 2. The method for manufacturing a composite cross-section member according to claim 1 , wherein the roll former includes an upper roll and a lower roll that has a complementary shape with the upper roll, and a distance between the upper roll and the lower roll in a process after the insertion of the core matches a total of a thickness of the core and a thickness of the metal strip. 3. The method for manufacturing a composite cross-section member according to claim 2 , further comprising disposing an insulator on at least a part of a contact portion between the metal strip and the core. 4. The method for manufacturing a composite cross-section member according to claim 3 , wherein the roll former is provided with an escape portion corresponding to a portion where the insulator is disposed. 5. The method for manufacturing a composite cross-section member according to claim 2 , further comprising: cutting the composite cross-section member into a predetermined length; and bending the composite cross-section member with respect to a direction in which the metal strip is fed. 6. The method for manufacturing a composite cross-section member according to claim 2 , further comprising forming the metal strip into a predetermined cross-sectional shape and then welding the metal strip into a closed cross-sectional shape. 7. The method for manufacturing a composite cross-section member according to claim 1 , further comprising disposing an insulator on at least a part of a contact portion between the metal strip and the core. 8. The method for manufacturing a composite cross-section member according to claim 7 , wherein the roll former is provided with an escape portion corresponding to a portion where the insulator is disposed. 9. The method for manufacturing a composite cross-section member according to claim 1 , further comprising: cutting the composite cross-section member into a predetermined length; and bending the composite cross-section member with respect to a direction in which the metal strip is fed. 10. The method for manufacturing a composite cross-section member according to claim 1 , further comprising forming the metal strip into a predetermined cross-sectional shape and then welding the metal strip into a closed cross-sectional shape. 11. The method of manufacturing a composite cross-section member according to claim 1 , wherein the inserting further comprises: causing a robot arm to grip the discontinuous light-metal core, and causing the robot arm to insert and place the discontinuous light-metal core within a concave portion of the predetermined cross-sectional shape of the metal strip. 12. The method of manufacturing a composite cross-section member according to claim 9 , wherein the bending further comprises: bending the composite cross-section member by the roll former with respect to the direction in which the metal strip is fed.