Method and apparatus for manufacturing a bent member

The invention claimed is: 1. A manufacturing method for a bent member characterized by carrying out bending of a hollow metal blank having a closed cross section with satisfying the following conditions 1-6: Condition 1: a first manipulator grips a first portion of the metal blank located on the side of a first end thereof in a fixed manner; Condition 2: a second manipulator supports a high-temperature area forming mechanism which heats a region of the metal blank which is located between the first portion and a second portion located on the side of a second end of the metal blank and then performs cooling, thereby forming a high-temperature area in a portion of the region; Condition 3: a third manipulator grips the second portion of the metal blank; Condition 4: the first manipulator while fixed to the first portion moves two-dimensionally or three-dimensionally such that a bending moment can be imparted to the high-temperature area; Condition 5: the third manipulator intermittently moves in the axial direction of the second portion of the metal blank or moves two-dimensionally or three-dimensionally such that a bending moment can be imparted to the high-temperature area; and Condition 6: relative movement of the high-temperature area forming mechanism with respect to the metal blank in its axial direction is produced. 2. A manufacturing method for a bent member as set forth in claim 1 characterized in that the first manipulator operates so as to produce a twisting movement of the metal blank around its axis and/or the third manipulator operates so as to produce a twisting movement of the metal blank around its axis. 3. A manufacturing method for a bent member as set forth in claim 1 characterized in that the first manipulator continuously moves in the axial direction of the first portion of the metal blank, the third manipulator does not move in the axial direction of the second portion of the metal blank, and the high-temperature area forming mechanism changes its angle of installation in accordance with changes in the direction of displacement of the first portion. 4. A manufacturing method for a bent member as set forth in claim 3 characterized in that the installation position of the high-temperature area forming mechanism is moved to a position closer to the first portion. 5. A manufacturing method for a bent member as set forth in claim 1 characterized in that when the third manipulator moves two-dimensionally or three-dimensionally, and/or when the first manipulator moves two-dimensionally and three-dimensionally, the second manipulator moves the high-temperature area forming mechanism in the axial direction of the metal blank. 6. A manufacturing method for a bent member as set forth in claim 1 characterized in that the high-temperature area forming mechanism has a heating means for heating the metal blank and a cooling means for forming a high-temperature area by cooling the metal blank which was heated by this heating means. 7. A manufacturing method for a bent member as set forth in claim 6 characterized in that the first manipulator is disposed at a first position, the heating means is disposed at a second position downstream of the first position in the axial direction of the metal blank, the cooling means is disposed at a third position downstream of the second position in the axial direction of the metal blank, and the third manipulator is disposed at a fourth position downstream of the third position in the axial direction of the metal blank. 8. A manufacturing apparatus for a bent member, comprising a first manipulator, a second manipulator, and a third manipulator as described below and being capable of manufacturing a bent member by performing bending on a hollow metal blank having a closed cross section so as to satisfy the following Conditions 1 to 3: the first manipulator: gripping a first portion of a metal blank located on the side of a first end thereof in a fixed manner; the second manipulator: supporting a high-temperature area forming mechanism which heats a region of the metal blank which is located between the first portion and a second portion located on the side of a second end of the metal blank and then performs cooling, thereby forming a high-temperature area in a portion of the region; the third manipulator: gripping the second portion of the metal blank; Condition 1: the first manipulator while fixed to the first portion moves two-dimensionally or three-dimensionally such that a bending moment can be imparted to the high-temperature area; Condition 2: the third manipulator intermittently moves in the axial direction of the second portion of the metal blank or moves two-dimensionally or three-dimensionally such that a bending moment can be imparted to the high-temperature area; and Condition 3: relative movement of the high-temperature area forming mechanism with respect to the metal blank in its axial direction is produced. 9. A manufacturing apparatus for a bent member from a metal blank comprising: a feed means which is disposed at a first position so as to be able to move two-dimensionally or three-dimensionally and which can feed a hollow metal blank having a closed cross section while changing a feed direction, a heating means which is positioned at a second position downstream of the first position in the feed direction of the metal blank and which heats all or a portion of the circumference of the metal blank being fed, a cooling means which is disposed at a third position downstream of the second position in the feed direction of the metal blank and which cools the portion of the metal blank being fed which was heated by the heating means, and a bending means which is disposed at a fourth position downstream of the third position in the feed direction of the metal blank so as to be able to move two-dimensionally or three-dimensionally and which together with the feed means imparts a bending moment to the heated portion of the metal blank by gripping at least one location of the metal blank being fed and thereby bends the metal blank into a desired shape, characterized in that the heating means has a function that an angle of installation thereof can be changed in accordance with changes in the feed direction of the metal blank by the feed means. 10. A manufacturing apparatus for a bent member as set forth in claim 9 characterized in that the heating means and the cooling means have the function that their installation positions can be changed to positions closer to the position of the feed means. 11. A manufacturing apparatus for a bent member as set forth in claim 10 characterized in that the feed means is supported by a first manipulator, the heating means and the cooling means are supported by a second manipulator, and the bending means is supported by a third manipulator. 12. A manufacturing apparatus for a bent member as set forth in claim 11 characterized in that the first manipulator is a manipulator of a vertically articulated first industrial robot, the second manipulator is a manipulator of a vertically articulated second industrial robot, and the third manipulator is a manipulator of a vertically articulated third industrial robot. 13. A manufacturing apparatus for a bent member as set forth in claim 11 characterized in that the first manipulator and the third manipulator are manipulators of a dual-arm first industrial robot and the second manipulator is a manipulator of a vertically articulated second industrial robot. 14. A manufacturing apparatus for a bent member as set forth in claim 11 further characterized in that the third manipulator supports a metal