Method for manufacturing shaped steel the cross-sectional shape of which changes in the longitudinal direction, and roll forming device

The invention claimed is: 1. A method of producing a shaped steel which varies in cross-sectional shape in a longitudinal direction from a sheet by roll forming, comprising: a step of preparing a first rolling die which has a rotation shaft and an annular ridge part which varies in cross-sectional shape in a circumferential direction which is centered about said rotation shaft; a step of arranging said first rolling die so that the rotation shaft of said first rolling die becomes perpendicular to a sheet feed direction; a step of preparing a second rolling die which has a rotation shaft and an annular groove part which varies in cross-sectional shape in a circumferential direction which is centered about said rotation shaft; a step of arranging said second rolling die so that a gap which is equal to a thickness of said sheet is formed between said first rolling die and second rolling die and the annular ridge part of said first rolling die and the annular groove part of said second rolling die engage; a step of making said first rolling die and said second rolling die rotate synchronized; and a step of feeding the sheet between said first rolling die and second rolling die, wherein side surfaces of the annular ridge part of said first rolling die are provided with a relief so that the gap with respect to side surfaces of the annular groove part of the second rolling die broadens inward in a radial direction throughout the circumference. 2. The method of production of a shaped steel according to claim 1 , wherein a width measured in the rotation shaft direction of each of said annular ridge part of the first rolling die and said annular groove part of the second rolling die varies in the circumferential direction. 3. The method of production of a shaped steel according to claim 2 , wherein each of said annular ridge part of said first rolling die and said annular groove part of said second rolling die is configured so that a height which is measured in a perpendicular direction with respect to said rotation shaft varies in the circumferential direction. 4. The method of production of a shaped steel according to claim 2 , wherein said shaped steel is a hat-shaped steel with an inner circumferential surface which is rolled by the annular ridge part of the first rolling die and with an outer circumferential surface which is rolled by the annular groove part of the second rolling die. 5. The method of production of a shaped steel according to claim 2 , wherein the annular ridge part of said first rolling die includes, in its circumferential direction, a first roll width region, a second roll width region, and a tapered region which increases or decreases in width from said first roll width to second roll width. 6. The method of production of a shaped steel according to claim 2 , wherein said annular ridge part is offset in the rotation shaft direction in its circumferential direction and said first rolling die produces a shaped steel having stock axis which is curved in the width direction. 7. The method of production of a shaped steel according to claim 1 , wherein each of said annular ridge part of said first rolling die and said annular groove part of said second rolling die is configured so that a height which is measured in a perpendicular direction with respect to said rotation shaft varies in the circumferential direction. 8. The method of production of a shaped steel according to claim 7 , wherein said shaped steel is a hat-shaped steel with an inner circumferential surface which is rolled by the annular ridge part of the first rolling die and with an outer circumferential surface which is rolled by the annular groove part of the second rolling die. 9. The method of production of a shaped steel according to claim 7 , wherein the annular ridge part of said first rolling die includes, in its circumferential direction, a first roll width region, a second roll width region, and a tapered region which increases or decreases in width from said first roll width to second roll width. 10. The method of production of a shaped steel according to claim 7 , wherein said annular ridge part is offset in the rotation shaft direction in its circumferential direction and said first rolling die produces a shaped steel having stock axis which is curved in the width direction. 11. The method of production of a shaped steel according to claim 1 , wherein said shaped steel is a hat-shaped steel with an inner circumferential surface which is rolled by the annular ridge part of the first rolling die and with an outer circumferential surface which is rolled by the annular groove part of the second rolling die. 12. The method of production of a shaped steel according to claim 11 , wherein the annular ridge part of said first rolling die includes, in its circumferential direction, a first roll width region, a second roll width region, and a tapered region which increases or decreases in width from said first roll width to second roll width. 13. The method of production of a shaped steel according to claim 11 , wherein said annular ridge part is offset in the rotation shaft direction in its circumferential direction and said first rolling die produces a shaped steel having stock axis which is curved in the width direction. 14. The method of production of a shaped steel according to claim 1 , wherein the annular ridge part of said first rolling die includes, in its circumferential direction, a first roll width region, a second roll width region, and a tapered region which increases or decreases in width from said first roll width to second roll width. 15. The method of production of a shaped steel according to claim 1 , wherein said annular ridge part is offset in the rotation shaft direction in its circumferential direction and said first rolling die produces a shaped steel having stock axis which is curved in the width direction. 16. The method of production of a shaped steel according to claim 15 , wherein an outside diameter of the annular ridge part of said first rolling die and an outside diameter of a bottom surface part of the grooved part of the second rolling die are the same. 17. The method of production of a shaped steel according to claim 1 , wherein a relief amount x of the side surfaces of said first rolling die is set to not less than a value which is calculated by the equation: x=α×H×tanθ wherein α is a constant determined based on a roll shape, where a height of the annular ridge part is “H”, an angle of the side walls of the shaped steel is “θ” wherein θ is less than 85°. 18. The method of production of a shaped steel according to claim 17 , wherein a plurality of roll units each of which comprises a first rolling die and a second rolling die are arranged in series in a sheet feed direction and the sheet is bent by these plurality of roll units so that the side wall angle θ, wherein θ is less than 85°, is increased in stages, and in that the relief amount x of the side surfaces of the first rolling die of part or all of the roll units is not less than a value which is calculated by the equation: x=α×H×tanθ. 19. The method of production of a shaped steel according to claim 1 , wherein the sheet is ultra high tensile steel. 20. A roll forming apparatus for roll forming for producing a shaped steel which varies in cross-sectional shape in a longitudinal direction from a sheet, comprising: a first rolling die which has a rotation shaft and an annular ridge part which varies in cross-sectional shape in a circumferential direction which is ce