Spiral spring manufacturing method

What is claimed is: 1. A manufacturing method of a spiral spring with a fixed coil part serving as an end coil part and a plurality of movable coil parts being continuous with a terminal end of the fixed coil part, the fixed coil part and the plurality of movable coil parts being wound to form a spiral body in substantially the same plane, at least a first movable coil part of the plurality of movable coil parts that is in an innermost place in the radial direction does not come into contact with both the fixed coil part, which is radially adjacent on an inside, and a second movable coil part, which is radially adjacent on an outside, at a same place in a circumferential direction while coming into contact with only one of the fixed coil part and the second movable coil part in a plurality of places that are circumferentially displaced when the spiral spring is in an elasticity retaining state reached from a free length state by elastic deformation in the diameter-reducing direction, the manufacturing method of spiral spring comprising, (a) a spiral forming step of causing an approximately linear elongated member to be conveyed toward one side in a first direction extending along the longitudinal direction of the elongated member by at least one pair of conveying rollers and also to be engaged with a pressing member that is movable in the first direction and a second direction perpendicular to both the first direction and a rotational shaft direction of the conveying rollers and is arranged in a work area on one side in the first direction of the pair of conveying rollers, to form a spiral body including the fixed coil part, the first movable coil part and the second movable coil part from the linear elongated member, (b) wherein the spiral forming step is configured to control the position of the pressing member with respect to the second direction, while recognizing, based on a signal from a rotational speed sensor for detecting the rotational speed of at least one of the pair of conveying rollers, a relationship between a position in the longitudinal direction of the elongated member that is engaged with the pressing member and the position in the circumferential direction after the spiral body is formed, (c) wherein the spiral forming step is configured to form a plurality of small curvature parts at a plurality of positions in the circumferential direction of the first movable coil part, and also form a plurality of large curvature parts at a plurality of positions of the second movable coil part that respectively correspond to the plurality of small curvature parts in the circumferential directions, and (d) wherein the small curvature parts come into contact with the corresponding large curvature parts without coming into contact with the fixed coil part. 2. The manufacturing method of spiral spring according to claim 1 , further comprising, (a) a starting end side cutting step that is performed before the spiral forming step, cuts the elongated member by a cutting member provided in the work area so as to form the starting end of the spiral spring after the elongated member is conveyed by the pair of conveying rollers such that a tip end side of the elongated member reaches the work area, and recognizes an initial position corresponding to the starting end based on a signal obtained from the rotational speed sensor at a moment, and (b) a terminal end side cutting step performed after the spiral forming step, and cuts off the spiral body from the elongated member by the cutting member disposed in the work area so as to form the spiral spring. 3. The manufacturing method of spiral spring according to claim 2 , further comprising. 4. The manufacturing method of spiral spring according to claim 3 .