Method for manufacturing a winding body that is used in an armature winding for an electric machine

The invention claimed is: 1. A method for manufacturing a winding body that is used in an armature winding for an electric machine, said winding body being configured by winding a jointless continuous conductor wire that is coated with insulation into a helical shape for m turns, where m is a natural number that is greater than or equal to two, so as to comprise: rectilinear portions that are arranged into two columns such that m of said rectilinear portions line up in each of said columns; and coil ends that link together end portions of said rectilinear portions between said columns, each of said coil ends comprising: a bulging portion; a pair of inclined portions that link said bulging portion and said rectilinear portions; and a crank portion that is formed on a central portion of said bulging portion, and that displaces said rectilinear portions that are linked by said coil end by a set amount in a direction of arrangement of said rectilinear portions, wherein said method for manufacturing a winding body that is used in an armature winding for an electric machine comprises: a bulging portion forming step in which said bulging portions are formed by bending at a set pitch on said conductor wire; a crank portion forming step in which said crank portions are formed by bending on said central portions of said bulging portions; a rectilinear portion forming step in which said rectilinear portions are formed by bending on said conductor wire on which said bulging portions are formed at a set pitch and on which said crank portions are formed on each of said bulging portions after completion of said bulging portion forming step and said crank portion forming step; and an inclined portion forming step in which said inclined portions are formed by bending on said conductor wire on two sides of said bulging portions before said rectilinear portion forming step. 2. The method for manufacturing a winding body that is used in an armature winding for an electric machine according to claim 1 , wherein in said bulging portion forming step, a bulging portion that is formed by bending is used as a reference point to manage said pitch at which a subsequent bulging portion is formed by bending. 3. The method for manufacturing a winding body that is used in an armature winding for an electric machine according to claim 2 , wherein before forming said subsequent bulging portion by bending, said bulging portion that constitutes said reference point is gripped and moved in a feed direction of said conductor wire to position said bulging portion that constitutes said reference point such that said pitch at which said subsequent bulging portion is formed by bending is said set pitch. 4. The method for manufacturing a winding body that is used in an armature winding for an electric machine according to claim 3 , wherein after said bulging portion that constitutes said reference point is positioned, said crank portion forming step is implemented such that said crank portion is formed by bending on said central portion of said positioned bulging portion. 5. The method for manufacturing a winding body that is used in an armature winding for an electric machine according to claim 1 , wherein in said rectilinear portion forming step, said rectilinear portions are formed by bending on said two sides of said bulging portion using said bulging portion as a reference point. 6. The method for manufacturing a winding body that is used in an armature winding for an electric machine according to claim 5 , wherein before said rectilinear portions are formed by bending on said two sides of said bulging portion, said inclined portion forming step is implemented such that said inclined portions are formed by bending on said two sides of said bulging portion of said conductor wire using said bulging portion as said reference point. 7. The method for manufacturing a winding body that is used in an armature winding for an electric machine according to claim 1 , wherein said bulging portion forming step includes said inclined portion forming step, and said bulging portion and said inclined portions on two sides of said bulging portion are formed by bending simultaneously at said set pitch on said conductor wire. 8. The method for manufacturing a winding body that is used in an armature winding for an electric machine according to claim 1 , further comprising a step of bending and forming said inclined portions into a circular arc shape after completion of said rectilinear portion forming step.