Manufacturing method of rotary electric machine and rotary electric machine

What is claimed is: 1. A manufacturing method of a rotary electric machine including a stator provided with a stator iron core, which is cylindrical and in which a plurality of slots are formed in a circumferential direction on an inner circumferential surface, and coils of a plurality of phases that are each inserted into the plurality of slots, and a movable element provided with a movable element iron core that is supported in a rotatable manner relative to the stator and at least a pair of movable element magnetic poles that is provided in the movable element iron core, the method comprising: a split flux coil formation step of, for each phase, forming split flux coils in which the coils of the plurality of phases are divided into a plurality of the split flux coils from a conducting wire; a coil setting step of performing insertion in a lamellar form between blades of a coil insertion machine by overlapping the plurality of split flux coils of each phase in a formation direction of the blades, the coil insertion machine being provided with a plurality of the blades, which are rod-shaped and disposed spatially separated from one another around a circumference, and a pusher, which is disposed on the inner side of each blade so as to face an inner side portion of each blade, and which moves in the formation direction of the blades; a stator iron core setting step of setting the stator iron core in the coil insertion machine so that a position of each of the slots conforms with a position of a gap formed between the blades; and a split flux coil collective insertion step of performing insertion in a lamellar form by pressing, with a plurality of split flux coils that are respectively inserted between the blades and that are on the pusher side, split flux coils that are closer to the stator iron core side than the plurality of split flux coils that are on the split flux coils that are on the pusher side as a result of moving the pusher to the stator iron core side, and sequentially overlapping the plurality of split flux coils of each phase in each slot in a simultaneous manner. 2. The manufacturing method of a rotary electric machine according to claim 1 , wherein, in the stator iron core setting step, the number of passes of the conducting wire that constitutes each of the split flux coils that is inserted in a lamellar form by being overlapped between the blades is set to be smaller as each split flux coil is closer to the stator iron core. 3. The manufacturing method of a rotary electric machine according to claim 1 , wherein, in the stator iron core setting step, the length of a single winding of the conducting wire that constitutes each split flux coil that is inserted in a lamellar form by being overlapped between the blades is set to be shorter as each split flux coil is further from the stator iron core. 4. A rotary electric machine comprising: a stator that includes a stator iron core, which is cylindrical and in which a plurality of slots are formed in a circumferential direction on an inner circumferential surface, and coils of a plurality of phases that are mounted in a state of being respectively inserted into the plurality of slots; and a movable element that includes a movable element iron core, which is supported in a rotatable manner relative to the stator and at least a pair of movable element magnetic poles that is provided in the movable element iron core, wherein the coils of the plurality of phases are configured by being respectively divided into a plurality of split flux coils, the plurality of split flux coils are mounted in a state of being inserted in a lamellar form by respectively being overlapped in each slot, and an inner diameter of a coil end, at a position most separated from an end surface in a direction of projecting of the stator iron core on one side of each split flux coil mounted in a state of being inserted into the slots, is set to be smaller than the inner diameter of the stator iron core. 5. The rotary electric machine according to claim 4 , wherein the number of passes of the conducting wire that constitutes each split flux coil mounted in a state of being inserted in a lamellar form by respectively being overlapped in each slot is set so that there are fewer split flux coils on an outer circumferential side than split flux coils on an inner circumferential side. 6. The rotary electric machine according to claim 4 , wherein the length of a single winding of the conducting wire that constitutes each split flux coil mounted in a state of being inserted in a lamellar form by respectively being overlapped in each slot is set so that the split flux coils on an inner circumferential side are shorter than the split flux coils on an outer circumferential side.