Method of manufacturing commutator segments with claws and tilted recesses

The invention claimed is: 1. A method of manufacturing a commutator, comprising: forming a cylindrical insulator, and forming a plurality of commutator pieces about an outer circumferential surface of the insulator, and causing the commutator pieces to be arranged side-by-side in a circumferential direction of the insulator, wherein the steps of forming the cylindrical insulator and the plurality of commutator pieces, and causing the commutator pieces to be arranged side-by-side in a circumferential direction of the insulator include the steps of: repeatedly pressing a wedge into a substantially flat conductive plate material to form a plurality of recess portions in the conductive plate material, the plurality of recesses defining a first row of recesses aligned in an axial direction and a second row of recesses aligned in the axial direction, the first row displaced from the second row in a longitudinal direction, the first row of recesses and the second row of recesses formed in a same substantially planar surface defined by the conductive plate material, punching a substantially rectangular, flat blank portion from the conductive plate material such that the blank portion includes a plurality of connection claws and engagement claws, the blank portion including the plurality of recess portions, rolling the blank portion to form a unitary cylindrical portion, bending each of the plurality of connection claws such that each of the plurality of connection claws extends radially outward from the unitary cylindrical portion, bending each of the plurality of connection claws such that each connection claw extends outwardly in a radial direction of the unitary cylindrical portion and is configured to be electrically connected to an armature coil, pouring a thermosetting plastic material into the unitary cylindrical portion, using a die, curing the poured thermosetting plastic material by chemical reaction to form the cylindrical insulator to cause each of the engagement claws to be engaged with the cylindrical insulator, and forming a plurality of axial grooves in the unitary cylindrical portion, thereby separating the unitary cylindrical portion into the plurality of commutator pieces, wherein: each of the plurality of commutator pieces includes a recess portion of the plurality of recess portions, the recess portion including an undercut formed in a surface facing inwardly in the radial direction of the insulator, the recess portion has a first sidewall, a second sidewall and a bottom surface between the first sidewall and the second sidewall, the first sidewall and the second sidewall tilt in a first tilt direction parallel to an axial direction of the insulator, the first sidewall projects over the bottom surface to form the undercut, and the second sidewall tilts more than the first sidewall in the first tilt direction, and a first ridge is formed between the first sidewall and the bottom surface, a second ridge is formed between the second sidewall and the bottom surface, the bottom surface tilts in a second tilt direction opposed to the first tilt direction, and, the second ridge is positioned deeper within the recess portion as compared to the first ridge. 2. The method of manufacturing a commutator according to claim 1 , wherein repeatedly pressing the wedge into the conductive plate material to form the plurality of recess portions in the conductive plate material comprises repeatedly pressing the wedge into the conductive plate material to form a first plurality of recess portions in the conductive plate material, such that each under cut is a first undercut having a first tilt direction, and the method further comprises: repeatedly pressing the wedge into the conductive plate material to form a second plurality of recess portions in the conductive plate material such that each commutator piece further includes a second recess portion, and each of the second recess portions has a second undercut having a second tilt direction different from the first tilt direction. 3. The method of manufacturing a commutator according to claim 1 , wherein punching a substantially rectangular, flat blank portion from the conductive plate material such that the blank portion includes a plurality of connection claws and engagement claws comprises punching a substantially rectangular, flat blank portion from the conductive plate material such that each commutator piece includes opposite ends with respect to an axial direction of the insulator, with engagement claws arranged at the opposite ends, and each recess portion is provided between two of the engagement claws with respect to the axial direction of the insulator.