Rotating electrical machine including an insulator with a reinforcing portion

What is claimed is: 1. A rotating electrical machine comprising: a core including an annular yoke portion disposed while being centered around a rotation axis; a plurality of toothed portions that protrude from the yoke portion in a radial direction; and a tooth flange portion that circumferentially sticks out from a protruding end of each of the plurality of toothed portions while being centered around the rotation axis; and an insulator that covers a region from the toothed portion to the tooth flange portion, wherein the insulator includes a tooth cover portion which is disposed at a position to cover the outer circumference of the toothed portion, and around which a coil strand is wound, and a flange cover portion which is disposed at a position to cover the tooth flange portion, wherein a reinforced portion is formed at the boundary between the tooth cover portion and the flange cover portion, and includes a first restricting surface which comes into contact with a coil strand positioned in an end portion of a predetermined layer from multiple layers of the coil strand wound around the outer circumference of the tooth cover portion, and a second restricting surface which is gently inclined compared to the first restricting surface so as to enlarge a winding region of a layer of the coil strand wound over the predetermined layer, and wherein a first layer, a second layer, and a third layer are formed in the winding region, the first layer of the coil strand is wound starting from the position of a base end adjacent to the yoke portion to a location in which a winding position reaches the first restricting surface, the second layer of the coil strand is wound from the first restricting surface to a location in which a winding position reaches the position of the base end, while overlapping the first layer, and the third layer of the coil strand is wound from the position of the base end to a location in which a winding position reaches the second restricting surface, while overlapping the second layer, and the predetermined layer is the second layer. 2. The rotating electrical machine according to claim 1 , wherein the boundary between the first restricting surface and the second restricting surface is molded into a curved surface that is smoothly continuous with the first restricting surface and the second restricting surface. 3. The rotating electrical machine according to claim 1 , wherein the first restricting surface is inclined at an inclination angle of 120 degrees relative to a radial line along an extending direction of the toothed portion, and the second restricting surface is inclined at an angle in a range of 120 degrees to 180 degrees relative to the radial line.