Stator, stator manufacturing method, and rotary electric machine

The invention claimed is: 1. A stator comprising: a stator core in which slots are formed a predetermined distance apart in a circumferential direction; and a polyphase stator coil formed by a first flat wire of a first phase and a second flat wire of a second phase that differs from the first phase, the first flat wire and the second flat wire being coated with an insulating layer, and the polyphase stator coil being wound around the stator core through the slots, wherein the first flat wire and the second flat wire each have an insertion portion that is inserted into the slots, the first flat wire and the second flat wire each have a coil end portion that protrudes from an end portion of the stator core; wherein the insulating layer of the first flat wire includes a first insulating layer and a second insulating layer, wherein the first insulating of an adjacent portion of the first flat wire is thicker than the second insulating layer of the first flat wire, the adjacent portion is a portion adjacent to the second flat wire at the coil end portion of the first flat wire, and the second insulating layer is in a region other than the adjacent portion and the other three surfaces in a same region as the adjacent portion in the longitudinal direction of the first flat wire; and the first insulating layer is formed by applying or dripping insulation material, wherein the first flat wire is configured to be coated with the first insulating layer when the first flat wire is in a shortened state in which the first flat wire has been cut to a coil segment length. 2. The stator according to claim 1 , wherein the stator coil is formed by the first flat wire and the second flat wire being wound in a distributed manner around the stator core. 3. The stator according to claim 1 , wherein the stator coil is formed by a segment coil. 4. The stator according to claim 3 , wherein the first insulating layer is coated on when the first flat wire has been bent into a segment coil shape from the shortened state in which the first flat wire has been cut to the coil segment length. 5. The stator according to claim 1 , wherein the first insulating layer of the adjacent portion is formed by a basic insulating layer and an insulation-reinforcing insulating layer, the basic insulating layer has an even thickness of insulation material and is formed over the entire first flat wire, and the insulation-reinforcing insulating layer has higher insulation performance than the basic insulating layer and is added to the basic insulating layer at the coil end portion by applying or dripping. 6. A rotary electric machine comprising: a rotor; and a stator including: a stator core in which slots are formed a predetermined distance apart in a circumferential direction; and a polyphase stator coil formed by a first flat wire of a first phase and a second flat wire of a second phase that differs from the first phase, the first flat wire and the second flat wire being coated with an insulating layer, and the polyphase stator coil being wound around the stator core through the slots, wherein the first flat wire and the second flat wire each have an insertion portion that is inserted into the slots, the first flat wire and the second flat wire each have a coil end portion that protrudes from an end portion of the stator core; wherein the insulating layer of the first flat wire includes a first insulating layer and a second insulating layer, wherein the first insulating layer of an adjacent portion of the first flat wire is thicker than the second insulating layer of the first flat wire, the adjacent portion is a portion adjacent to the second flat wire at the coil end portion of the first flat wire, and the second insulating layer is in a region other than the adjacent portion and the other three surfaces in a same region as the adjacent portion in the longitudinal direction of the first flat wire; and the first insulating layer is formed by applying or dripping insulation material, wherein the first flat wire is configured to be coated with the first insulating layer when the first flat wire is in a shortened state in which the first flat wire has been cut to a coil segment length. 7. A manufacturing method of a stator having a stator core and a polyphase stator coil, slots being formed a predetermined distance apart in a circumferential direction in the stator core, the polyphase stator coil being formed by a first segment coil of a first phase and a second segment coil of a second phase that differs from the first phase, the first segment coil and the second segment coil being coated with an insulating layer, and the polyphase stator coil being wound around the stator core through the slots, the manufacturing method comprising: providing the first segment coil and the second segment coil, each of the first segment coil and the second segment coil having an insertion portion that is inserted into the slots, and a coil end portion that protrudes from an end portion of the stator core; coating the first segment coil with the insulating layer; applying or dripping insulation material to an adjacent portion, such that a first insulating layer of the adjacent portion is thicker than a second insulating layer in a region other than the adjacent portion, and the adjacent portion being a surface adjacent to the second segment coil at the coil end portion of the first segment coil, and the second insulating layer being formed in a region other than the adjacent portion and the other three surfaces in a same region as the adjacent portion in the longitudinal direction of the first segment coil; and forming the polyphase stator coil by winding the first segment coil and the second segment coil coated with the first and second insulating layers around the stator core, wherein a conductor is made to be in a shortened state by being cut to a coil segment length; the insulating layer is coated on the conductor in the shortened state; and the conductor coated with the insulating layer is bent into a segment coil shape to form the first segment coil.