Segment coil, stator including segment coil, and method of manufacturing segment coil

The invention claimed is: 1. A segment coil in a stator of a rotating electric machine formed from an annular core and rectangular wire coils of a plurality of phases, segment coils being arranged as aligned in a radial direction in slots of the annular core and coils in adjacent slots being arranged as aligned in a circumferential direction, comprising: a straight portion accommodated in said slot; and a pair of coil end portions protruding outward from said slot, a tip end of any one coil end portion of said pair of coil end portions being defined as a tip end portion for joint including a joint surface for joint to another segment coil, and said tip end portion for joint being constructed such that the joint surface is in parallel to a radial direction of said annular core when viewed in an axial direction of said annular core, wherein said segment coil has a pair of said tip end portions for joint arranged at prescribed positions in the circumferential direction of the annular core, and the pair of tip end portions for joint are arranged such that adjacent tip end portions for joint are displaced between an inner-diameter-side and an outer-diameter-side in the radial direction of said annular core when the segment coils are arranged as aligned in the slots of said annular core, among the segment coils accommodated in the same slot, the segment coils adjacent in the radial direction of said annular core are joined at said tip end portions for joint, and said pair of tip end portions for joint are formed by twisting end portions of said pair of coil end portions by 90 degrees in the same direction. 2. The segment coil according to claim 1 , wherein an additional insulating layer is provided in a prescribed region of a coil end portion including at least said tip end portion for joint, of said pair of coil end portions. 3. The segment coil according to claim 2 , wherein said additional insulating layer is provided in a portion where segment coils belonging to different phases face each other. 4. The segment coil according to claim 2 , wherein said additional insulating layer is formed on a radially inner surface and/or a radially outer surface of the annular core of the segment coil. 5. The segment coil according to claim 2 , wherein said coil end portion is formed in a mountain shape, and said additional insulating layer is provided in an oblique side portion except for a portion near a peak portion of said mountain shape and portions near opposing mountain-foot portions and/or in a straight portion extending from the slot. 6. The segment coil according to claim 1 , wherein a semiconductive layer is provided in a prescribed region of a coil end portion on a side not including at least said tip end portion for joint, of said pair of coil end portions, and said semiconductive layer of a segment coil arranged in proximity and belonging to a different phase is in contact at at least one point. 7. The segment coil according to claim 1 , wherein a colored identification portion is provided on a surface in a prescribed region of said segment coil. 8. The segment coil according to claim 7 , wherein a first colored identification portion allowing identification of a tip end portion for joint of a segment coil to be connected is provided in the tip end portion for joint of said segment coil or in a portion near the tip end portion for joint. 9. The segment coil according to claim 7 , comprising a second colored identification portion provided on a surface other than said tip end portion for joint and formed to allow identification of a slot where each segment coil is attached and/or a position of disposition in the slot. 10. The segment coil according to claim 9 , wherein said second colored identification portion is provided by applying a color paint, bonding a color tape material, or attaching a color tube material to a prescribed region of the segment coil. 11. The segment coil according to claim 9 , wherein said second colored identification portion serves as an additional insulating layer. 12. The segment coil according to claim 1 , composed of tough pitch copper. 13. A stator formed by arranging the segment coils according to claim 1 as aligned in slots of an annular core. 14. The stator according to claim 13 , wherein by inclining at least one set of adjacent segment coils arranged in a common slot among segment coils arranged as aligned in the slots of said annular core in a radial direction in a region extending from said slot to a portion where it is bent in a circumferential direction toward a vertex of said coil end portion, an insulating layer provided in a coil end portion of the segment coil is formed such that said insulating layer is brought in contact in the radial direction of the stator and a distance between coils in the radial direction of the stator at a portion in contact between said insulating layer and said coil end portion is greater than a distance between coils within said slot. 15. The stator according to claim 13 , wherein said tip end portions for joint of adjacent segment coils of said plurality of segment coils are solid-phase bonded. 16. A method of manufacturing the segment coil according to claim 1 , comprising: a coil element forming step of forming a coil element by bending an elemental wire formed at least from a rectangular wire; and an insulating layer forming step of forming an insulating layer by covering a surface of said coil element with an insulating substance, said coil element forming step including a tip-end-portion-for-joint forming step of forming at a tip end of a coil end portion of said coil element, a tip end portion for joint arranged at a prescribed position in a circumferential direction of an annular core such that a joint surface for joint to another segment coil is in parallel to a radial direction of said annular core when viewed in an axial direction of said annular core, and said insulating layer forming step including a base insulating layer forming step of forming a base insulating layer by integrally covering said coil element with an insulating substance and an additional insulating layer forming step of forming an additional insulating layer by additionally covering a prescribed region of said coil end portion with an insulating substance after the base insulating layer forming step. 17. The method of manufacturing the segment coil according to claim 16 , wherein said tip-end-portion-for-joint forming step is performed by twisting an end portion of the coil end portion of said coil element. 18. The method of manufacturing the segment coil according to claim 16 , wherein said tip-end-portion-for-joint forming step is performed by plastically deforming an end portion of the coil end portion of said coil element. 19. The method of manufacturing the segment coil according to claim 16 , comprising a colored identification portion forming step of providing prescribed coloring to a prescribed region on the surface of the coil element simultaneously with or subsequent to said additional insulating layer forming step. 20. The segment coil according to claim 1 , wherein each of a segment coil on the inner-diameter-side and a segment coil on the outer-diameter-side is bent at a same angle inward in the circumferential direction of said annular core. 21. The segment coil according to claim 20 , wherein by further bending said segment coil on the inner-diameter-side, the tip end portion for joint of said segment