Electric machine

The invention claimed is: 1. An electric machine comprising: an armature that includes: an armature core in which a plurality of slots are arranged in a slot width direction; and an armature winding that is configured by mounting conductor wires that have similar cross sectional shapes into said slots, wherein: each conductor wire comprises: a conductor portion that has an oblong cross section; and an insulating coating that is formed so as to cover an outer periphery of said conductor portion, said conductor wires being housed inside said slots so as to be arranged into multiple layers so as to line up in a single column in a slot depth direction so as to contact each other in said slot depth direction; and said insulating coating is formed so as to satisfy an expression t 1 <t 2 , where t 1 is a thickness of a portion of said insulating coating that is formed on an entire length of opposing surfaces of said conductor portion that face in said slot depth direction, and t 2 is a thickness of a portion of said insulating coating that is formed on a surface of said conductor portion that faces in said direction of slot arrangement. 2. The electric machine according to claim 1 , wherein an insulating paper is interposed only between a conductor wire in a deepest position in said slot depth direction and a bottom surface of said slots. 3. The electric machine according to claim 1 , wherein an air gap is formed between a conductor wire in a deepest position in said slot depth direction and a bottom surface of said slots, said air gap including a gap that is greater than or equal to (t 2 −t 1 ). 4. The electric machine according to claim 1 , wherein the insulating coating directly contacts a surface of the armature core. 5. The electric machine according to claim 1 , wherein an insulating distance between the conductor portion in a deepest position in said slot depth direction and a bottom surface of said slots is L 2 ; and a distance between the insulating coating in a deepest position in said slot depth direction and the bottom surface of said slots is d, wherein L 2 −d≦t 1 , and L 2 ≦t 2 . 6. An electric machine comprising: an armature that includes: an armature core in which a plurality of slots are arranged in a slot width direction; and an armature winding that is configured by mounting conductor wires that have similar cross sectional shapes into said slots, wherein: said conductor wires comprise: a conductor portion that has an oblong cross section; and an insulating coating that is formed so as to cover an outer periphery of said conductor portion, said conductor wires being housed inside said slots so as to be arranged into multiple layers so as to line up in a single column in a slot depth direction so as to contact each other in said slot depth direction; and said insulating coating is formed so as to satisfy an expression t 1 <t 2 , where t 1 is a thickness of a portion of said insulating coating that is formed on a surface of said conductor portion that faces in said slot depth direction, and t 2 is a thickness of a portion of said insulating coating that is formed on a surface of said conductor portion that faces in said direction of slot arrangement, wherein an air gap is formed between a conductor wire in a deepest position in said slot depth direction and a bottom surface of said slots, wherein the air gap is provided along an entire length of the insulating coating extending from one surface of the conductor portion that faces in the direction of slot arrangement to an opposing surface of the conductor portion that faces in the direction of slot arrangement, said air gap including a gap that is greater than or equal to (t 2 −t 1 ). 7. The electric machine according to claim 1 , wherein t 1 =t 2 /2. 8. The electric machine according to claim 7 , wherein an insulating paper is interposed only between a conductor wire in a deepest position in said slot depth direction and a bottom surface of said slots. 9. The electric machine according to claim 7 , wherein an air gap is formed between a conductor wire in a deepest position in said slot depth direction and a bottom surface of said slots, said air gap including a gap that is greater than or equal to (t 2 −t 1 ). 10. The electric machine according to claim 6 , wherein t 1 =t 2 /2. 11. The electric machine according to claim 6 , wherein an insulating distance between the conductor portion in a deepest position in said slot depth direction and a bottom surface of said slots is L 2 ; and a distance between the insulating coating in a deepest position in said slot depth direction and the bottom surface of said slots is d, wherein L 2 −d≦t 1 , and L 2 ≦t 2 . 12. An electric machine comprising: an armature that includes: an armature core in which a plurality of slots are arranged in a slot width direction; and an armature winding that is configured by mounting conductor wires that have similar cross sectional shapes into said slots, wherein: said conductor wires comprise: a conductor portion that has an oblong cross section; and an insulating coating that is formed so as to cover an outer periphery of said conductor portion, said conductor wires being housed inside said slots so as to be arranged into multiple layers so as to line up in a single column in a slot depth direction so as to contact each other in said slot depth direction; and said insulating coating is formed so as to satisfy an expression t 1 <t 2 , where t 1 is a thickness of a portion of said insulating coating that is formed on an entire length of a surface of said conductor portion that faces in said slot depth direction, and t 2 is a thickness of a portion of said insulating coating that is formed on a surface of said conductor portion that faces in said direction of slot arrangement, wherein t 1 =t 2 /2. 13. The electric machine according to claim 12 , wherein an insulating paper is interposed only between a conductor wire in a deepest position in said slot depth direction and a bottom surface of said slots. 14. The electric machine according to claim 12 , wherein an insulating distance between the conductor portion in a deepest position in said slot depth direction and a bottom surface of said slots is L 2 ; and a distance between the insulating coating in a deepest position in said slot depth direction and the bottom surface of said slots is d, wherein L 2 −d≦t 1 , and L 2 ≦t 2 .