Brushless motor and brushless motor manufacturing method

The invention claimed is: 1. A brushless motor, comprising: a motor body; a bracket to which the motor body is attached; and a power supply structure configured to supply power to the motor body through a through hole formed in the bracket, wherein the bracket is arranged to cover an axial end face of the motor body, the motor body includes a stator, the stator includes a stator core having a plurality of teeth, and a stator coil formed of a winding wound around the teeth, with respect to each phase, the power supply structure includes: a winding pair including a first lead portion of the winding and a second lead portion of the winding; a guide part that guides the winding pair; and a connector part to which the first lead portion and the second lead portion are electrically connected; the winding pair includes: a first portion guided by the guide part; and a second portion formed by bending the winding pair at an axially outer end of the first portion in a direction along a surface of the bracket, the first portion passes through the through hole in an axial direction, and the second portion extends to the connector part. 2. The brushless motor according to claim 1 , wherein with respect to each phase, the power supply structure includes: the winding pair comprising a plurality of winding pairs; and the guide part comprising a plurality of guide parts, and first lead portions and second lead portions of the winding pairs are electrically connected to the same connector part. 3. The brushless motor according to claim 1 , wherein the second portion of the winding pair for one phase does not cross the second portion of the winding pair for another phase as viewed in the axial direction. 4. The brushless motor according to claim 1 , wherein the second portion has a length that is the same in the first lead portion and the second lead portion and that varies depending on the winding pair. 5. The brushless motor according to claim 4 , wherein the length of the second portion corresponds to a distance from the guide part corresponding to the winding pair to the connector part. 6. The brushless motor according to claim 2 , wherein the brushless motor is a three-phase motor, the through hole formed in the bracket comprises a plurality of through holes corresponding to respective phases, the power supply structure includes: the guide parts each corresponding to one of the through holes, and three connector parts each being the connector part corresponding to one of three phases, and the winding pairs for each phase are connected to one of the connector parts for the phase. 7. The brushless motor according to claim 1 , wherein connector parts, each being the connector part for each phase, are arranged linearly in a position offset from an axial center. 8. The brushless motor according to claim 1 , wherein the connector part includes: a terminal having a slit to which the first lead portion and the second lead portion are press-fitted; and an insulating terminal holder that holds the terminal. 9. The brushless motor according to claim 8 , wherein the terminal holder has groove-shaped guides that guide the first lead portion and the second lead portion. 10. The brushless motor according to claim 8 , wherein the terminal holder is attached to the surface of the bracket. 11. The brushless motor according to claim 8 , wherein the terminal is provided for each phase, and terminal holders, each being the terminal holder for each phase, are formed of a common holder member. 12. A method for manufacturing a brushless motor that includes: a motor body; a bracket to which the motor body is attached; and a power supply structure configured to supply power to the motor body through a through hole formed in the bracket, wherein the bracket is arranged to cover an axial end face of the motor body, the motor body includes a stator, and the stator includes a stator core having a plurality of teeth and a stator coil formed of a winding wound around the teeth, the method comprising: feeding a winding pair for each phase through the through hole in an axial direction, wherein the winding pair includes a first lead portion of the winding and a second lead portion of the winding; and bending the winding pair passing through the through hole in a direction along a surface of the bracket to electrically connect the first lead portion and the second lead portion to a connector part. 13. The method according to claim 12 , further comprising cutting the winding pair being electrically connected to the connector part to separate the winding pair into the first lead portion and the second lead portion.