Motor with stator core having overlapping insulator insulation film

What is claimed is: 1. A motor including a stator and a rotor that rotates with respect to the stator, the stator comprising: a stator core including a back yoke and a plurality of teeth on which a coil is wound, the plurality of teeth projecting from the back yoke in a radial direction; an insulator provided on a predetermined portion of the stator core in a radial direction with respect to the stator core to insulate the stator core from an outside; an insulation film integrally formed on the other portion of the stator core in the radial direction with respect to the stator core toward the plurality of teeth, to insulate the stator core including the plurality of teeth from the coil, wherein each tooth of the plurality of teeth includes: a tooth body extending in a radial direction from an outer or inner circumferential surface of the back yoke; and a pole shoe extending from one end of the tooth body in both circumferential directions, wherein an external or internal diameter surface of the pole shoe faces the rotor with a gap therebetween, wherein the insulation film is formed on an entire surface of the tooth except for the external or internal diameter surface of the pole shoe, wherein an end surface is provided on both ends of the external diameter surface or the internal diameter surface with reference to a direction in which the rotor is rotated, wherein the end surface faces the rotor directly via the gap therebetween, and wherein the insulation film is formed on the end surfaces of the pole shoe. 2. The motor according to claim 1 , wherein the insulator includes an upper insulator and a lower insulator provided at a top and a bottom of the stator core to be coupled to the stator core. 3. The motor according, to claim 1 , wherein the insulator includes a to terminal having one end of the coil fixed thereto. 4. The motor according to claim 3 , wherein the tap terminal includes a power connection tap terminal to which first ends of coils corresponding to u, v and w power phases are fixed and a neutral point tap terminal to which second ends of the coils corresponding to u, v and w power phases are fixed. 5. The motor according to claim 4 , wherein the insulator includes a coil winding rib configured to fix a draw lead formed when each of the coils corresponding to u, v and w power phases is moved from one tooth to another tooth. 6. The motor according to claim 1 , wherein the insulator includes a coupling boss configured to couple the stator to an object. 7. The motor according to claim 1 , wherein the insulation film is formed by attaching a polymer resin powder paint to the stator core. 8. A motor including a stator and a rotor that rotates with respect to the stator, the stator comprising: a stator core including a back yoke and a plurality of teeth projected to an inner portion or an outer portion in a radial direction of the stator core, and having a coil wound there around; an insulator formed by a plastic injection molding process to be coupled to the stator core; an insulator film formed from an inner or outer circumferential surface of the stator core to an end of the plurality of teeth continuously to insulate the plurality of teeth from the coil, the insulator formed by coating, heating and hardening a polymer resin powder; wherein the insulation film is formed on an entire surface of each tooth of the plurality of teeth except for a portion of an external or internal diameter surface of each tooth that forms a gap with the rotor, wherein the end of the plurality of teeth includes an end surface which is provided on both ends of the external diameter surface or the internal diameter surface with reference a direction in which the rotor is rotated, wherein the end surface faces the rotor via the gap therebetween, and wherein the insulation film is formed on the end surface. 9. The motor according to claim 8 , wherein the insulation film on a predetermined portion of a top surface and a bottom surface of the stator core coupled to the insulator, and the insulator is coupled to the top surface and the bottom surface of the stator core. 10. The motor according to claim 9 , wherein a plurality of penetrating holes is formed in the stator core along a circumferential direction and a projection is formed on the Insulator to be inserted into one of the plurality of penetrating holes to determine a coupling position of the insulator with respect to the stator core. 11. The motor according to claim 10 , wherein the insulation film is formed only on predetermined portions of top and bottom surfaces of the stator core which are adjacent to the plurality of teeth with respect to the one of the plurality of penetrating holes. 12. The motor according to claim 9 wherein the insulator is configured to cover the top and bottom surfaces of the stator core.