Electric motor assembly and hair dryer having the same

What is claimed is: 1. An electric motor assembly, comprising: an outer housing; an impeller rotatably disposed in the outer housing; an inner housing that is disposed in the outer housing and defines an air flow path at an outside of the inner housing; a stator disposed in the inner housing; a rotor disposed in the inner housing, the rotor comprising a rotating shaft coupled to the impeller; a first bearing that is disposed in the inner housing and supports a first side of the rotating shaft; a second bearing that disposed in the inner housing and supports a second side of the rotating shaft, wherein the rotor is disposed between the first bearing and the second bearing; and a bracket that is disposed at the second bearing and that is in contact with an end of the stator, the bracket being coupled to the inner housing in an axial direction of the inner housing, wherein the stator comprises: a stator core, the stator core comprising a plurality of coupling protrusions that protrude from an outer surface of the stator core in a radial direction and extend in the axial direction, and a stator coil that is wound around at least a portion of the stator core, and wherein the inner housing defines a plurality of slits, each of the plurality of slits receiving one of the plurality of coupling protrusions. 2. The electric motor assembly of claim 1 , wherein the inner housing comprises: an inner housing body having a cylindrical shape; and a plurality of legs that protrude from the inner housing body and are coupled to the bracket. 3. The electric motor assembly of claim 2 , wherein the bracket comprises: a bearing accommodation portion that receives the second bearing; and a plurality of bridges that extend from the bearing accommodation portion toward the stator. 4. The electric motor assembly of claim 3 , wherein each of the plurality of bridges comprises a leg contact portion that is in contact with one of the plurality of legs. 5. The electric motor assembly of claim 4 , wherein the leg contact portion is recessed from an outer surface of one of the plurality of bridges in a thickness direction. 6. The electric motor assembly of claim 3 , wherein each of the plurality of slits extends through one of the plurality of legs, and wherein each of the plurality of bridges comprises an insertion protrusion that is inserted into one of the plurality of slits. 7. The electric motor assembly of claim 6 , wherein each of the plurality of bridges further comprises a side coupling portion coupled to a side surface of one of the plurality of legs. 8. The electric motor assembly of claim 7 , wherein each of the plurality of bridges further comprises an outer surface coupling portion coupled to an outer surface of one of the plurality of legs. 9. The electric motor assembly of claim 8 , wherein the outer surface coupling portion is bent from the side coupling portion or the insertion protrusion. 10. The electric motor assembly of claim 6 , wherein each of the plurality of legs comprises a side portion that extends from an end of the inner housing, and wherein a circumferential width of the side portion decreases in a direction away from the end of the inner housing. 11. The electric motor assembly of claim 10 , wherein the circumferential width of the side portion is greater than a circumferential width of one of the plurality of bridges. 12. The electric motor assembly of claim 11 , wherein the side portion has a curved shape or a linear shape that is inclined with respect to the axial direction. 13. The electric motor assembly of claim 1 , wherein the stator further comprises an insulator made of an insulation material and disposed between the stator core and the stator coil, and wherein the insulator comprises an end turn insulation portion that protrudes toward the impeller relative to an end of the stator core and that is disposed at a position corresponding to an end turn portion of the stator coil. 14. The electric motor assembly of claim 13 , further comprising a printed circuit board (PCB) disposed at one side of the bracket and electrically connected to the stator coil. 15. The electric motor assembly of claim 14 , wherein the PCB comprises a plurality of connection pins that are electrically connected to the stator coil. 16. The electric motor assembly of claim 4 , wherein the plurality of bridges are bonded to the plurality of legs by an adhesive. 17. The electric motor assembly of claim 3 , wherein each of the plurality of bridges has an end contact portion that is in surface contact with the end of the stator. 18. The electric motor assembly of claim 1 , wherein the inner housing has an upstream end located adjacent to the impeller, and a downstream end located away from the impeller, and wherein the downstream end of the inner housing protrudes outward relative to an end of the outer housing in a flowing direction of air moved by the impeller. 19. A hair dryer comprising: an electric motor assembly comprising: an outer housing, an impeller rotatably disposed in the outer housing, an inner housing that is disposed in the outer housing and defines an air flow path at an outside of the inner housing, a stator disposed in the inner housing, a rotor disposed in the inner housing, the rotor comprising a rotating shaft coupled to the impeller, a first bearing that is disposed in the inner housing and supports a first side of the rotating shaft, a second bearing that disposed in the inner housing and supports a second side of the rotating shaft, wherein the rotor is disposed between the first bearing and the second bearing, and a bracket that is disposed at the second bearing and that is in contact with an end of the stator, the bracket being coupled to the inner housing in an axial direction of the inner housing; a hair dryer body that defines an air outlet port; and a handle that is connected to the hair dryer body and accommodates the electric motor assembly, the handle defining an air inlet port configured to communicate with the air outlet port. 20. An electric motor assembly, comprising: an outer housing; an impeller rotatably disposed in the outer housing; an inner housing that is disposed in the outer housing and defines an air flow path at an outside of the inner housing; a stator disposed in the inner housing; a rotor disposed in the inner housing, the rotor comprising a rotating shaft coupled to the impeller; a first bearing that is disposed in the inner housing and supports a first side of the rotating shaft; a second bearing that disposed in the inner housing and supports a second side of the rotating shaft, wherein the rotor is disposed between the first bearing and the second bearing; and a bracket that is disposed at the second bearing and that is in contact with an end of the stator, the bracket being coupled to the inner housing in an axial direction of the inner housing, wherein the inner housing comprises: an inner housing body having a cylindrical shape, and a plurality of legs that protrude from the inner housing body and are coupled to the bracket, wherein the bracket comprises: a bearing accommodation portion that receives the second bearing, and a plurality of bridges that extend from the bearing accommodation portion toward the stator, and wherein the plurality of bridges are bonded to the plurality of legs by an adhesive.