Electric motor

What is claimed is: 1. An electric motor comprising: a housing; a stator assembly disposed in the housing; a rotor assembly rotatably disposed in the stator assembly, the rotor assembly comprising a rotating shaft and a permanent magnet disposed at the rotating shaft; a first bearing and a second bearing that are spaced apart from each other, the permanent magnet being disposed between the first bearing and the second bearing; a first housing cover that is disposed at a first side of the housing and accommodates the first bearing therein; a second housing cover that is disposed at a second side of the housing; and an impeller configured to be rotated by the rotor assembly and to generate a flow of air, wherein the stator assembly defines an inner flow path configured to guide a part of the air to pass through an inside of the stator assembly, wherein the housing defines a bypass flow path at an outside of the stator assembly, the bypass flow path being configured to guide another part of the air to bypass the stator assembly, and wherein the second housing cover comprises: an outer cover, an inner hub disposed inside the outer cover, and a plurality of vanes that connect the inner hub to the outer cover, the plurality of vanes protruding from an outer circumferential surface of the inner hub to an inner circumferential surface of the outer cover. 2. The electric motor of claim 1 , wherein the bypass flow path is defined along an inner circumferential surface of the housing and extends radially outward relative to the inner flow path, the bypass flow path being defined at an outer side of the inner flow path. 3. The electric motor of claim 1 , wherein the bypass flow path is defined at an upstream side relative to the impeller in a flowing direction of the air. 4. The electric motor of claim 1 , further comprising a supporting portion that is disposed inside the housing and supports the stator assembly. 5. The electric motor of claim 1 , further comprising a plurality of supporting portions that protrude radially inward from an inner circumferential surface of the housing and support an outer circumferential surface of the stator assembly, wherein the bypass flow path extends between the plurality of supporting portions in a circumferential direction of the housing and passes through the housing in an axial direction of the housing. 6. The electric motor of claim 5 , further comprising a supporting rib that extends in the circumferential direction and surrounds the outer circumferential surface of the stator assembly, the supporting rib connecting the plurality of supporting portions to one another, wherein the bypass flow path is defined between the inner circumferential surface of the housing and an outer circumferential surface of the supporting rib. 7. The electric motor of claim 1 , wherein the bypass flow path has a ring shape, an arcuate shape, or a polygonal shape. 8. The electric motor of claim 5 , wherein the bypass flow path is one of a plurality of bypass flow paths that are defined inside the housing and that are spaced apart from one another by equal intervals in the circumferential direction of the housing. 9. The electric motor of claim 8 , wherein a circumferential length of one of the plurality of bypass flow paths is greater than (i) a radial width of the one of the plurality of bypass flow paths and (ii) a circumferential length of one of the plurality of supporting portions. 10. The electric motor of claim 1 , wherein the housing comprises: a first accommodating part that accommodates the rotor assembly and the stator assembly; and a second accommodating part that accommodates the impeller, the second accommodating part being disposed at a downstream side relative to the first accommodating part in a flowing direction of the air, and wherein the bypass flow path is defined between an inner circumferential surface of the first accommodating part and an outer circumferential surface of the stator assembly. 11. The electric motor of claim 1 , wherein the housing comprises: a first accommodating part that accommodates the rotor assembly and the stator assembly; a second accommodating part that accommodates the impeller, the second accommodating part being disposed at a downstream side relative to the first accommodating part in a flowing direction of the air; a neck part disposed between the first accommodating part and the second accommodating part, a diameter of the neck part being less than a diameter of the first accommodating part; and an inclined part that is inclined with respect to an axial direction of the housing and extends from the first accommodating part to the neck part, and wherein the bypass flow path is defined between an inner circumferential surface of the first accommodating part and an outer circumferential surface of the stator assembly. 12. The electric motor of claim 1 , wherein: the rotating shaft is rotatably disposed at a central portion of the housing; the first bearing supports a first end portion of the rotating shaft; the second bearing supports a second end portion of the rotating shaft; the impeller is rotatably coupled to the rotating shaft and covers the second bearing, the impeller being disposed at a downstream side relative to the permanent magnet in a flowing direction of the air; and the rotating shaft comprises an impeller mounting portion that supports the impeller and that is disposed between the first bearing and the second bearing. 13. The electric motor of claim 1 , wherein the housing comprises: a first accommodating part that accommodates the rotor assembly and the stator assembly; a second accommodating part that accommodates the impeller, the second accommodating part being disposed at a downstream side relative to the first accommodating part in a flowing direction of the air; and an intake part disposed at an upstream side relative to the first accommodating part in the flowing direction of the air, the intake part defining a plurality of side holes that are in fluid communication with an outside of the housing and that are configured to introduce the air from the outside of the housing into the stator assembly, and wherein the bypass flow path is in fluid communication with the plurality of side holes. 14. The electric motor of claim 1 , wherein the stator assembly comprises: a back yoke having a circular ring shape, the back yoke being disposed between the bypass flow path and the inner flow path; a plurality of teeth disposed at an inner circumferential surface of the back yoke; and a plurality of stator coils wound around the plurality of teeth, respectively, wherein the inner flow path extends through an inside of the back yoke in an axial direction, and wherein the bypass flow path is defined between an inner circumferential surface of the housing and an outer circumferential surface of the back yoke, the bypass flow path extending in the axial direction. 15. The electric motor of claim 1 , where the impeller is disposed between the first bearing and the second bearing, and wherein the second housing cover accommodates the second bearing. 16. The electric motor of claim 1 , wherein the first housing cover comprises: an outer ring portion; a first bearing accommodating portion that is disposed at an inner central portion of the outer ring portion and accommodates the first bearing; and a plurality of connecting portions that connect the outer ring portion to the first bearing accommodating portion, the plurality of connecting portions extending radially from an