Field winding type motor

What is claimed is: 1. A field winding type motor comprising: a rotor rotatably coupled in a hollow of a housing; a first stator core coupled along an inner peripheral surface of the housing; a first rotor core coupled along an outer peripheral surface of the rotor in a state of being spaced apart from an inner peripheral surface of the first stator core; a bobbin assembly coupled along a gap between the first stator core and the first rotor core and generating a magnetic flux when power is applied thereto; a second stator core fixedly disposed on an one side of the bobbin assembly in an axial direction in a state of being coupled along the inner peripheral surface of the first stator core; and a second rotor core disposed on the other surface of the bobbin assembly so as to correspond to the second stator core and rotated together with the first rotor core when the power is applied to the bobbin assembly. 2. The field winding type motor according to claim 1 , wherein the bobbin assembly comprises: a stator bobbin coupled along the inner peripheral surface of the first stator core and comprising stator coils wound therearound; and a rotor bobbin rotatably disposed within an inner diameter of the stator bobbin in a state of being coupled along an outer peripheral surface of the first rotor core and comprising rotor coils wound therearound. 3. The field winding type motor according to claim 1 , wherein the rotor comprises: a shaft installed to be rotatable on a central axis line of the hollow; and a rotor cover coupled to the outer peripheral surface of the rotor and supporting one surface of the second rotor core in an axial direction toward the bobbin assembly. 4. The field winding type motor according to claim 3 , wherein the rotor cover comprises: a cover body coupled along a gap between the shaft and the first rotor core in an axial direction of the housing; and a support part bent in a radial direction of the shaft from one end in an axial direction of the cover body and closely contacting one surface of the second rotor core in an axial direction. 5. The field winding type motor according to claim 4 , wherein the second rotor core and the support part are coupled through a coupling member, and the coupling member is screw-coupled to the second rotor core and the support part in an axial direction thereof. 6. The field winding type motor according to claim 4 , wherein the rotor cover has a support protrusion protruding along a connection portion between an outer peripheral surface of the cover body and the support part, and one surface of the support protrusion in an axial direction closely contacts one surface of the first rotor core in an axial direction and an outer peripheral surface of the support protrusion supports an inner peripheral surface of the second rotor core, so that the first rotor core and the second rotor core are spaced apart from each other in the axial direction thereof. 7. The field winding type motor according to claim 4 , wherein a stator cover is further coupled to one surface of the housing in the axial direction, the support part being disposed on an inner peripheral surface of the stator cover, and one surface of the stator cover in an axial direction closely contacts one surface of the first stator in an axial direction. 8. The field winding type motor according to claim 1 , wherein a material of the second stator core and the second rotor core is different from a material of the first stator core and the first rotor core. 9. The field winding type motor according to claim 1 , wherein a material of the second stator core and the second rotor core has a relatively higher strength than that of a material of the first stator core and the first rotor core. 10. The field winding type motor according to claim 1 , wherein the first stator core and the first rotor core comprise a soft magnetic composite (SMC) material, and the second stator core and the second rotor core comprise a stainless material.