Patent ID: 7418948

Claim:
A fuel pump comprising a motor arrangement and a pump arrangement, wherein the pump arrangement is driven by the motor arrangement to pressurize fuel, and the motor arrangement includes: a stator core that includes a plurality of teeth, which are arranged one after another in a circumferential direction; a plurality of coils that are wound as high density windings around the plurality of teeth, said coils being disposed in respective coil winding spaces of said teeth, wherein the plurality of coils switches magnetic poles, which are formed one after another along an inner peripheral surface of the stator core when energization of the plurality of coils is controlled; a rotor that is rotatably arranged radially inward of the stator core and has magnetic poles of opposite polarities that are alternately arranged in a rotational direction of the rotor along an outer peripheral surface of the rotor, which is radially opposed to the stator core, wherein a fuel passage is formed between the outer peripheral surface of the rotor and the inner peripheral surface of the stator core to conduct the fuel, which is pressurized by the pump arrangement; and dielectric resin that is filled between each circumferentially adjacent two of the plurality of teeth to cover the plurality of coils, wherein the dielectric resin is molded to form a plurality of clearances, each of said clearances being formed between the corresponding circumferentially adjacent two of the plurality of teeth and having a radially outer end located radially inward of the coils wound around said adjacent two teeth and radially inward of their respective coil winding spaces, to conduct the fuel that is pressurized by the pump arrangement, wherein stator core includes a plurality of divided cores, each of which has a corresponding one of the plurality of teeth, a dielectric bobbin is fitted around each of the plurality of divided cores, so that a corresponding one of the plurality of coils is wound around the dielectric bobbin, a radially outer wall of the dielectric bobbin forms a generally flat wall, a radially inner wall of the dielectric bobbin forms a generally flat wall, a distance between the radially outer wall and the radially inner wall progressively increases in a circumferential direction toward a circumferential opening of the dielectric bobbin, and a radial wall thickness of a radially outer wall of each divided core, which is located on a radially outer side of the radially outer wall of the dielectric bobbin, decreases in a circumferential direction toward a circumferential end of the radially outer wall of the divided core.