Electric pump

The invention claimed is: 1. An electric pump comprising: a pump portion including an impeller; a motor portion configured to activate the pump portion; and a housing configured to contain the pump portion and the motor portion, wherein the motor portion comprises: a rotor configured to activate the impeller; a stator configured to rotate the rotor; a control circuit configured to control a rotation of the rotor; a resin cover configured to cover the stator; a heat transfer cover covering the control circuit and abutting both the control circuit and a portion of an interior surface of the housing, thermal conductivity of the heat transfer cover being higher than thermal conductivity of the resin cover, and the heat transfer cover configured to be grounded and disposed on an outer side of the electric pump than the control circuit; and the resin cover including a resin portion covering a part of a surface of the heat transfer cover, wherein another part of the surface of the heat transfer cover is exposed outside of the electric pump. 2. The electric pump as in claim 1 , wherein the heat transfer cover contains the control circuit. 3. The electric pump as in claim 1 , wherein the heat transfer cover and the housing have electric conductivity. 4. The electric pump as in claim 1 , wherein the stator has a tubular shape, the rotor is disposed at an inner periphery side of the stator, and a liquid discharged from the pump portion flows between the stator and the rotor and is discharged from an upper side of the rotor to outside of the electric pump, and the control circuit is disposed away from one of edges of the stator in an axis direction of the stator and includes an opening that is larger than an internal diameter of the stator. 5. The electric pump as in claim 1 , further comprising: an pressure sensor configured to measure pressure of liquid within the electric pump, wherein the control circuit is configured to control the rotation of the rotor using a measurement result of the pressure sensor. 6. The electric pump as in claim 1 , wherein the controlling circuit has a ring shape, and the heat transferring portion has a ring shape and is disposed concentrically with the control circuit. 7. The electric pump as in claim 1 , wherein the motor portion includes a three-phase motor. 8. The electric pump as in claim 7 , wherein the controlling circuit is configured to transform a direct current into a three-phase alternating current. 9. The electric pump as in claim 1 , further comprising: a discharge opening configured to discharge fuel pressurized in the pump portion, wherein the discharge opening is integrally disposed with the resin cover. 10. An electric pump comprising: a pump portion including an impeller; a motor portion configured to activate the pump portion; and a housing configured to contain the pump portion and the motor portion, wherein the motor portion comprises: a rotor configured to activate the impeller; a stator configured to rotate the rotor; a control circuit configured to control a rotation of the rotor; a resin cover configured to cover the stator; a heat transfer cover covering the control circuit, abutting the control circuit and formed integrally with the housing, thermal conductivity of the heat transfer cover being higher than thermal conductivity of the resin cover, and the heat transfer cover configured to be grounded and disposed an outer side of the electric pump than the control circuit, and the resin cover including a resin portion covering a part of a surface of the heat transfer cover, wherein another part of the surface of the heat transfer cover is exposed to outside of the electric pump.