US2011203271A1PendingUtilityA1
Electric motor assisted turbocharger
Est. expiryJan 31, 2023(expired)· nominal 20-yr term from priority
Inventors:Edward Spooner
F01D 15/10Y02T10/12F04D 13/06F02B 37/10F02B 39/10F05D 2220/40F02B 37/025H02K 7/14H02K 17/02
46
PatentIndex Score
0
Cited by
0
References
0
Claims
Abstract
A turbocharger comprises a turbine wheel and a compressor wheel mounted to a turbocharger shaft. An electric induction motor is provided for assisting rotation of the compressor wheel in predetermined circumstances. The motor comprises a fixed stator having motor field coils which generate a rotating magnetic field when energised by an AC control signal which induces eddy current flow in a rotor to generate a rotor magnetic field which in turn interacts with the stator magnetic field producing torque in the rotor.
Claims
exact text as granted — not AI-modified1 . A turbocharger comprising:
a turbine wheel and a compressor wheel mounted to a turbocharger shaft; an electric induction motor for assisting rotation of the compressor wheel in predetermined circumstances, the motor comprising a fixed stator having motor field coils which generate a rotating magnetic field when energised by an AC control signal which induces electric current flow in a rotor to generate a rotor magnetic field which interacts with the stator magnetic field producing torque in the rotor; wherein the electric current flow induced in the rotor which generates said rotor magnetic field comprises eddy currents.
2 . A turbocharger according to claim 1 , wherein the rotor does not include any closed conductor paths within which an electric current circulates.
3 . A turbocharger according to claim 1 or claim 2 , wherein the rotor is non-laminated.
4 . A turbocharger according to claim 1 , wherein the rotor is a solid rotor.
5 . A turbocharger according to claim 1 , wherein the rotor is a unitary member.
6 . A turbocharger according to any preceding claim, wherein the rotor is constructed from a ferromagnetic material.
7 . A turbocharger according to claim 1 , wherein the control signal is a fixed frequency AC control signal such that the motor has a predetermined synchronous speed.
8 . A turbocharger according to claim 1 , wherein the motor is configured as an axial flux motor comprising an annular field coil array positioned adjacent a generally disc shaped rotor.
9 . A turbocharger according to claim 8 , wherein stator coils are adjacent opposing axial surfaces of the rotor.
10 . A turbocharger according to claim 9 , wherein the maximum diameter of the rotor is smaller than the outer diameter of the annular coil array such that eddy currents are induced which flow from one axial side of the rotor to the other across the peripheral edge of the rotor.
11 . A turbocharger according to claim 10 , wherein the rotor tapers radially towards its outer peripheral edge.
12 . A turbocharger according to claim 1 , wherein the motor is configured as a radial flux motor comprising a generally cylindrical rotor surrounded by an annular stator.
13 . A turbocharger according to any preceding claim, wherein the rotor is mounted on the turbocharger shaft.
14 . A turbocharger according to claim 1 , comprising a bearing housing located between the turbine wheel and compressor wheel and housing bearings on which the turbocharger shaft rotates, wherein the electric motor is located within the bearing housing.
15 . A turbocharger according to claim 14 , wherein the rotor is mounted on the turbocharger shaft between bearing assemblies located towards the compressor and turbine ends of the bearing housing respectively.
16 . An AC induction motor comprising a stator having motor field coils which generate a rotating magnetic field when energised by an AC control signal which induces electric current flow in a rotor to generate a rotor magnetic field which interacts with the stator magnetic field to rotate said rotor about an axis, the electric flow induced in the rotor which generates said rotor magnetic field comprising eddy currents, and wherein the field coils are arranged in an annular array adjacent first and second axial surfaces of the rotor and the maximum diameter of the rotor is smaller than the outer diameter of the annular coil array such that eddy currents are induced in the rotor which flow from one axial side of the rotor to the other across the peripheral edge of the rotor.
17 . An AC induction motor according to claim 16 , wherein the rotor tapers radially towards its outer peripheral edge.
18 . An AC induction motor according to claim 16 , wherein the rotor does not include any closed conductor paths within which an electric current circulates.
19 . An AC induction motor according to claim 16 , wherein the rotor is non-laminated.
20 . An AC induction motor according to claim 16 , wherein the rotor is a solid rotor.
21 . An AC induction motor according to claim 16 , wherein the rotor is a unitary member.
22 . An AC induction motor according to claim 16 , wherein the rotor is constructed from a ferromagnetic material.
23 . An AC induction motor according to claim 16 , wherein the motor field coils are energised by a fixed frequency AC control signal such that the motor has a predetermined synchronous speed.Cited by (0)
No later patents cite this yet.
References (0)
No backward citations on record.