An electric motor vehicle coolant pump for cooling an internal combustion engine of a motor vehicle includes a pump housing and a rotor rotatably supported in the pump housing. The rotor comprises a motor rotor configured to be substantially pot-shaped. The motor rotor comprises a pot bottom and a f
An electric motor vehicle coolant pump for cooling an internal combustion engine of a motor vehicle includes a pump housing and a rotor rotatably supported in the pump housing. The rotor comprises a motor rotor configured to be substantially pot-shaped. The motor rotor comprises a pot bottom and a ferromagnetic substance so as to be magnetized in at least a bipolar manner. A pump rotor comprises a plurality of rotor blades and an annular cover ring arranged on distal ends of the plurality of rotor blades. The plurality of rotor blades are configured to stand directly on the pot bottom of the motor rotor. The pump rotor and the motor rotor are each integral plastic material parts separately produced by an injection molding. The pump rotor and the motor rotor are made from different materials. The pump rotor is not ferromagnetic.
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1. An electric motor vehicle coolant pump for cooling an internal combustion engine of a motor vehicle, the electric motor vehicle coolant pump comprising: a pump housing; anda rotor rotatably supported in the pump housing, the rotor comprising: a motor rotor configured to be substantially pot-shape
1. An electric motor vehicle coolant pump for cooling an internal combustion engine of a motor vehicle, the electric motor vehicle coolant pump comprising: a pump housing; anda rotor rotatably supported in the pump housing, the rotor comprising: a motor rotor configured to be substantially pot-shaped, the motor rotor comprising a pot bottom and a ferromagnetic substance so as to be magnetized in at least a bipolar manner, the ferromagnetic substance being homogenously dispersed throughout the motor rotor, anda pump rotor comprising a plurality of rotor blades and an annular cover ring arranged on distal ends of the plurality of rotor blades, the plurality of rotor blades being configured to stand directly on the pot bottom of the motor rotor,wherein,the pump rotor and the motor rotor are each integral plastic material parts separately produced by an injection molding,the pump rotor and the motor rotor are made from different materials, andthe pump rotor is not ferromagnetic. 2. The electric motor vehicle coolant pump as recited in claim 1, wherein the motor rotor further comprises a cylindrical opening on an axial line. 3. The electric motor vehicle coolant pump as recited in claim 2, wherein the motor rotor further comprises a separate cylindrical bearing bush in the cylindrical opening. 4. The electric motor vehicle coolant pump as recited in claim 1, wherein each of the plurality of rotor blades has an axial proximal rotor blade end, and wherein the motor rotor further comprises axial depressions in the pot bottom, the axial depressions being configured to receive the axial proximal rotor blade ends. 5. The electric motor vehicle coolant pump as recited in claim 1, wherein the pot bottom of the motor rotor comprises axial receiving openings, and wherein the plurality of rotor blades further comprise axial bearing pins configured to sit in the axial receiving openings. 6. The electric motor vehicle coolant pump as recited in claim 1, wherein the pump rotor further comprises a cylindrical bearing bush formed integrally with the pump rotor. 7. The electric motor vehicle coolant pump as recited in claim 1, wherein the motor rotor further comprises a hub with at least one axial tappet recess, the pump rotor further comprises a hub with an axial tappet pin, and wherein the at least one axial tappet recess is configured to cooperate with the axial tappet pin. 8. The electric motor vehicle coolant pump as recited in claim 1, wherein the pump rotor and the motor rotor are joined by a welding connection. 9. The electric motor vehicle coolant pump as recited in claim 1, wherein the pump rotor and the motor rotor are joined by a latch connection. 10. The electric motor vehicle coolant pump as recited in claim 1, wherein the pump rotor is made from a carbon fiber reinforced composite material. 11. The electric motor vehicle coolant pump as recited in claim 10, wherein the carbon fiber reinforced composite material comprises polytetrafluoroethylene or a graphite. 12. The electric motor vehicle coolant pump as recited in claim 1, wherein the pot bottom is substantially funnel-shaped. 13. An electric motor vehicle coolant pump for cooling an internal combustion engine of a motor vehicle, the electric motor vehicle coolant pump comprising: a pump housing; anda rotor rotatably supported in the pump housing, the rotor consisting of: a motor rotor configured to be substantially pot-shaped, the motor rotor comprising a pot bottom, the motor rotor being an integral plastic material part made of a material consisting of plastic and a ferromagnetic substance so as to be magnetized in at least a bipolar manner, the ferromagnetic substance being homogenously dispersed throughout the motor rotor, anda pump rotor comprising a plurality of rotor blades and an annular cover ring arranged on distal ends of the plurality of rotor blades, the plurality of rotor blades being configured to stand directly on the pot bottom of the motor rotor, the pump rotor being an integral plastic material part,wherein,the pump rotor and the motor rotor are each separately produced by an injection molding,the pump rotor and the motor rotor are made from different materials, andthe pump rotor is not ferromagnetic. 14. An electric motor vehicle coolant pump for cooling an internal combustion engine of a motor vehicle, the electric motor vehicle coolant pump comprising: a pump housing; anda rotor rotatably supported in the pump housing, the rotor comprising: a motor rotor configured to be substantially pot-shaped, the motor rotor comprising a pot bottom and a ferromagnetic substance so as to be magnetized in at least a bipolar manner, the ferromagnetic substance being homogenously dispersed throughout the motor rotor, anda pump rotor comprising a plurality of rotor blades and an annular cover ring arranged on distal ends of the plurality of rotor blades, the plurality of rotor blades being configured to stand directly on the pot bottom of the motor rotor,wherein,the pump rotor and the motor rotor are each integral plastic material parts separately produced by an injection molding,the pump rotor and the motor rotor are made from different materials,the pump rotor is not ferromagnetic,each of the plurality of rotor blades has an axial proximal rotor blade end, andthe motor rotor further comprises axial depressions in the pot bottom, the axial depressions being configured to receive the axial proximal rotor blade ends.
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이 특허에 인용된 특허 (20)
Alex Petrinko, Brushless electric exciter for dynamoelectric machines.
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