Power output apparatus and method of controlling the same
First Claim
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1. A power output apparatus comprising:
- an output shaft for receiving power from an engine;
a drive shaft for transmitting power to a load;
a first motor comprising a first rotor connected with said output shaft of said engine and a second rotor connected with said drive shaft, said second rotor being coaxial to and rotatable relative to said first rotor, said first and second rotors being electromagnetically coupled with each other to transmit power between said output shaft and said drive shaft via the electromagnetic coupling of said first and second rotors;
a first motor-driving circuit that exchanges electric currents with said first motor to vary the electromagnetic coupling of said first rotor with said second rotor;
a second motor comprising a stator and a third rotor connected with said drive shaft, said stator being electromagnetically coupled with said third rotor;
a second motor-driving circuit that exchanges electric currents with said second motor to vary the electromagnetic coupling of said stator with said third rotor;
a storage device that stores electric power; and
a controller that sends signals to said first and second motor-driving circuits to control said second motor-driving circuit to enable said second motor to regenerate electric power, and to control said first motor-driving circuit to supply the regenerated electric power to said first motor to drive said first motor, and to adjust revolving speeds of said drive shaft and said output shaft so that said revolving speed of said drive shaft is higher than said revolving speed of said output shaft.
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Abstract
A power output apparatus (20) of the present invention includes a clutch motor (30), an assist motor (40), and a controller (80) for controlling the clutch motor (30) and the assist motor (40). The clutch motor (30) includes an outer rotor (32) linked with a crankshaft (56) of a gasoline engine (50) and an inner rotor (34) connecting with a drive shaft (22). The assist motor (40) includes a rotor (42) connecting with the drive shaft (22). A control CPU (90) of the controller (80) controls a first driving circuit (91) to make the clutch motor (30) carry out power operation, so that the drive shaft (22) is rotated at a revolving speed higher than that of the crankshaft (56). The control CPU (90) also controls a second driving circuit (92) to make the assist motor (40) carry out regenerative operation. The electric power regenerated by the assist motor (40) is supplied to the clutch motor (30) to cover the electric power consumed by the clutch motor (30). The power output apparatus (20) of the invention transmits or utilizes the power generated by the gasoline engine (50) at a high efficiency and enables the drive shaft (22) to rotate at a revolving speed higher than that of the crankshaft (56).
67 Citations
11 Claims
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1. A power output apparatus comprising:
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an output shaft for receiving power from an engine; a drive shaft for transmitting power to a load; a first motor comprising a first rotor connected with said output shaft of said engine and a second rotor connected with said drive shaft, said second rotor being coaxial to and rotatable relative to said first rotor, said first and second rotors being electromagnetically coupled with each other to transmit power between said output shaft and said drive shaft via the electromagnetic coupling of said first and second rotors; a first motor-driving circuit that exchanges electric currents with said first motor to vary the electromagnetic coupling of said first rotor with said second rotor; a second motor comprising a stator and a third rotor connected with said drive shaft, said stator being electromagnetically coupled with said third rotor; a second motor-driving circuit that exchanges electric currents with said second motor to vary the electromagnetic coupling of said stator with said third rotor; a storage device that stores electric power; and a controller that sends signals to said first and second motor-driving circuits to control said second motor-driving circuit to enable said second motor to regenerate electric power, and to control said first motor-driving circuit to supply the regenerated electric power to said first motor to drive said first motor, and to adjust revolving speeds of said drive shaft and said output shaft so that said revolving speed of said drive shaft is higher than said revolving speed of said output shaft. - View Dependent Claims (2)
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3. A power output apparatus comprising:
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an output shaft for receiving power from an engine; a drive shaft for transmitting power to a load; a first motor comprising a first rotor connected with said output shaft of said engine and a second rotor connected with said drive shaft, said second rotor being coaxial to and rotatable relative to said first rotor, said first and second rotors being electromagnetically coupled with each other to transmit power between said output shaft and said drive shaft via the electromagnetic coupling of said first and second rotors; a first motor-driving circuit that exchanges electric currents with said first motor to vary the electromagnetic coupling of said first rotor with said second rotor; a second motor comprising a stator and a third rotor connected with said drive shaft, said stator being electromagnetically coupled with said third rotor; a second motor-driving circuit that exchanges electric currents with said second motor to vary the electromagnetic coupling of said stator with said third rotor; a storage device that stores electric power; and a controller that sends signals to said first and second motor-driving circuits to control said second motor-driving circuit to enable said second motor to regenerate electric power, and to control said first motor-driving circuit to supply the regenerated electric power and the electric power stored in said storage device to said first motor to drive said first motor, and to adjust revolving speeds of said drive shaft and said output shaft so that said revolving speed of said drive shaft is higher than said revolving speed of said output shaft.
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4. A power output apparatus comprising:
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an output shaft for receiving power from an engine; a drive shaft for transmitting power to a load; a first motor comprising a first rotor connected with said output shaft of said engine and a second rotor connected with said drive shaft, said second rotor being coaxial to and rotatable relative to said first rotor, said first and second rotors being electromagnetically coupled with each other to transmit power between said output shaft and said drive shaft via the electromagnetic coupling of said first and second rotors; a first motor-driving circuit that exchanges electric currents with said first motor to vary the electromagnetic coupling of said first rotor with said second rotor; a second motor comprising a stator and a third rotor connected with said drive shaft, said stator being electromagnetically coupled with said third rotor; a second motor-driving circuit that exchanges electric currents with said second motor to vary the electromagnetic coupling of said stator with said third rotor; a storage device that stores electric power; and a controller that sends signals to said first and second motor-driving circuits to control said second motor-driving circuit to enable said second motor to regenerate electric power, and to control said first motor-driving circuit to supply the regenerated electric power to said first motor to drive said first motor and at least partly to said storage device to be stored, and to adjust revolving speeds of said drive shaft and said output shaft so that said revolving speed of said drive shaft is higher than said revolving speed of said output shaft.
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5. A power output apparatus comprising:
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an output shaft for receiving power from an engine; a drive shaft for transmitting power to a load; a first motor comprising a first rotor connected with said output shaft of said engine and a second rotor connected with said drive shaft, said second rotor being coaxial to and rotatable relative to said first rotor, said first and second rotors being electromagnetically coupled with each other to transmit power between said output shaft and said drive shaft via the electromagnetic coupling of said first and second rotors; a first motor-driving circuit that exchanges electric currents with said first motor to vary the electromagnetic coupling of said first rotor with said second rotor; a second motor comprising a stator and a third rotor connected with said drive shaft, said stator being electromagnetically coupled with said third rotor; a second motor-driving circuit that exchanges electric currents with said second motor to vary the electromagnetic coupling of said stator with said third rotor; a storage device that stores electric power; and a controller that sends signals to said first and second motor-driving circuits to control said first motor-driving circuit to supply the electric power from said storage device to said first motor to drive said first motor, and to adjust revolving speeds of said drive shaft and said output shaft so that said revolving speed of said drive shaft is higher than said revolving speed of said output shaft.
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6. A power output apparatus comprising:
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an output shaft for receiving power from an engine; a drive shaft for transmitting power to a load; a first motor comprising a first rotor connected with said output shaft of said engine and a second rotor connected with said drive shaft, said second rotor being coaxial to and rotatable relative to said first rotor, said first and second rotors being electromagnetically coupled with each other to transmit power between said output shaft and said drive shaft via the electromagnetic coupling of said first and second rotors; a first motor-driving circuit that exchanges electric currents with said first motor to vary the electromagnetic coupling of said first rotor with said second rotor; a second motor comprising a stator and a third rotor connected with said drive shaft, said stator being electromagnetically coupled with said third rotor; a second motor-driving circuit that exchanges electric currents with said second motor to vary the electromagnetic coupling of said stator with said third rotor; a storage device that stores electric power; and a controller that sends signals to said first and second motor-driving circuits to control said second motor-driving circuit to supply the electric power from said storage device to said second motor to drive said second motor, and to control said first motor-driving circuit to supply the electric power from said storage device to said first motor to drive said first motor, and to adjust revolving speeds of said drive shaft and said output shaft so that said revolving speed of said drive shaft is higher than said revolving speed of said output shaft. - View Dependent Claims (7)
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8. A power output apparatus comprising:
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an output shaft for receiving power from an engine; a drive shaft for transmitting power to a load; a storage device for storing power; a first motor comprising a first rotor connected with said output shaft and a second rotor connected with said drive shaft, said second rotor being coaxial to and rotatable relative to said first rotor, said first and second rotors being electromagnetically coupled with each other to transmit power between said output shaft and said drive shaft via the electromagnetic coupling of said first and second rotors; a first motor-driving circuit that exchanges electric currents with said first motor to vary the electromagnetic coupling of said first rotor with said second rotor; a second motor comprising a stator and a third rotor connected with said output shaft said stator being electromagnetically coupled with said third rotor; a second motor-driving circuit that exchanges electric currents with said second motor to vary the electromagnetic coupling of said stator with said third rotor; and a controller that sends signals to said first and second motor-driving circuits to control said second motor-driving circuit to enable said second motor to regenerate electric power, and to control said first motor-driving circuit to supply the regenerated electric power to said first motor to drive said first motor, and to adjust revolving speeds of said drive shaft and said output shaft so that said revolving speed of said drive shaft is higher than said revolving speed of said output shaft. - View Dependent Claims (9)
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10. A power output apparatus comprising:
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an output shaft for receiving power from an engine; a drive shaft for transmitting power to a load; a storage device for storing power; a first motor comprising a first rotor connected with said output shaft and a second rotor connected with said drive shaft, said second rotor being coaxial to and rotatable relative to said first rotor, said first and second rotors being electromagnetically coupled with each other to transmit power between said output shaft and said drive shaft via the electromagnetic coupling of said first and second rotors; a first motor-driving circuit that exchanges electric currents with said first motor to vary the electromagnetic coupling of said first rotor with said second rotor; a second motor comprising a stator and a third rotor connected with said output shaft said stator being electromagnetically coupled with said third rotor; a second motor-driving circuit that exchanges electric currents with said second motor to vary the electromagnetic coupling of said stator with said third rotor; and a controller that sends signals to said first and second motor-driving circuits to control said second motor-driving circuit to supply the electric power from said storage device to said second motor to drive said second motor, and to control said first motor-driving circuit to supply the electric power from said storage device to said first motor to drive said first motor, and to adjust revolving speeds of said drive shaft and said output shaft so that said revolving speed of said drive shaft is higher than said revolving speed of said output shaft. - View Dependent Claims (11)
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Specification
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Current AssigneeToyota Jidosha Kabushiki Kaisha (Toyota Motor Corporation)
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Original AssigneeToyota Jidosha Kabushiki Kaisha (Toyota Motor Corporation)
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InventorsYamada, Eiji, Kawabata, Yasutomo, Toh, Ryuji, Mizutani, Ryouji, Miyatani, Takao
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Primary Examiner(s)Cabeca, John W.
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Application NumberUS08/638,210Time in Patent Office1,117 DaysField of Search318/146, 318/56, 318/63, 318/432, 318/9, 318/10, 318/50, 318/87, 318/67, 318/140, 477/5, 477/13, 477/15, 477/8, 477/20, 477/30, 477/179, 364/424.1, 364/424.026, 364/426, 310/92, 310/102 R, 310/95, 180/65.1, 180/65.2, 180/65.3, 180/270US Class Current318/50CPC Class CodesB60K 17/356 having fluid or electric mo...B60K 2006/262 the motor or generator are ...B60K 23/0808 for varying torque distribu...B60K 6/22 characterised by apparatus,...B60K 6/26 characterised by the motors...B60K 6/365 with the gears having orbit...B60K 6/40 characterised by the assemb...B60K 6/448 Electrical distribution typeB60K 6/52 Driving a plurality of driv...B60L 2220/52 Clutch motorsB60L 2240/421 SpeedB60L 2240/423 TorqueB60L 2240/486 Operating parametersB60L 2260/28 Four wheel or all wheel driveB60L 50/16 with provision for separate...B60L 50/61 by batteries charged by eng...B60L 7/003 Dynamic electric braking by...B60L 7/14 for vehicles propelled by a...B60W 10/06 including control of combus...B60W 10/08 including control of electr...View All
