A hybrid vehicle including an engine, a generator capable of generating power by being driven by the engine, an electric motor capable of running on power supplied from the generator, a power split device that transmits output from the engine to a driving wheel and the generator and also transmits o
A hybrid vehicle including an engine, a generator capable of generating power by being driven by the engine, an electric motor capable of running on power supplied from the generator, a power split device that transmits output from the engine to a driving wheel and the generator and also transmits output from the electric motor to the driving wheel, and a main ECU that controls an output ratio of the engine and an output ratio of the electric motor using the power split device according to the running state of the vehicle. When the operating mode of the engine is switched between a lean burn operating mode and a stoichiometric burn operating mode, the main ECU selectively increases and decreases the output ratio of the electric motor so that the total output, which is the combined output of the engine and the electric motor, is constant.
대표청구항▼
1. A hybrid vehicle comprising: an engine;an electric motor;a power transmitting portion, including a planetary gear unit, that transmits output from the engine to a driving wheel and transmits output from the electric motor to the driving wheel;an electronic control unit (ECU) including an output c
1. A hybrid vehicle comprising: an engine;an electric motor;a power transmitting portion, including a planetary gear unit, that transmits output from the engine to a driving wheel and transmits output from the electric motor to the driving wheel;an electronic control unit (ECU) including an output control portion having instructions, which, when implemented, control an output ratio of the engine and an output ratio of the electric motor using the power transmitting portion according to a running state of the vehicle; anda NOX storage reduction catalyst provided in an exhaust passage of the engine;a three-way catalyst provided upstream, in a direction in which exhaust gas flows, of the NOX storage reduction catalyst in the exhaust passage of the engine,wherein the ECU further includes an operating mode switching portion having instructions, which, when implemented, switch an operating mode of the engine between a lean burn operating mode in which an air-fuel ratio of the engine is lean, a stoichiometric burn operating mode in which the air-fuel ratio of the engine is near a stoichiometric air-fuel ratio, and a rich burn operating mode in which the air-fuel ratio of the engine is rich,wherein the output control portion has further instructions, which, when implemented, increase the output ratio of the electric motor and delays a timing at which an increase of the output of the electric motor is started with respect to a timing at which the operating mode is switched by a predetermined period of time, the predetermined period of time being an amount of time required for exhaust gas for recovering the NOX storage reduction catalyst to reach the NOX storage reduction catalyst, when the operating mode switching portion executes a rich spike control that reduces NOX stored in the NOX storage reduction catalyst and recovers the NOX storage reduction catalyst by switching the operating mode to the rich burn operating mode, andwherein the output control portion has further instructions, which, when implemented, make a speed of the engine constant for a predetermined period of time and selectively increase or decrease the output of the electric motor when the operating mode is switched by the operating mode switching portion. 2. The hybrid vehicle according to claim 1, wherein the output control portion has further instructions, which, when implemented, increase the output of the electric motor while keeping the speed of the engine constant when the operating mode is switched from the lean burn operating mode to the stoichiometric burn operating mode by the operating mode switching portion. 3. The hybrid vehicle according to claim 1, wherein the output control portion has further instructions, which, when implemented, decrease the output of the electric motor while keeping the speed of the engine constant when the operating mode is switched from the stoichiometric burn operating mode to the lean burn operating mode by the operating mode switching portion. 4. The hybrid vehicle according to claim 1, wherein the output control portion has further instructions, such that, when implemented, prior to the operating mode being switched from the lean burn operating mode to the stoichiometric burn operating mode by the operating mode switching portion, the output control portion makes a change in output of the engine and the electric motor by decreasing the output of the electric motor and increasing the output of the engine, while keeping the speed of the engine constant, and wherein the output control portion has further instructions, such that, when implemented, when the change in output of the engine and the electric motor is completed, the output control portion switches the operating mode from the lean burn operating mode to the stoichiometric burn operating mode by the operating mode switching portion. 5. The hybrid vehicle according to claim 1, wherein the output control portion has further instructions, such that, when implemented, after the operating mode is switched from the stoichiometric burn operating mode back to the lean burn operating mode by the operating mode switching portion, the output control portion increases the output of the electric motor and decreases the output of the engine, while keeping the speed of the engine constant. 6. A control method of a hybrid vehicle including an engine; an electric motor; a power transmitting portion that transmits output from the engine to a driving wheel and that transmits output from the electric motor to the driving wheel; a NOX storage reduction catalyst provided in an exhaust passage of the engine; a three-way catalyst provided upstream, in a direction in which exhaust gas flows, of the NOX storage reduction catalyst in the exhaust passage of the engine; and an output control portion that controls an output ratio of the engine and an output ratio of the electric motor using the power transmitting portion according to a running state of the vehicle, the output control portion switching an operating mode of the engine between a lean burn operating mode in which an air-fuel ratio of the engine is lean, a stoichiometric burn operating mode in which the air-fuel ratio of the engine is near a stoichiometric air-fuel ratio, and a rich burn operating mode in which the air-fuel ratio of the engine is rich, the control method comprising: executing rich spike control that reduces NOX stored in the NOX storage reduction catalyst and recovers NOX storage reduction catalyst by switching the operating mode to the rich burn operating mode; andwhen executing the rich spike control, increasing the output ratio of the electric motor and delaying, by a predetermined period of time, a timing at which an increase of the output of the electric motor is started with respect to a timing at which the operating mode is switched, the predetermined period of time being an amount of time required for exhaust gas for recovering the NOX storage reduction catalyst to reach the NOX storage reduction catalyst, andwhen the operating mode is switched, making a speed of the engine constant for a predetermined period of time and selectively increasing or decreasing the output of the electric motor via the output control portion.
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이 특허에 인용된 특허 (3)
Murata Hiroki,JPX ; Sasaki Shizuo,JPX, Compression ignition type engine.
Wakashiro, Teruo; Izumiura, Atsushi; Nakaune, Kan; Iwamoto, Takashi; Ukai, Asao; Kumagai, Katsuhiro, Control system for a hybrid vehicle in which output from the engine is assisted by the motor based on air-fuel ratio determination.
Shiraishi, Takuya; Nogi, Toshiharu; Oosuga, Minoru; Sukegawa, Yoshihiro, Hybrid vehicle driven by composit torque generated by an internal-combustion engine and an electric motor, and method of operating same.
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