An engine provided with a variable parallel supercharging system (9) comprising a first supercharger (10) which is driven by exhaust gas which flows in a first exhaust gas route (41) and which pressurizes intake air which flows in a first intake air route (3) and also comprising a second supercharge
An engine provided with a variable parallel supercharging system (9) comprising a first supercharger (10) which is driven by exhaust gas which flows in a first exhaust gas route (41) and which pressurizes intake air which flows in a first intake air route (3) and also comprising a second supercharger (20) which is driven by exhaust gas which flows in a second exhaust gas route (42) and which pressurizes intake air which flows in a second intake air route (4), a supercharging pressure sensor (63) for detecting the pressure of the pressurized intake air, a first supercharger rotation sensor (61) for detecting the rotational speed of the first supercharger (10), a second supercharger rotation sensor (62) for detecting the rotational speed of the second supercharger (20), a first variable actuator (14) for adjusting the capacity of the first supercharger (10), a second variable actuator (24) for adjusting the capacity of the second supercharger (20), and a control device for controlling each of the variable actuators (14, 24). The control device controls the first variable actuator (14) based on detection signals from the supercharging pressure sensor (63) and the first supercharger rotation sensor (61) and controls the second variable actuator (24) based on detection signals from the supercharging pressure sensor (63) and the second supercharger rotation sensor (62).
대표청구항▼
1. An engine in which intake air distributed to cylinders is supplied through a first intake path and a second intake path, and exhaust gas collected from the cylinders is discharged through a first exhaust path and a second exhaust path, comprising:a variable parallel supercharging system comprisin
1. An engine in which intake air distributed to cylinders is supplied through a first intake path and a second intake path, and exhaust gas collected from the cylinders is discharged through a first exhaust path and a second exhaust path, comprising:a variable parallel supercharging system comprising a first supercharger which is driven by exhaust gas flowing in the first exhaust path and pressurizes intake air flowing in the first intake path, and a second supercharger which is driven by exhaust gas flowing in the second exhaust path and pressurizes intake air flowing in the second intake path;a supercharging pressure sensor detecting pressure of the intake air pressurized by the first supercharger and the second supercharger;a first supercharger rotation sensor detecting supercharger rotational speed of the first supercharger:a second supercharger rotation sensor detecting supercharger rotational speed of the second supercharger;a first variable actuator controlling capacity of the first supercharger;a second variable actuator controlling capacity of the second supercharger;a control device comprising a central processing unit and memory, the control device configured to enable the first variable actuator and the second variable actuator to be controlled,wherein the control device is configured to control the first variable actuator based on detection signals from the supercharging pressure sensor, the second supercharger rotation sensor, and the first supercharger rotation sensor, and is configured to control the second variable actuator based on detection signals from the supercharging pressure sensor, the first supercharger rotation sensor, and the second supercharger rotation sensor,wherein the control device is configured to control the first variable actuator until a first condition is satisfied, wherein the control device is configured to control the second variable actuator until a second condition is satisfied, and wherein the control device is configured to control the first variable actuator and the second variable actuator until a third condition is satisfied. 2. The engine according to claim 1, further comprising: a bypass path connecting the part of the first exhaust path upstream the first supercharger to the part of the second exhaust path upstream the second supercharger;a bypasses flow rate control valve controlling flow rate of exhaust gas flowing in the bypass path; anda control device configured to enable the first variable actuator, the second variable actuator and the bypasses flow rate control valve to be controlled,wherein the control device is configured to control the first variable actuator based on detection signals from the supercharging pressure sensor and the first supercharger rotation sensor, is configured to control the second variable actuator based on detection signals from the supercharging pressure sensor and the second supercharger rotation sensor, and is configured to control the bypass flow rate control valve based on detection signals from the supercharging pressure sensor, the first supercharger rotation sensor and the second supercharger rotation sensor. 3. The engine according to claim 1, wherein the capacity of the first supercharger and the second supercharger are different when at an operation state. 4. The engine according to claim 1, wherein the second supercharger has greater capacity than the first supercharger at an operation state, and wherein the control device is configured to control the capacity of the second supercharger based on detection signals from the supercharging pressure sensor and the second supercharger rotation sensor by controlling the second variable actuator such that the second supercharger is configured to perform the same as the first supercharger. 5. The engine according to claim 1, wherein the first condition is satisfied when an absolute value of a difference between a first supercharger rotation speed detected by the first supercharger rotation sensor and a target supercharger rotation speed is smaller than a predetermined value. 6. The engine according to claim 1, wherein the second condition is satisfied when an absolute value of a difference between a second supercharger rotation speed detected by the second supercharger rotation sensor and a target supercharger rotation speed is smaller than a predetermined value. 7. The engine according to claim 1, wherein the third condition is satisfied when a supercharging pressure detected by the supercharging pressure and a target supercharging pressure is smaller than a predetermined value. 8. The engine according to claim 1, wherein the control device is configured to control the first variable actuator and the second variable actuator until the first condition and the third condition are satisfied at the same time. 9. The engine according to claim 1, wherein the control device is configured to control the first variable actuator and the second variable actuator until the second condition and the third condition are satisfied at the same time. 10. The engine according to claim 1, wherein the control device is configured to control the first variable actuator and the second variable actuator until the first condition, the second condition, and the third condition are satisfied at the same time.
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이 특허에 인용된 특허 (17)
Dungner Stefan,SEX, Arrangement for return of exhaust gases in supercharged engines with parallel turbines.
Backlund Ove (Vastra Frolunda SEX) Dahlgren Mats (Stockholm SEX) Rydquist Jan-Erling (Kullavik SEX) Sandberg Lars (Gothenburg ; all og SEX), Method and a device for regulation of a turbo-charging device.
Regar Karl-Nikolaus (Rebhuhnweg 3 8000 Mnchen 60 DEX), Method of operating an internal combustion engine and an internal combustion engine designed for carrying out this metho.
Okamoto, Toshiaki; Oguma, Tomio; Kaga, Matasaburo, Supercharged internal combustion engine having control means responsive to engine speed and accelerator pedal velocity.
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