초록 ▼

The present invention is equipped with: a valve opening/closing timing control mechanism that sets the opening/closing timing of an exhaust valve; and a lock mechanism that holds the rotation phase of the valve opening/closing timing control mechanism in a first lock phase, in which the open state o

The present invention is equipped with: a valve opening/closing timing control mechanism that sets the opening/closing timing of an exhaust valve; and a lock mechanism that holds the rotation phase of the valve opening/closing timing control mechanism in a first lock phase, in which the open state of the exhaust valve is maintained when the intake valve opens.

대표청구항 ▼

1. A control device for an internal combustion engine that includes: a piston that moves between a top dead center and a bottom dead center; a crankshaft; a camshaft; and a combustion chamber, the control device including: an intake valve that opens/closes the combustion chamber such that air flows

1. A control device for an internal combustion engine that includes: a piston that moves between a top dead center and a bottom dead center; a crankshaft; a camshaft; and a combustion chamber, the control device including: an intake valve that opens/closes the combustion chamber such that air flows into the combustion chamber; and an exhaust valve that opens/closes the combustion chamber such that a combustion gas after combustion flows out of the combustion chamber, the control device comprising: a driving rotating body to which a rotational force is transmitted from the crankshaft;a driven rotating body that is housed within the driving rotating body so as to be rotatable relative to the driving rotating body, and that rotates integrally with the camshaft for opening/closing the exhaust valve;a lock mechanism that is switchable between a locked state, in which a relative rotation phase of the driving rotating body and the driven rotating body is held in a predetermined first lock phase, and an unlocked state, with which the locked state is released;a phase control valve that is capable of controlling the relative rotation phase of the driving rotating body and the driven rotating body, and controlling the locked state caused by the lock mechanism, by supplying/discharging a fluid to/from an advancing chamber or a retarding chamber, which are defined between the driving rotating body and the driven rotating body; anda control unit that controls the phase control valve,wherein opening/closing timings of the intake valve and the exhaust valve are set such that an open state of the exhaust valve is maintained when the relative rotation phase is held in the locked state by the lock mechanism and the piston moves from the top dead center toward the bottom dead center, andwherein a valve opening/closing timing control mechanism that includes the driving rotating body, the driven rotating body, and the lock mechanism is provided on an exhaust side, and the first lock phase is set to be an intermediate relative rotation phase. 2. The control device for the internal combustion engine according to claim 1, comprising a temperature sensor that detects an ambient temperature, wherein when the ambient temperature detected by the temperature sensor is lower than a setting value and the internal combustion engine is to be stopped, the internal combustion engine is stopped after the relative rotation phase is switched to the locked state by the control unit controlling the phase control valve. 3. The control device for the internal combustion engine according to claim 2, wherein the lock mechanism is configured to be able to hold the relative rotation phase in a second lock phase, which is a phase that is different from the first lock phase, andwhen the ambient temperature detected by the temperature sensor is greater than or equal to the setting value and the internal combustion engine is to be stopped, the internal combustion engine is stopped after the relative rotation phase transitions to the locked state, in which the relative rotation phase is held in the second lock phase by the control unit controlling the phase control valve. 4. The control device for the internal combustion engine according to claim 1, wherein when the lock mechanism is in a state of holding the relative rotation phase in the first lock phase and the internal combustion engine is started up, the control unit releases the locked state of the lock mechanism upon elapse of a set period of time from startup of the internal combustion engine. 5. The control device for the internal combustion engine according to claim 1, comprising an injector that supplies fuel directly to the combustion chamber. 6. The control device for the internal combustion engine according to claim 1, further comprising a lock control valve, wherein the lock control valve controls the locked state caused by the lock mechanism. 7. The control device for the internal combustion engine according to claim 1, comprising a biasing mechanism that applies a biasing force to the relative rotation phase such that, under an operating condition where no driving force is caused by fluid pressure, the relative rotation phase is displaced in an advance direction against a cam average torque applied from the camshaft. 8. The control device for the internal combustion engine according to claim 7, wherein, under an operating condition where no driving force is caused by fluid pressure, the biasing mechanism applies a biasing force to the relative rotation phase such that, within a range from a range that is on a retard side of the first lock phase to the first lock phase, the relative rotation phase is displaced in an advance direction. 9. The control device for the internal combustion engine according to claim 1, wherein the lock mechanism includes: a lock member that is supported so as to be shiftable with respect to one of the driving rotating body and the driven rotating body; a lock depression that is formed in the other one of the driving rotating body and the driven rotating body, and that the lock member is engageable with; and a biasing member that applies a biasing force to the lock member such that the lock member engages with the lock depression, anda depth of a regulation depression is smaller than a depth of the lock depression, the regulation depression being continuous with the lock depression and regulating the relative rotation phase from being displaced in a retard direction, due to the lock member engaging therewith.