Patent application number | Description | Published |
20130174809 | FUEL SUPPLY SYSTEM FOR INTERNAL COMBUSTION ENGINE - A fuel supply system for an internal combustion engine capable of executing calculation of an energization time of the electromagnetic valve at proper timing and thereby properly controlling the amount of fuel to be discharged from the fuel pump toward a fuel injection valve. In the fuel supply system, when a predetermined timing corresponding to a predetermined crank angle position of the engine deviates from a predetermined cam angle timing which is within a predetermined time period including a timing at which a top of a cam nose of the driving cam is abutting a plunger, and preceding and following the timing, and corresponds to a predetermined rotational angle position of the driving cam, the calculation timing of the energization time is corrected such that the calculation timing is made closer to the cam angle timing. | 07-11-2013 |
20140000572 | INTERNAL EGR AMOUNT CALCULATION DEVICE FOR INTERNAL COMBUSTION ENGINE | 01-02-2014 |
20140007854 | INTERNAL EGR AMOUNT CALCULATION DEVICE FOR INTERNAL COMBUSTION ENGINE - An internal EGR amount calculation device for an internal combustion engine, which is capable of properly and easily calculating an internal EGR amount according to the change in the valve timing and enhancing the calculation accuracy of the internal EGR amount. The device includes an ECU. The ECU calculates an amount of burned gases remaining in a cylinder when the valve timing is predetermined reference timing, as a reference internal EGR amount. The ECU calculates a change in the amount of burned gases flowing into or out of the cylinder with respect to the amount of burned gases flowing into or out of the cylinder when the valve timing is the predetermined reference timing, as an internal EGR increase/decrease amount. Then, the ECU calculates the internal EGR amount by adding the internal EGR increase/decrease amount to the reference internal EGR amount. | 01-09-2014 |
20140007855 | INTERNAL EGR AMOUNT CALCULATION DEVICE FOR INTERNAL COMBUSTION ENGINE - An internal EGR amount calculation device for an internal combustion engine, which is capable of properly and easily calculating an internal EGR amount, thereby making it possible to achieve improvement of calculation accuracy and reduction of computational load, even when the degree of fluctuation in an exhaust pressure during a valve overlap time period is large. The internal EGR amount calculation device of the engine includes an ECU. The ECU calculates a minimum exhaust pressure which is a minimum value of an exhaust pressure during the valve overlap time period, and calculates a blown back gas amount according to the minimum exhaust pressure. Further, the ECU calculates an average exhaust pressure and calculates a remaining gas amount according to the average exhaust pressure. Then, the ECU calculates the internal EGR amount based on the remaining gas amount and the blown back gas amount. | 01-09-2014 |
20140020656 | SCAVENGED GAS AMOUNT CALCULATION DEVICE AND INTERNAL EGR AMOUNT CALCULATION DEVICE FOR INTERNAL COMBUSTION ENGINE - A scavenged gas amount calculation device for an internal combustion engine, which is capable of accurately calculating a scavenged gas amount under conditions where scavenged gases are produced during a valve overlap time period, and an internal EGR amount calculation device for the engine, which is capable of calculating an internal EGR amount using the scavenged gas amount thus calculated. The internal EGR amount calculation device includes an ECU. The ECU calculates a basic blown-back gas amount using an average intake pressure, a maximum exhaust pressure, and a correction coefficient (step 6), calculates a scavenged gas amount using the average intake pressure, a minimum exhaust pressure, and a scavenge ratio (step 8), calculates a blown-back gas amount by correcting the basic blown-back gas amount by the scavenged gas amount (step 11), and calculates the internal EGR amount according to the blown-back gas amount (step 12). | 01-23-2014 |
20140172278 | INTERNAL EGR AMOUNT CALCULATION DEVICE FOR INTERNAL COMBUSTION ENGINE - An internal EGR amount calculation device for an internal combustion engine, which is capable of improving calculation accuracy of an internal EGR amount in a case where a valve overlap time period is changed. The internal EGR amount calculation device for an internal combustion engine of which the internal EGR amount is changed according to the valve overlap time period calculates an in-cylinder volume at a blow-back occurrence timing, which is a timing in which blow-back of exhaust gases from an exhaust passage into a cylinder occurs after the intake valve is opened, during the valve overlap time period, according to engine speed and an intake cam phase, calculates a remaining gas amount according to the in-cylinder volume, and calculates the internal EGR amount by adding a blown-back gas amount to the remaining gas amount. | 06-19-2014 |
20150184601 | CONTROL SYSTEM FOR INTERNAL COMBUSTION ENGINE - A control system for an internal combustion engine having a throttle valve disposed in an intake passage of the engine. A target intake air amount of the engine is calculated, and an intake pressure of the engine is estimated. A wide-open intake air amount is calculated according to the engine rotational speed, and a theoretical intake air amount is calculated according to the wide-open intake air amount and the intake pressure. The wide-open intake air amount is an intake air amount corresponding to a state where the throttle valve is fully opened, and the theoretical intake air amount is an intake air amount corresponding to a state where no exhaust gas of the engine is recirculated to a combustion chamber of the engine. further, an exhaust gas recirculation ratio is calculated using the theoretical intake air amount and the target intake air amount, and a target output torque of the engine is calculated using the target intake air amount and the exhaust gas recirculation ratio. The engine is controlled using the target output torque. | 07-02-2015 |
20150184602 | CONTROL SYSTEM FOR INTERNAL COMBUSTION ENGINE - A control system for an internal combustion engine having a throttle valve disposed in an intake passage of the engine. A target intake air amount of the engine is calculated, and an intake pressure of the engine is estimated. A wide-open intake air amount is calculated according to the engine rotational speed, and a theoretical intake air amount is calculated according to the wide-open intake air amount and the intake pressure. The wide-open intake air amount is an intake air amount corresponding to a state where the throttle valve is fully opened, and the theoretical intake air amount is an intake air amount corresponding to a state where no exhaust gas of the engine is recirculated to a combustion chamber of the engine. further, an exhaust gas recirculation ratio is calculated using the theoretical intake air amount and the target intake air amount, and a target output torque of the engine is calculated using the target intake air amount and the exhaust gas recirculation ratio. The engine is controlled using the target output torque. | 07-02-2015 |
20150184608 | CONTROL SYSTEM FOR INTERNAL COMBUSTION ENGINE - A control system for an internal combustion engine having a throttle valve disposed in an intake passage of the engine. A target intake air amount of the engine is calculated, and an intake pressure of the engine is estimated. A wide-open intake air amount is calculated according to the engine rotational speed, and a theoretical intake air amount is calculated according to the wide-open intake air amount and the intake pressure. The wide-open intake air amount is an intake air amount corresponding to a state where the throttle valve is fully opened, and the theoretical intake air amount is an intake air amount corresponding to a state where no exhaust gas of the engine is recirculated to a combustion chamber of the engine. further, an exhaust gas recirculation ratio is calculated using the theoretical intake air amount and the target intake air amount, and a target output torque of the engine is calculated using the target intake air amount and the exhaust gas recirculation ratio. The engine is controlled using the target output torque. | 07-02-2015 |