Class / Patent application number | Description | Number of patent applications / Date published |
123347000 | By changing valve timing | 31 |
20080302330 | Engine System and Method for Controlling the Same - When a command to stop an engine is issued, it is determined whether a current state is a speed reduction enabled state where an intake valve phase is brought into a phase region, in which speed reduction ratio is high, by the time the engine is stopped if an engine speed reduction control according to a predetermined speed reduction pattern is started at the present moment. If it is determined the current state is not the speed reduction enabled state, starting of the engine speed reduction control is not permitted, or the engine speed reduction control is restricted by reducing the deceleration, and then an intake valve phase control is executed. Thus, a required length of time before the engine is stopped is ensured, namely, a required length of period in which the intake valve phase is changed is ensured. | 12-11-2008 |
20090255510 | VARIABLE VALVE TIMING APPARATUS AND METHOD OF DETECTING VALVE PHASE THEREOF - When the engine speed is high (determination of YES at S | 10-15-2009 |
20090301434 | Method for operating an internal combustion engine - In a method for operating an internal combustion engine, particularly an Otto engine having direct gasoline injection in controlled self-ignition, the internal combustion engine including a combustion chamber, at least one intake valve and at least one exhaust valve, whose opening times are variable, and a fuel-air-exhaust gas mixture is introduced into a combustion chamber and is compressed in a compression stroke; the fuel-air mixture self-igniting towards the end of the compression stroke, a controlled self-ignition is made possible in wide load ranges by varying the opening times of the intake valve and the exhaust valve as a function of the load. | 12-10-2009 |
20090320792 | EXHAUST GAS REFLUX MECHANISM FOR MULTIPURPOSE ENGINE - An exhaust gas reflux mechanism for a multipurpose engine includes an exhaust reflux cam formed as an integral part of an single cam of the engine and having a cam lobe profiled to open an exhaust valve while an intake valve stays open during the intake stroke of the engine so that part of an exhaust gas remaining on the side of an exhaust port of the engine is drawn into a combustion chamber during the intake stroke. | 12-31-2009 |
20100006063 | Internal Combustion Engine Having an Engine Brake Device - An internal combustion engine including at least one exhaust valve for withdrawal of exhaust gas from at least one combustion chamber, and an engine brake device having a hydraulic valve auxiliary control unit by means of which the exhaust valve can be held in a temporarily open position when the engine brake device is actuated. The engine also includes a hydraulic valve play compensation mechanism for the exhaust valve, and an oil channel that for supplying oil to the valve auxiliary control unit is formed between the latter and the valve play compensation mechanism. For compensation of valve play of the exhaust valve, the oil channel can be closed off via a closure unit. | 01-14-2010 |
20100126463 | Engine control system having speed-based timing - A control system for an engine having a cylinder is disclosed having an engine valve movable to regulate a fluid flow of the cylinder and an actuator associated with the engine valve. The control system also has a controller in communication with the actuator. The controller is configured to receive a signal indicative of engine speed and compare the engine speed signal with a desired engine speed. The controller is also configured to selectively regulate the actuator to adjust a timing of the engine valve to control an amount of air/fuel mixture delivered to the cylinder based on the comparison. | 05-27-2010 |
20100154740 | VARIABLE VALVE TIMING MECHANISM CONTROL APPARATUS AND CONTROL METHOD - A variable valve timing mechanism control apparatus which enables a valve timing of an intake valve of an internal combustion engine and a valve timing of an exhaust valve of the internal combustion engine to be varied individually, prohibits a change in the valve timing of the intake valve and changes only the valve timing of the exhaust valve when a valve overlap amount is negative. As a result, the required ignition timing will not change in a complex manner in the region where the valve overlap amount is negative so the ignition timing can be easily optimized even when the valve overlap amount is negative. | 06-24-2010 |
20100199950 | COMPRESSOR CONTROL FOR DETERMINING MAXIMUM PRESSURE, MINIMUM PRESSURE, ENGINE SPEED, AND COMPRESSOR LOADING - A load control system, in certain aspects, may be configured to decrease the amount of noise pollution of a prime mover (e.g., engine) of a service pack in that it may not require the prime mover to operate at higher discrete operating speeds to deliver small amounts of air from the air compressor. The load control system may also only increase the speed of the prime mover to a minimum discrete speed required, keeping noise at a minimum. The load control system may also maximize fuel efficiency by not operating the prime mover at the highest discrete speed at all times. More specifically, the lower operating speeds may lead to less fuel consumption. | 08-12-2010 |
20120222651 | Backwards Injected Engine - Fuel is injected into and through the exhaust port and into the cylinder of the piston engine during the time when the flow is reversed from the normally expected flow. The engine is able to operate with some or all of its fuel injected backwards of conventional expectations. In another embodiment the fuel is injected with solid stream injector sprays directed against exhaust valves and ports and deflected into the piston cylinder against the flow of normally aspirated or supercharged engines. This invention can apply to gasoline or diesel cycles and four and two stroke type cycles of engine. | 09-06-2012 |
20120222652 | DEVICE AND METHOD FOR CONTROLLING INTERNAL COMBUSTION ENGINE - In a hybrid vehicle including an engine provided with a plurality of VVTs (variable valve timing mechanisms) as one motive power source, an ECU increments a time lapse counter when a sensor detects the fact that a greatest-retard command has been output to all VVTs and an operation position of each VVT has actually returned to a greatest-retard position in response to the greatest-retard command. The ECU determines whether count by the time lapse counter has exceeded a predetermined defined time or not, and it does not permit engine stop until count by the time lapse counter reaches the predetermined defined time and permits engine stop when count by the time lapse counter has exceeded the predetermined defined time. | 09-06-2012 |
20120291750 | START CONTROL DEVICE FOR INTERNAL COMBUSTION ENGINE - A start control device for an internal combustion engine controls a starting manner of the engine having a hydraulic variable mechanism, which fixes valve timing at a middle angle. Specifically, with the engine speed during cranking when the valve timing is not fixed at the middle angle defined as a first engine speed and the engine speed during cranking when the valve timing is fixed at the middle angle defined as a second engine speed, the start control device performs starting control for decreasing the first engine speed compared to the second engine speed during engine starting. As a result, the valve timing is fixed at the middle angle at increased frequency. | 11-22-2012 |
20130220273 | CONTROL DEVICE FOR ENGINE | 08-29-2013 |
20130306026 | CONTROL DEVICE FOR INTERNAL COMBUSTION ENGINE - A control device calculates a maximum amount of increase in an intake pipe pressure in a Δt obtained by moving a throttle to an opening side at a maximum speed, and calculates a maximum amount of decrease in an intake pipe pressure in the Δt obtained by moving the throttle to a closing side at a maximum speed. Then, command values for each of a VVT and a WGV are determined such that an amount of change in an intake pipe pressure in the Δt required to achieve a target intake air amount falls within a range from the maximum amount of decrease to the maximum amount of increase. Then, a target opening for the throttle for a purpose of achieving the target intake air amount is calculated on the basis of command values that have been determined for the VVT and the WGV. | 11-21-2013 |
20140123940 | DIAGNOSTIC FOR ENGINE CAM PROFILE SWITCHING SYSTEM - A momentary diagnostic for determining correct operation of a cam profile switching system of an internal combustion engine by calculation of changes in cylinder bank to bank air mass flow ratios: operating said engine in one condition of the cam profile switching system; providing for a first cylinder subset the inlet fuel flow and the corresponding oxygen content of the exhaust flow, and calculating the mass of air passing through the first cylinder subset in a defined time period; providing for a second cylinder subset the inlet fuel flow and the corresponding oxygen content of the exhaust flow; calculating the mass of air passing through the second cylinder subset in said defined time period; comparing the mass air flow the oxygen content for the first and second cylinder subsets to give a standard ratio; momentarily forcing the cam profile switching system of one of said cylinder subsets to an alternative condition; re-calculating providing the corresponding mass of air oxygen content passing through the first and second cylinder subsets; and comparing said recalculated air flows oxygen contents to give a revised ratio; and comparing said standard ratio and revised ratio. | 05-08-2014 |
20140182546 | CONTROL SYSTEM AND METHOD FOR CONTINUOUSLY VARIABLE VALVE LIFT APPARATUS - A method of controlling a continuously variable valve lift apparatus, may include determining a desired valve lift of the continuously variable valve lift apparatus based on a driving status, determining a first correction factor based on the driving status, determining a second correction factor based on an amount of air flowing into an engine, determining a final correction factor from the first correction factor and the second correction factor, determining a critical value of operation inclination of the valve lift from the final correction factor and an operation status of a transmission, and controlling the operation of the continuously variable valve lift apparatus on the basis of the determined desired valve lift within the critical value of the operation inclination of the valve lift. | 07-03-2014 |
20140202425 | EMISSIONS CONTROL DURING CAM PROFILE SWITCHING DIAGNOSTIC OPERATION - A diagnostic routine momentarily forces an engine to an alternative operating condition, and at the same time adjust fuelling of the engine so as to be appropriate to the alternative operating condition ( | 07-24-2014 |
20150136080 | METHODS AND SYSTEMS FOR DETERMINING ENGINE MISFIRE - Systems and methods for improving detection and mitigation of engine misfire are presented. Engine misfire is determined by sampling exhaust pressure of a cylinder only during a time when an exhaust valve of the cylinder is in an open state. If misfire is indicated, an actuator is adjusted to reduce the possibility of misfire during a subsequent cylinder cycle. | 05-21-2015 |
123348000 | Intake valve timing altered | 14 |
20090217906 | INTERNAL COMBUSTION ENGINE CONTROL METHOD AND INTERNAL COMBUSTION ENGINE SYSTEM - A system and method of controlling an internal combustion engine are provided. The method may include closing said intake valve at a timing in a first range, which is before a maximum charge closing timing with which an amount of air inducted into said cylinder from said air intake passage would be maximized at a given engine speed, during a cylinder cycle when a desired amount of air to be inducted into said cylinder is less than or equal to a predetermined air amount at the given engine speed. The method may further include closing said intake valve at a timing in a second range, which is after said maximum charge closing timing and separated from said first range during a cylinder cycle, when a desired amount of air to be inducted into said cylinder is greater than said predetermined air amount at the given engine speed. | 09-03-2009 |
20100212629 | OXYGEN FLOW REDUCTION DURING ENGINE START/STOP OPERATION - An engine control system comprises an intake valve deactivation module and an exhaust valve deactivation module. The intake valve deactivation module deactivates an intake valve of a cylinder of an engine based on an engine stop request such that the intake valve remains closed. The exhaust valve deactivation module deactivates an exhaust valve of the cylinder after the intake valve deactivation module deactivates the intake valve such that the exhaust valve remains closed. | 08-26-2010 |
20100269785 | INTERNAL COMBUSTION ENGINE CONTROL DEVICE - When fuel cut permission conditions are satisfied, a guard provided by an ignition timing retardation limit is relieved. In the resulting state, the ignition timing is retarded to decrease the output torque of an internal combustion engine. After the output torque of the internal combustion engine is decreased to a predetermined minimum torque, the supply of fuel is shut off. When, on the other hand, recovery from a fuel cut is to be achieved, the guard provided by the ignition timing retardation limit is relieved until completion conditions for recovery from the fuel cut are satisfied. In the resulting state, the ignition timing is retarded to decrease the output torque of the internal combustion engine. | 10-28-2010 |
20120285420 | CONTROL DEVICE FOR INTERNAL COMBUSTION ENGINE - A control device for an internal combustion engine includes: a variable valve timing portion changing a phase of opening and closing of each of an intake valve and an exhaust valve into a target phase; an EGR valve adjusting an exhaust gas recirculation amount recirculated from an exhaust side to an intake side; a supercharging efficiency control portion controlling a supercharging efficiency of a supercharger; a throttle valve adjusting an intake air amount; and the internal combustion engine feedback-controls at least two of the EGR valve, the supercharging efficiency control portion, and the throttle valve, and feedforward-controls the variable valve timing portion. | 11-15-2012 |
20130019840 | Engine and Engine Working Machine - An engine includes: a cylinder block with a piston being able to reciprocate therein; a carburetor configured to supply an air-fuel mixture into the cylinder block; a crankcase formed with a crank chamber; a reed valve made of a magnetic material and provided in an air-fuel mixture passage through which the air-fuel mixture passes; an electromagnet including an iron core having at least two magnetic pole pieces facing the reed valve, and a coil wound around a portion of the iron core; and a control unit configured to control the electromagnet. | 01-24-2013 |
20130199495 | INTAKE AND EXHAUST APPARATUS OF MULTI-CYLINDER ENGINE - An intake and exhaust apparatus of a multi-cylinder engine is provided. The engine is provided with a plurality of cylinders having intake and exhaust valves for opening and closing intake and exhaust ports, respectively. The apparatus includes an intake system including intake ports of respective cylinders, independent intake passages connected with the respective intake ports, a surge tank connected with upstream ends of the independent intake passages, and an air cleaner connected with the surge tank. The apparatus also includes an exhaust system including independent exhaust passages connected with an exhaust port of one cylinder or exhaust ports of the plurality of cylinders that are not continuous in exhausting order, and a collecting pipe connected with downstream ends of the independent exhaust passages in a bundled manner, and for collecting exhaust gas ejected from the downstream ends of the independent exhaust passages. | 08-08-2013 |
20130206104 | METHOD FOR OPERATING AN INTERNAL COMBUSTION ENGINE HAVING A VARIABLE VALVE DRIVE - A method for operating an internal combustion engine includes controlling a variable valve drive for at least one intake valve and at least one exhaust valve of at least one working cylinder of an internal combustion engine in dependence on operating states of the internal combustion engine. The valve drive is variable with regard to valve control times and/or a valve lift. The operating states of the internal combustion engine are defined by load demands, rotational speeds, load conditions and/or torque conditions. Valve operating states of the variable valve drive are set in dependence on the operating states of the internal combustion engine. The valve operating states can increase a charge of a working cylinder, provide an overlap of opening times of intake and exhaust valves, minimize fuel consumption or operate an intake valve in an expansion mode or according to a Miller/Atkinson process. | 08-15-2013 |
20130206105 | CONTROL DEVICE FOR IN-VEHICLE INTERNAL COMBUSTION ENGINE - A control device, which is applied to an in-vehicle internal combustion engine equipped with an intake valve variable timing mechanism that varies the valve timing for an intake valve, and which intermittently operates the in-vehicle internal combustion engine by automatically stopping/restarting the engine, wherein the electronic control unit does not permit the engine operation to be automatically stopped when the intake valve variable timing mechanism malfunctions at an operating position closer to the advanced angle than the operating position for the most retarded angle of the variable range for the valve timing of intake valve, and thus preventing increased engine vibration and misfires when the engine automatically restarts, which are caused by a malfunction of the variable valve mechanism. | 08-15-2013 |
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 |
20140041624 | SYSTEM AND METHOD FOR CONTROLLING A VARIABLE VALVE ACTUATION SYSTEM TO REDUCE DELAY ASSOCIATED WITH REACTIVATING A CYLINDER - A system according to the principles of the present disclosure includes a cylinder control module and a valve control module. The cylinder control module deactivates and reactivates a cylinder of an engine based on a driver torque request while an ignition system associated with the engine is in an on position. The valve control module selectively adjusts a period for which at least one of an intake valve and an exhaust valve of the cylinder are opened based on a first time when the cylinder is reactivated. | 02-13-2014 |
20140311449 | VARIABLE LOST MOTION VALVE ACTUATOR AND METHOD - A lost motion engine valve actuation system and method of actuating an engine valve are disclosed. The system may comprise a valve train element, a pivoting lever, a control piston, and a hydraulic circuit. The pivoting lever may include a first end for contacting the control piston, a second end for transmitting motion to a valve stem and a means for contacting a valve train element. The amount of lost motion provided by the system may be selected by varying the position of the control piston relative to the pivoting lever. Variation of the control piston position may be carried out by placing the control piston in hydraulic communication with a control trigger valve and one or more accumulators. Actuation of the trigger valve releases hydraulic fluid allowing for adjustment of the control piston position. Means for limiting valve seating velocity, filling the hydraulic circuit upon engine start up, and mechanically locking the control piston/lever for a fixed level of valve actuation are also disclosed. | 10-23-2014 |
20150322870 | SYSTEM AND METHOD FOR EMPTYING A TANK - A system for method for emptying a gas storage tank of a vehicle is presented. In one example, engine valve timing is adjusted to facilitate reducing pressure within the gas storage tank. The system and method may extend the use of the gas stored in the gas storage tank. | 11-12-2015 |
20160076463 | VARIABLE LOST MOTION VALVE ACTUATOR AND METHOD - Lost motion engine valve actuation systems and methods of actuating engine valves are disclosed. Exemplary systems may include a valve train element, a first lost motion piston, an accumulator, and a hydraulic circuit, among other components. Variation of the first lost motion piston position may be carried out by placing the first lost motion piston in hydraulic communication with a trigger valve and one or more accumulators. Actuation of the trigger valve releases hydraulic fluid allowing for adjustment of the first lost motion piston position. | 03-17-2016 |
20160076464 | VARIABLE LOST MOTION VALVE ACTUATOR AND METHOD - Lost motion engine valve actuation systems and methods of actuating engine valves are disclosed. Exemplary systems may include a valve train element, a first lost motion piston, an accumulator, and a hydraulic circuit, among other components. Variation of the first lost motion piston position may be carried out by placing the first lost motion piston in hydraulic communication with a trigger valve and one or more accumulators. Actuation of the trigger valve releases hydraulic fluid allowing for adjustment of the first lost motion piston position. | 03-17-2016 |