Class / Patent application number | Description | Number of patent applications / Date published |
123179160 | With fuel or intake air control | 31 |
20080245331 | ENGINE - An engine includes a choke valve for varying the opening of an intake passage. When a variation in an engine operating state per unit time during the operation of the engine becomes a predetermined value or greater, the choke valve is automatically moved to the fully open position to thereby bring the engine back to the normal operating state immediately. | 10-09-2008 |
20090095244 | Method for Controlling a Variable Event Valvetrain - A method to start an internal combustion engine having a variable event valvetrain is provided. The method includes increasing the speed of said internal combustion engine during a start from a stopped position after a request to start said internal combustion engine. The method may further include increasing an intake valve lift amount, of at least a cylinder during said start while said internal combustion engine speed is increasing. The method may further include only enabling fuel flow to said cylinder when said intake valve lift amount reaches a predetermined level. | 04-16-2009 |
20090107441 | Adaptive fuel control strategy for engine starting - As one example, a method is provided for controlling a relative amount of air and fuel that is provided to a combustion chamber of an internal combustion engine. The method comprises adjusting a relative amount of air and fuel provided to the combustion chamber during an engine start based on a volatility of the fuel identified during a previous engine start. As another example, a vehicle engine system is provided, comprising: an internal combustion engine including at least one combustion chamber; a fuel injector configured to provide fuel to the combustion chamber; a fuel system operatively coupled with the fuel injector including a fuel storage tank; a control system configured to vary an amount of fuel injected into the combustion chamber during an engine start based on a speed response of the engine during a previous engine run-up from rest and a change in an amount of fuel stored in the fuel storage tank before the engine start. | 04-30-2009 |
20090120396 | METHOD FOR COLD STARTING OF ETHANOL-FUELED ENGINES - A method for starting an internal combustion engine under cold conditions. The intake manifold throttle valve is held closed and spark ignition is suspended. Fuel and air are admitted into the cylinders and the pistons are cranked for a plurality of revolutions. During each engine revolution cycle, the fuel/air mixture is compressed and heated adiabatically by the energy of the engine starter motor, and the mixture is exhausted into the exhaust manifold. During valve overlap a portion of the mixture is withdrawn into the cylinder and recompressed in the next cycle. Additional fuel may be injected to replace lost fuel. After several engine cycles, the fuel/air mixture becomes heated to a temperature above the flashpoint of the mixture. Sparking is re-established to fire the warmed mixture, and the intake throttle valve is re-enabled. The first firing can provide sufficient heat to continue spark-firing of newly-introduced mixture thereafter. | 05-14-2009 |
20090173304 | PROCEDURE FOR STARTING A COMBUSTION ENGINE - Procedure for starting a combustion engine with at least one combustion chamber, whereby injections from the high pressure system are deposited into the combustion chamber during the starting process, is thereby characterized, in that at least one injection into the combustion engine can be blanked out in order to limit a pressure drop in the high pressure system. | 07-09-2009 |
20100139601 | CONTROL SYSTEM FOR INTERNAL COMBUSTION ENGINE - A control system for an internal combustion engine having a valve operating characteristic varying device which continuously changes a lift amount of at least one intake valve. Operation of a start switch, which instructs the start of the engine is detected. The engine is started after a predetermined delay time period has elapsed from the moment the operation of the start switch is detected. The valve operating characteristic varying device is operated during the predetermined delay time period, and a failure determination of the valve operating characteristic varying device is performed. | 06-10-2010 |
20100147240 | METHOD OF STARTING SPARK-IGNITION DIRECT INJECTION (SIDI) ENGINES - A cold start control module for a direct injection engine includes a fuel flow determination module and a cylinder activation/deactivation module. The fuel flow determination module determines a requested fuel flow. The cylinder activation/deactivation module deactivates at least one of cylinders when the requested fuel flow exceeds a maximum fuel flow of the fuel pump during cold start. | 06-17-2010 |
20100175657 | COLD-START RELIABILITY AND REDUCING HYDROCARBON EMISSIONS IN A GASOLINE DIRECT INJECTION ENGINE - A method for starting an engine of a motor vehicle under varying temperature conditions, the engine having a plurality of combustion chambers and a pump for pressurizing fuel for delivery to the combustion chambers, the method comprising during a first, higher-temperature, starting condition, directly injecting fuel into all of the combustion chambers during at least an initial fueled cycle of the engine, and spark igniting the fuel to increase a rotation speed of the engine, the initial fueled cycle comprising two rotations of a crankshaft of the engine during which at least some fuel is injected for a first time since the engine was brought from rest; and during a second, lower-temperature, starting condition, directly injecting fuel into less than all of the combustion chambers during at least the initial fueled cycle of the engine, and spark igniting the fuel to increase the rotation speed of the engine. | 07-15-2010 |
20100275871 | DEVICE FOR STARTING AN ENGINE - In a device for starting an engine, in which when the engine is restarted from idling stop, a cylinder which is restarted initially among all cylinders is determined on the basis of a piston stopping position of each cylinder in the idling stop, if there is a specified cylinder which is judged to cause a misfire when the specified cylinder is restarted initially among all cylinders, a piston stopping position of the specified cylinder in the idling stop is controlled such that the specified cylinder does not become a cylinder which is restarted initially among all cylinders. | 11-04-2010 |
20100275872 | METHOD OF STARTING AN INTERNAL COMBUSTION ENGINE, DEVICE AND CONTROLLER - In a method for starting an internal combustion engine having at least one cylinder, an inlet and an outlet valve, and having a piston interacting with a crankshaft, and the crankshaft moving in a predetermined rotational direction during normal operation of the internal combustion engine, the piston is located in an initial position, the piston is moved into a defined starting position against a normal rotational direction of the crankshaft by means of a drive, fuel is injected, and the fuel is ignited. | 11-04-2010 |
20100294224 | METHOD FOR STARTING AN ENGINE, AND AN ENGINE - A method for starting an engine includes reciprocating a piston in a cylinder through a plurality of reciprocating movements between the TDC and the BDC positions with the exhaust valve closed for longer than during the normal combustion cycle and the intake valve open for at least part of at least one of a compression movement and an exhaust movement while the exhaust valve is closed. An engine is also disclosed. | 11-25-2010 |
20110056451 | Method for Operating an Internal Combustion Engine - In a method for operating an internal combustion engine that has a starter device for starting the internal combustion engine and a device for supplying fuel controlled by a control device, it is determined whether cold start conditions or hot start conditions exist during starting of the internal combustion engine. In at least one operating range, during starting of the internal combustion engine, an engine speed gradient is determined during a slowdown phase of a pull stroke of a starter device and the engine speed gradient is used for determining whether cold start conditions or hot start conditions exist. The fuel quantity to be supplied to the internal combustion engine is controlled based on the determined cold start conditions or hot start conditions. | 03-10-2011 |
20110100314 | DIRECT INJECTION EVENT-BASED ENGINE STARTING - A method for starting an internal combustion engine having direct fuel injection, comprising of adjusting a number of direct injections per combustion cycle based on a cylinder event number from a first cylinder event. | 05-05-2011 |
20110303177 | INTERNAL COMBUSTION ENGINE CONTROL SYSTEM - There are provided a crank angle detection means configured in such a way as to have a function of outputting respective recognition signals from a plurality of intermediate positions each flanked with the positions corresponding to the respective top dead centers of the pistons of a plurality of cylinders and to differentiate the kinds of the respective recognition signals outputted from the adjacent intermediate positions; and a piston position determination means that determines the stopping position of the piston at a time when the internal combustion engine stops, based on the crank angle range stored in a crank angle range storage means and the crank angle corresponding to the position of the recognition signal outputted by the crank angle detection means. There is determined the cylinder to which a fuel is to be initially supplied when the internal combustion engine restarts, based on the stopping position of the piston determined by the piston position determination means. | 12-15-2011 |
20130000586 | AUTOMATIC CONTROL APPARATUS FOR CARBURETTOR CHOKE VALVE - An automatic control apparatus for a carburetor choke valve includes a pull-rod, throttle control lever, choke block, and temperature control assembly which is arranged on a cylinder head through a bracket having a rotating shaft and coil spring. The rotating shaft is connected to the spring and one end of the pull-rod via a rotary arm. The other end of the pull-rod is located at a choke valve shaft. The block and valve shaft are connected to respective ends of the lever. During cold start, the block is opened driving the lever to pull the valve shaft. When rotated through a certain angle the valve shaft is blocked by part of the pull-rod, such that the valve and block cannot be fully opened. During warm start, the valve shaft when returning is blocked by another part of the pull-rod such that the valve cannot fully close. | 01-03-2013 |
20140000544 | WORK APPARATUS HAVING A BRAKING ARRANGEMENT | 01-02-2014 |
20140345556 | DEVICE FOR AUTOMATICALLY STOPPING AND RESTARTING INTERNAL COMBUSTION ENGINE - A device for automatically stopping and restarting an internal combustion engine is provided with a crank angle sensor ( | 11-27-2014 |
20160146141 | METHOD OF STARTING AN INTERNAL COMBUSTION ENGINE OPERATED WITH A FUEL-AIR MIXTURE - A method of starting an internal combustion engine operated with a fuel-air mixture, in particular a stationary gas engine, wherein fed to the internal combustion engine as part of the fuel-air mixture is a fuel volume flow which is ascertained having regard to at least one parameter which is characteristic of the energy content of the fuel-air mixture, wherein the internal combustion engine is driven by a starter device until the internal combustion engine continues to run of its own accord, wherein the fuel volume flow fed to the internal combustion engine is varied by a variation in the at least one parameter which is characteristic of the energy content of the fuel-air mixture until the internal combustion engine continues to run of its own accord. | 05-26-2016 |
123179170 | Fuel injection pump | 5 |
20090107442 | HIGH PRESSURE PISTON PUMP ACTUATING SYSTEM USING AUTOMOTIVE STARTER SYSTEM - An apparatus for providing pressurized fuel for an engine includes an electric motor operative to crank said engine, a fuel pump, and a gear reduction device. This gear reduction device includes a worm and worm wheel and operates to receive a high speed input from said electric motor and to deliver a low speed output to said fuel pump. | 04-30-2009 |
20090120397 | Internal Combustion Engine Starting System and Method - A starting system is provided for delivering pressurized fuel to an engine to start the engine without a starter. The starting system includes an accumulator for storing pressurized fuel during engine operation and engine shut-down. During engine start-up, the accumulator delivers the stored pressurized fuel to the engine to start the engine. The accumulator is in fluid communication with a low pressure fuel reservoir and the engine. The accumulator includes an accumulator housing defining an accumulator cavity and including an accumulator piston and spring assembly, which is moveable longitudinally within the accumulator cavity. An electronic control module (ECM) is in electronic control with the starting system and the engine. The ECM is operable to activate the accumulator, forcing pressurized fuel stored within the accumulator into a high-pressure fuel line for injection into the engine, to generate at least one starting combustion event to start the engine without a starter. | 05-14-2009 |
20090183707 | OPERATION CONTROL SYSTEM FOR AN ENGINE AND VEHICLE COMPRISING THE SAME - An operation control system for an engine having at least one piston includes an engine control unit which drives a fuel pump for supplying fuel to an injector. The engine control unit is configured to perform a control function to cut the electric power supply to the fuel pump when the piston arrives at a position in the vicinity of compression top dead center in the cylinder of the engine. | 07-23-2009 |
20100206257 | METHOD FOR STARTING AN INTERNAL COMBUSTION ENGINE - In a method for starting an internal combustion engine, immediately before a predetermined idling speed is reached for the first time, a rate of injection of fuel into at least one combustion chamber of the internal combustion engine is reduced for at least one cycle of the internal combustion engine. | 08-19-2010 |
20120325173 | FUEL INJECTION SYSTEM OF AN INTERNAL COMBUSTION ENGINE - The invention relates to a fuel injection system of an internal combustion engine, comprising a presupply pump ( | 12-27-2012 |
123179180 | Intake air control | 8 |
20080230029 | INTAKE AIR CONTROL FOR AN INTERNAL-COMBUSTION ENGINE - The present invention provides an intake air control that is capable of suppressing the exhaust emission at engine startup and quickly activating a catalyst after engine startup. An engine has a variable valve actuation mechanism for continuously adjusting at least a lift amount of an intake valve to control an intake air amount. At startup of the engine, the lift amount is set in accordance with the number of times that a piston in a cylinder of the engine has passed through a top dead center until a rotational speed of the engine reaches an idle rotational speed. After an engine water temperature becomes greater than a predetermined value, the lift amount is corrected using a proportion term that is determined based on the engine rotational speed and an integral term that is determined based on a difference between the engine rotational speed and the idle rotational speed until the engine rotational speed reaches the idle rotational speed. After the engine rotational speed reaches the idle rotational speed, the lift amount is gradually changed to an idle lift amount while maintaining the idle rotational speed through an ignition timing control. The idle lift amount is a lift amount under which the idle rotational speed is able to be maintained. | 09-25-2008 |
20080302325 | Control device for engine of power equipment apparatus - A control device is configured for use with an engine of a power equipment apparatus. The control device includes a base, a first knob, and a second knob. The first knob is positioned adjacent to the base and is rotatable about an axis with respect to the base while being substantially restrained from axial movement along the axis with respect to the base. The first knob has an aperture surrounding and extending along the axis to define a passageway extending through the first knob. The second knob has an end portion slidingly received within the aperture of the first knob such that the second knob is axially movable along the axis with respect to the base and the first knob. Power equipment apparatus and saddle-type vehicles including control devices are also provided. | 12-11-2008 |
20090044777 | AUTOMATIC CHOKE FOR AN ENGINE - An engine starting assist system configured to be used on an internal combustion engine. The engine starting assist system includes a battery, a choke valve disposed in an air intake of an air/fuel-mixing device, the choke valve having an open position and a closed position, a rotary solenoid powered by the battery, the rotary solenoid having an output shaft, and a bimetal coil. The output shaft of the rotary solenoid is coaxial with the bimetal coil. | 02-19-2009 |
20090217898 | QUICK ENGINE STARTUP SYSTEM AND METHOD - A technique is provided for improved response of internal combustion engines to increased load demands. The engine is equipped with an air storage tank that stores compressed air. The air may be stored at an elevated pressure (e.g., manifold air pressure) during normal full load operation of the engine. Valving maintains the compressed air isolated during normal operation. During transitory periods of higher power output demand, the compressed air is directed to the engine, and output of a turbo-driven compressor can be vented to avoid surge. The technique allows for quicker reaction to load demands, and improved combustion during transitory periods, and reduced particulate and smoke emissions. | 09-03-2009 |
20090293828 | ENGINE WITH AN AUTOMATIC CHOKE AND METHOD OF OPERATING AN AUTOMATIC CHOKE FOR AN ENGINE - A method of controlling a choke valve of an engine with a controller is disclosed. Also disclosed is an automatic choke performing the method, an engine having the automatic choke, and an apparatus having the engine. The controller includes an electronic circuit, such as a programmable device, and is coupled to a temperature sensor and a motor. The method includes determining a temperature value using the temperature sensor, determining a time period to hold the choke valve in a first position, keeping the choke valve at the first position for the time period, moving the choke valve from the first position toward a second position using the motor, determining a count to hold the choke valve, keeping the choke valve at the second position for the count, and moving the choke valve from the second position toward a fully open position. | 12-03-2009 |
20120160201 | ENGINE STARTING CONTROL APPARATUS - An engine starting control apparatus is basically provided with a motor control section, a valve timing control section and a start control section. The motor control section is configured to operate an electric motor to crank an engine with an output of the electric motor being adjustable. The valve timing control section is configured to operate a variable valve operating mechanism when the engine is started to change at least a close timing of an intake valve of the engine from an initial timing to a start timing such that the start timing is set closer to an intake bottom dead center during a single engine start as compared to the initial timing. The start control section is configured to adjust the output of the electric motor as the close timing of the intake valve changes from the initial timing to the start timing during the single engine start. | 06-28-2012 |
20120266839 | ENGINE WITH AN AUTOMATIC CHOKE AND METHOD OF OPERATING AN AUTOMATIC CHOKE FOR AN ENGINE - An engine including an automatic choke that includes a choke valve movable between a fully closed position and a fully open position, a temperature sensor coupled to the engine and operable to provide a temperature signal indicative of a temperature of the engine, and a motor connected to the choke valve and operable to move the choke valve in response to a motor control signal. A controller is electrically connected to the motor and to the temperature sensor. The controller includes an electronic circuit having a memory. A table includes engine specific choke position data stored in memory, wherein the controller determines a choke initial position based on the temperature of the engine and the choke position data, and wherein the motor moves the choke valve toward that position in response to an attempt to start the engine. | 10-25-2012 |
20140290614 | ENGINE CONTROL SYSTEM AND METHOD - An engine system includes a fuel supply unit configured to supply fuel into a combustion chamber. The engine system includes a fuel supply unit to regulate the supply of fuel into an inlet port via a fuel rail and an air supply unit configured to supply compressed air into the combustion chamber. A control system is configured to receive operating conditions of the engine system. Further, the control system includes a detector component configured to generate a control signal indicative of a start-up condition of an engine system. A switching component of the controller receives the control signal indicative of the start-up condition of the engine system from the detector component and further transmits a fuel supply control signal to the fuel valve based on an air-fuel ratio error signal, and transmit an air supply control signal to the choke valve based on an engine speed error signal. | 10-02-2014 |