Class / Patent application number | Description | Number of patent applications / Date published |
073114450 | Fuel injector | 73 |
20080264157 | Method and Device for Checking for Leakage in a Fuel Injection Valve of an Internal Combustion Engine - In a method and a device for testing for leakage in a fuel injection valve of an internal combustion engine, a temperature quantity is determined that characterizes the temperature of at least a part of the fuel injection valve. On the basis of this temperature quantity, the presence of a leak is inferred. | 10-30-2008 |
20080282785 | Testing Device For a Cam-Driven Fuel Injection System, In Particular a Pump/Nozzle or Pump/Line/Nozzle Injection System - A test apparatus serves to test cam-driven fuel injection systems. The apparatus includes a camshaft which can act on a piston of the fuel injection system at least indirectly via a lever. It is proposed that the lever have a multiplicity of fastening positions for an actuating element which can act on the piston and that the fastening positions be disposed at different distances from a pivot axis of the lever. | 11-20-2008 |
20080302176 | METHOD FOR DIAGNOSING THE LEAKAGE OF AN INJECTOR AND ASSOCIATED CONTROL DEVICE - In order to diagnose the leakage of an injector (IN | 12-11-2008 |
20090158833 | FUEL INJECTOR MALFUNCTION MONITORING APPARATUS AND METHOD - A fuel injector malfunction monitoring apparatus designed to monitor a malfunction of fuel injectors which are installed in cylinders of an internal combustion engine and work to spray fuel in response to a fuel injection command signal. The apparatus comprises an injector operation disabling circuit and a state monitoring circuit. The injector operation disabling circuit works to disable the fuel injection command signal to place a selected one of the fuel injectors in a non-injection mode during operation of the internal combustion engine for inducing a change in state of the engine arising from stop of spraying of the fuel. The state monitoring circuit works to monitor the state of the internal combustion engine upon placement of the selected one of the fuel injectors in the non-injection mode for use in determining whether the selected on is malfunctioning or not. | 06-25-2009 |
20090314073 | DETECTION OF FAULTS IN AN INJECTOR ARRANGEMENT - A method of identifying an individual short circuit fuel injector, within an injector bank of an engine comprising a plurality of fuel injectors. Each fuel injector has a piezoelectric actuator and an associated injector select switch forming part of an injector drive circuit. The method comprises: (i) charging all of the piezoelectric actuators of the plurality of fuel injectors within the injector bank during a charge phase; (ii) at the end of the charge phase waiting for a delay period; and (iii) subsequently closing an injector select switch of a fuel injector to select said fuel injector. The method further comprises: (iv) determining a stack voltage present on terminals of the piezoelectric actuator of the selected fuel injector and storing the stack voltage in a data store. The stack voltage is indicative of an amount of charge present on the selected injector at the end of the delay period. The method further comprises (v) repeating steps (i) to (iv) for each fuel injector in the injector bank in turn; and (vi) identifying the individual short circuit fuel injector as being the injector which has discharged beyond a predetermined voltage drop limit during the delay period. The method also comprises generating a short circuit fault signal for the identified fuel injector. | 12-24-2009 |
20100050755 | METHOD AND DEVICE FOR MONITORING A FUEL INJECTION SYSTEM - A method and a device for monitoring a fuel injection system are described. A manipulated variable is modified by a certain amount. A first value of a measured variable is detected prior to the modification and at least a second value is detected after the modification. An error is detected when the first value and/or the at least second value deviate from an expected value. | 03-04-2010 |
20100089137 | DEVICE FOR DETECTING CAM TOP POSITION OF HIGH PRESSURE PUMP - A device for detecting the cam top position in an in-line type high pressure pump, with which time required to detect rotation position of the cam top position can be decreased in engine starting operation, thereby time for starting engine can be decreased. | 04-15-2010 |
20100170329 | APPARATUS AND METHODS FOR TESTING A FUEL INJECTOR NOZZLE - An apparatus and method is described for testing a multi-hole fuel injector nozzle. The apparatus comprises mounting means for the multi-hole nozzle and fuel supply means for supplying fuel to the multi-hole nozzle. The multi-hole nozzle is mounted outside a measurement chamber for capturing the fuel spray from an individual spray hole outlet of the multi-hole nozzle. In one embodiment, the apparatus includes a spray target plate, located within the measurement chamber, at which the fuel spray is directed. The spray target plate ( | 07-08-2010 |
20100199752 | INJECTOR CONTROL PERFORMANCE DIAGNOSTIC SYSTEMS - A diagnostic system for a fuel injector control system according to the present disclosure includes a plurality of state monitoring modules and a fault determination module. The plurality of state monitoring module monitor a plurality of states of a driver circuit for a fuel injector based on data samples related to the plurality of states. The fault determination module diagnoses a fault in the driver circuit when at least one of the plurality of state monitoring modules receives a predetermined number of data samples indicating an undesired state within a sampling interval. | 08-12-2010 |
20100319443 | FUEL TEMPERATURE SENSING DEVICE - A fuel temperature sensing device has fuel temperature sensors provided to respective cylinders for sensing fuel temperature. Each fuel temperature sensor is arranged in a position closer to an injection hole than to a pressure accumulator in a fuel passage extending from the pressure accumulator to the injection hole. The device has an average value calculating section for calculating an average value of fuel temperature sensing values sensed with the fuel temperature sensors of the respective cylinders. The device has a deviation calculating section for calculating deviations between the average value and the fuel temperature sensing values of the respective fuel temperature sensors. The device has a correcting section for correcting the fuel temperature sensing value of each fuel temperature sensor to approximate the deviation to zero for each fuel temperature sensor. | 12-23-2010 |
20110088461 | SYSTEM FOR AND METHOD OF DEGRADING OR ANALYSING THE PERFORMANCE OF AN INTERNAL COMBUSTION ENGINE - A degrader and a diagnostic kit for an electronically-controlled fuel-injected internal combustion engine includes means adapted to interrupt a control signal from an engine management computer or powertrain control module (PCM) ( | 04-21-2011 |
20110219860 | FUEL DISPENSING NOZZLE - A fluid dispensing nozzle includes a removable valve subassembly that controls the flow of fluid and the recovery of fluid vapor through the body of the nozzle. The subassembly may be pre-assembled and installed within a nozzle body as a single unit. The nozzle may include a vacuum-driven automatic shut-off system which prevents fluid from flowing through the nozzle when the downstream end of the nozzle spout is submerged. The shutoff system may also be magnetically actuated to allow for dry testing in which the automatic shut-off functionality is testing without dispensation of fluid. | 09-15-2011 |
20110239750 | Alternative Fuel Concentration Estimating System, Vehicle Comprising Alternative Fuel Concentration Estimating System, and Alternative Fuel Concentration Estimating Method - An ECU is used in a motorcycle including an engine E, which combusts in a combustion chamber a blended fuel in which gasoline and ethanol are blended, and a fuel injection device for injecting a fuel with a predetermined fuel injection amount such that an air excess ratio in the combustion chamber is a first predetermined value when an ethanol concentration of the blended fuel is zero. The ECU executes O | 10-06-2011 |
20120073361 | Fuel Injection Feedback System and Method - A fuel injection feedback system comprises a light source disposed inside a fuel injector, an optical sensor disposed inside the fuel injector, and a computing device electronically connected to the optical sensor. The light source is a device configured to emit light capable of being reflected by cavitation. The light source could be disposed on or within the needle or nozzle of the fuel injector, or at a variety of other locations inside the fuel injector. The optical sensor is configured to detect an intensity of light caused by receiving light reflected from cavitation occurring inside the fuel injector. | 03-29-2012 |
20120240669 | ABNORMALITY DETERMINATION APPARATUS AND ABNORMALITY DETERMINATION METHOD FOR MULTI-CYLINDER INTERNAL COMBUSTION ENGINE - An abnormality determination apparatus for a multi-cylinder internal combustion engine equipped with a duel-injection system that has two fuel systems for injecting and supplying fuel to each of cylinders, which determines whether there is an abnormal variation in air-fuel ratio among the cylinders, includes: an abnormal variation determining unit that determines whether there is an abnormal variation in a period during which fuel is separately injected by both the two fuel systems; and an abnormality estimating unit that estimates which one of the fuel systems has an abnormality on the basis of a fuel injection distribution ratio of both the fuel systems in the period. | 09-27-2012 |
20120312087 | DIAGNOSTIC APPARATUS FOR FUEL-PROPERTY REFORMING SYSTEM - In a reforming driving mode, while the EGR valve is opened to recirculate a part of exhaust gas into the intake pipe, a reforming-fuel injector injects a reforming-fuel into an exhaust gas flowing through an EGR pipe. The injected reforming-fuel is vaporized and flows into the fuel-reforming catalyst. The fuel-reforming catalyst reforms the fuel in the exhaust gas into the fuel having high combustibility. In the reforming driving mode, the computer determines whether an air-fuel ratio within the normal range. Based on this result, the computer determines whether the reforming-fuel injector has a malfunction. When the reforming-fuel injector has a malfunction, a fail-safe processing is conducted to prohibit the reforming-fuel injector from injecting the reforming-fuel. | 12-13-2012 |
20120318053 | DEPOSIT AMOUNT ESTIMATION DEVICE OF ENGINE - The invention relates to a deposit amount estimation device for estimating a deposit amount by calculating an amount of a deposit on an injection hole wall face of a fuel injector ( | 12-20-2012 |
20120318054 | FUEL QUALITY DETERMINING METHOD, PROGRAM, COMPUTER READABLE RECORDING MEDIUM WHICH STORES THE PROGRAM, AND FUEL QUALITY DETERMINATION DEVICE - A value of ignition delay and a value of a flame spread rate are measured with respect to fuel which is an object to be determined. When the measured value of the ignition delay falls within a range which is smaller than a reference line and constitutes a first range or falls within a range which is larger than a reference line and constitutes the first range, goodness or badness of quality of fuel is determined based on goodness or badness of quality of fuel which is decided in accordance with the first range. When the measured value of ignition delay falls within a range between the reference line and a reference line which constitutes a second range, goodness or badness of quality of fuel is determined based on whether or not a measured value of a flame spread rate falls within a good product range. | 12-20-2012 |
20130118243 | METHOD FOR OPERATING AN INTERNAL COMBUSTION ENGINE - In a method for operating an internal combustion engine having multiple cylinders, a cylinder to be checked is diagnosed for an injection quantity error. During a normal operation, a first air/fuel ratio is predefined for the multiple cylinders, and a first uneven running is ascertained. During an adjustment operation, a second air/fuel ratio for the cylinder to be checked is predefined during a number of working cycles. During the adjustment operation, a second uneven running is ascertained. The injection quantity error is ascertained for the cylinder to be checked as a function of the first uneven running and the second uneven running. | 05-16-2013 |
20130139579 | Device for testing fuel injectors, and corresponding method - A device and a method for testing fuel injectors, in particular, of the piezo type. The device includes at least one, in particular, bidirectional interface for connecting an operator control unit, at least one outlet for connecting at least one fuel injector, at least one integrated circuit, as well as a microcontroller for controlling the integrated circuit, the integrated circuit and the microcontroller cooperating in a way that allows the fuel injector to be tested as a function of the type and/or subtype thereof, including at least the piezo type having the subtypes active high and active low. | 06-06-2013 |
20130283897 | PISTON FUEL-INJECTOR DETECTION DEVICE - A piston fuel injector detecting device, comprising a base ( | 10-31-2013 |
20130327132 | Method and Apparatus for Operating an Injection Valve - An injection valve includes a valve needle preventing a fluid flow out of an injection nozzle in a closing position and enabling the fluid flow of the injection nozzle apart from the closing position. Furthermore the injection valve includes an electro-magnetic actuator unit being designed to actuate the valve needle. The actuator unit is activated according to a predetermined activation signal with a given activation period for effecting a fluid flow out of the injection nozzle. An actuator unit voltage characteristic is captured at least over a period of time during which the valve needle could reach the closing position. A noise part of the actuator unit voltage characteristic is determined and a closing time representing a time when the valve needle reaches the closing position is determined depending on the noise part of the captured actuator voltage characteristic. | 12-12-2013 |
20130340513 | Measuring Apparatus and Method and Apparatus for Determining a Leakage of an Injection Valve - A measuring apparatus may include a first chamber, a second chamber and a membrane separating the first chamber and the second chamber. Furthermore the measuring apparatus may include a notch in an outer wall of the first chamber designed to liquid-tightly arranging an injection valve in this notch such that an injection nozzle of the injection valve opens out into the first chamber. The measuring apparatus may include a sensor designed and arranged to capture a first measured variable representative for a strain of the membrane. | 12-26-2013 |
20140060165 | BI-FUEL INJECTOR RELAY DIAGNOSTIC - An injector relay diagnostic system is provided. The system comprises a first fuel injector, a first electrical relay disposed between an electrical potential and the first fuel injector, wherein the first electrical relay is configured to connect the first fuel injector to the electrical potential upon receipt of a first control signal, and a control module configured to transmit the first control signal to the first electrical relay, receive an output from the first fuel injector, and determine a state of the first electrical relay by comparing the output from the first fuel injector to a predetermined parameter. | 03-06-2014 |
20140182366 | USING RESISTANCE EQUIVALENT TO ESTIMATE TEMPERATURE OF A FUEL-INJECTOR HEATER - A temperature of a heated component is determined for control and monitoring. The heater driver, upon receipt of a turn-on signal, generates a current within a component of a heated fuel injector, wherein the current through the component generates an appropriate loss to generate heat for a variable spray fuel injection system. The heater driver regulates the energy to the heated component based on the electrical resistance of that component as a function of temperature and a predetermined reference value for that temperature. | 07-03-2014 |
20140318227 | METHOD FOR ASSESSING AN INJECTION BEHAVIOUR OF AT LEAST ONE INJECTION VALVE IN AN INTERNAL COMBUSTION ENGINE AND OPERATING METHOD FOR AN INTERNAL COMBUSTION ENGINE - A method for assessing an injection behavior of at least one injection valve of an internal combustion engine includes putting the internal combustion engine into a special operating mode defined by control parameters and operating the engine in the special operating mode during a diagnostic time period, at least one operating parameter of the internal combustion engine being determined at least during the diagnostic time period, and at least one quantity characterizing the injection behavior of the at least one injection valve being evaluated at least during a segment of the diagnostic time period and being evaluated on the basis of the at least one operating parameter. | 10-30-2014 |
20150096361 | INJECTOR CAVITATION DETECTION TEST - A method and apparatus for determining a characteristic of an injector are set forth. In one example, a compressed gas is applied to the inlet chamber of the injector while the spoolvalve is closed until the pressure of the compressed gas in the inlet chamber reaches a predetermined pressure. A change in pressure of the compressed gas in the inlet chamber is measured over time while the spool valve is closed. The pressure change measurement corresponds to the characteristic of the injector that is to be determined. | 04-09-2015 |
20150122000 | METHOD FOR DETECTING AN ERROR IN THE OPENING BEHAVIOR OF AN INJECTOR - A method for detecting an error in the opening behavior of an injector of an internal combustion engine, the injector having an electromagnetically actuated valve element, a ballistic partial injection being carried out, the injector being ballistically activated, so that the valve element is not opened up to a lift stop, a ballistic closing delay period is determined, the determined ballistic closing delay period is compared with a reference value, and an error in the opening behavior of the injector is detected with the aid of the comparison. | 05-07-2015 |
20150322909 | METHOD TO DETERMINE THE INJECTION PATTERN IN THE INTAKE STROKE OF THE COMBUSTION CYCLE OF THE CYLINDERS OF A DIRECT-INJECTION INTERNAL COMBUSTION ENGINE - A method to determine the injection pattern in the intake stroke of the combustion cycle of the cylinders of a direct-injection internal combustion engine, which includes determining the overall quantity of fuel to be injected for each combustion cycle of each cylinder during the intake stroke; determining the maximum quantity of fuel to be injected for each partial injection as a function of the value of the start of injection angle, of the speed and of the load of the internal combustion engine; and determining the number of partial injections and the objective quantity to be injected for each partial injection as a function of the quantity of fuel to be injected for each combustion cycle of each cylinder during the intake stroke and of the maximum quantity of fuel to be injected for each partial injection. | 11-12-2015 |
20150354522 | SYSTEM AND METHOD FOR DETECTING SHORT-TO-GROUND FAULT - A method of detecting a resistive short-to-ground fault in an injector driver circuit is disclosed. The method includes determining if the injector driver circuit is in an inactive state and providing a pull-up resistor configured for connection to a low-side output of at least one fuel injector. The method further includes selectively enabling a pull-up voltage across the pull-up resistor only when the injector driver circuit is in the inactive state and determining an intersection voltage at a point between the pull-up resistor and the low-side output. The method further includes comparing the intersection voltage with a predetermined reference voltage. The method further includes disabling the injector driver circuit if the short-to-ground fault is detected at the low-side of the fuel injectors. | 12-10-2015 |
073114460 | Spray pattern | 1 |
20140033810 | SPRAY MEASURING METHOD AND SPRAY TEST APPARATUS USED IN THE METHOD - Test liquid ( | 02-06-2014 |
073114480 | Volume flow amount | 11 |
20090277258 | Method and System for Testing a Fuel Injector - Disclosed is both an apparatus and method for quantifying an injection event of a fuel injector, including both multiple pulse and single pulse injection events. Typically, the fuel injector is a common rail injector. The apparatus includes a pressure chamber for isolating a portion of the injection pressure for reducing pressure waves and reflections which can create “noise” in the detection of an injection pressure. The invention further includes determining the precise start and end times of injection using cavitation created by the injection event by determining the intensity of light within a spray chamber. | 11-12-2009 |
20100126261 | Method for Measuring the Instantaneous Flow of an Injector for Gaseous Fuels - The instantaneous flow of an injector for gaseous fuels is calculated by measuring the pressure and temperature of a test gas injected inside a measuring chamber connected to the external environment in a continuous manner through a given outlet section and using a calculation formula, in which the instantaneous flow of the injector is a function of on the measured pressure, of a first factor as a function of a volume of the measuring chamber and the measured temperature, and of a second factor as a function of the measured temperature and the outlet section. | 05-27-2010 |
20110185798 | METHOD FOR DIAGNOSING FUEL INJECTORS - A fuel injector diagnostic is disclosed. In one example, the diagnostic can determine if that amount of fuel injected or the timing of start of injection is degraded. Thus, the fuel injector diagnostic method can distinguish between different types of injector degradation. | 08-04-2011 |
20110185799 | METHOD FOR ANALYZING THE STEP-BY-STEP INJECTION RATE PROVIDED BY A FUEL INJECTION SYSTEM USED IN A HIGH POWER HEAT ENGINE - The method of the invention includes the injection of fuel in a first constant-volume measuring chamber ( | 08-04-2011 |
20110239751 | Method and System of Testing a Fuel Injector - Disclosed is both an apparatus and method for quantifying an injection event of a fuel injector, including both multiple pulse and single pulse injection events. Typically, the fuel injector is a common rail injector. The apparatus includes a pressure chamber for isolating a portion of the injection pressure for reducing pressure waves and reflections which can create “noise” in the detection of an injection pressure. The invention further includes determining the precise start and end times of injection using cavitation created by the injection event by determining the intensity of light within a spray chamber. | 10-06-2011 |
20120125089 | METHOD FOR DIAGNOSING FUEL INJECTORS - A fuel injector diagnostic is disclosed. In one example, the diagnostic can determine if that amount of fuel injected or the timing of start of injection is degraded. Thus, the fuel injector diagnostic method can distinguish between different types of injector degradation. | 05-24-2012 |
20130025354 | METHOD AND DEVICE FOR TESTING A FUEL INJECTOR - A method for selecting a procedure for determining the injection time of individual injection operations of a fuel injector, which may be supplied with pressurized fuel via a feed line, includes activating the fuel injector using various known activation durations in the vicinity of a predefined operating point of the fuel injector; detecting the pressure curve over time in the feed line for a number of injection operations; evaluating the detected pressure curves over time using at least two different procedures for determining the injection time from the particular pressure curve; determining the correlation between the determined injection times and the particular activation period; selecting the procedure with the highest correlation. | 01-31-2013 |
20130276522 | METHOD FOR MANAGING THE OPERATION OF A FUEL METERING UNIT - The principal object of the invention is a method for managing the operation of a metering unit of a turbomachine fuel injection system, characterised in that a channel of the metering unit is selected according to the reliability of the injection system's flowmeter, determined by reliability conditions of the flowmeter providing information as to whether or not there is confidence in the flowmeter. | 10-24-2013 |
20140007665 | Method For Determining The Force Conditions At The Nozzle Needle Of A Directly Driven Piezo Injector - A method is disclosed for determining the force acting on the nozzle needle of a directly driven piezo injector, in which an electrical voltage is built on the piezo actuator which drives the nozzle needle by means of a charging process. After the charging process has ended, the voltage at the piezo actuator is measured again. A voltage gradient is determined from consecutive voltage values. Conclusions of the force acting on the nozzle needle are drawn from the voltage gradients. | 01-09-2014 |
20140102186 | METHOD FOR DETERMINING THE AMOUNT OF FUEL LEAVING AN INJECTOR - A method for determining the quantity of fuel leaving an injector of a direct-injection diesel engine, the quantity of fuel supplying a cylinder of the engine in which a piston moves, the injection of fuel being performed by a pilot injection during which a first quantity of fuel is injected into the cylinder followed by a main injection during which a second quantity of fuel, greater than the first quantity of fuel, is injected into the cylinder, the method including the following steps: a) operating the engine at idle speed, b) determining the maximum pressure in the cylinder, and c) determining, from the maximum pressure, the quantity of fuel injected into the cylinder during the pilot injection, by way of a predefined one-to-one relationship, at idle speed, between a maximum pressure value in the cylinder and a quantity of fuel injected into the cylinder during the pilot injection. | 04-17-2014 |
20150300286 | FUEL INJECTION APPARATUS AND CONTROL METHOD THEREOF - A fuel injection apparatus includes: a first obtaining unit that obtains a first index relating to an opening behavior of an injector; a second obtaining unit that obtains at least one of a second index relating to a maximum injection rate of the injector and a third index relating to an injection period; and a calculation unit that determines that injection hole corrosion has occurred in the injector when a first condition relating to the first index is established and at least one of a second condition relating to the second index and a third condition relating to the third index is established. | 10-22-2015 |
073114490 | Injector timing | 14 |
20100024537 | High pressure cavitation system - The present disclosure is directed towards a clamping assembly for compressing a plurality of optical plates of a high pressure cavitation system. The clamping assembly may include a mounting frame and a housing coupled to the mounting frame. The clamping assembly may further include a holder distal the housing, the holder having the plurality of optical plates disposed therein. The clamping assembly further including a controllable clamping mechanism operably coupled to a top of the housing, the controllable clamping mechanism applying an axial force to the plurality of optical plate. | 02-04-2010 |
20100223985 | Method And Device For Dynamically Determining A Segment For An Angular Spread, Inside Which Fuel is Injected Into An Internal Combustion Engine - In a method and a device for dynamically determining a segment for an angular spread, fuel is injected into an internal combustion engine and the useful injection range (IRu) and/or the relative position of the segment comprising the angular spread, in which a fuel injection can be carried out especially during a multiple injection, are variable. A corresponding adaptation of the useful injection range (IRu) can advantageously trigger a subsequent injection impulse, as required, for example, for a regeneration module of a diesel particle filter. The adaptation is carried out according to an operating parameter, for example according to the rotational speed gradient. | 09-09-2010 |
20100242581 | ABNORMALITY DETERMINATION DEVICE AND METHOD FOR INTERNAL COMBUSTION ENGINE - An ECU executes a program including: a control to advance or retard the fuel injection timing by a prescribed value; determining whether the torque output variation of an engine exceeds a threshold torque output variation; and determining the fuel injection timing to be abnormal if the torque output variation of the engine is equal to or below the threshold torque output variation. | 09-30-2010 |
20100275680 | METHOD AND DEVICE FOR CARRYING OUT AN ADAPTATION AND A DIAGNOSIS OF EMISSION-RELEVANT CONTROL DEVICES IN A VEHICLE - In a method and a device which allow carrying out of at least part of the adaptation and the diagnosis of a defined driving mode, the following steps are performed: determining whether the vehicle has reached a defined driving mode, carrying out a diagnosis of at least one of the emission-relevant control devices once it is detected that the vehicle has reached the defined driving mode, the diagnosis determining and optimizing at least one parameter of an operating point of at least one emission-relevant control device if said parameter deviates from a set range or a set value; and carrying out at least one adaptation step of the adaptation of at least one emission-relevant control device, at least one parameter of a plurality of operating points of the emission-relevant control devices being determined and optimized during said adaptation if said parameter deviates from a set range or a set value. | 11-04-2010 |
20100313641 | METHOD FOR DIAGNOSING THE CONDITION OF AN ENGINE FUEL SUPPLY SYSTEM - A method for diagnosing a condition of a system for supplying fuel to a fuel injected controlled-ignition internal combustion engine, of a type including an electric control device that makes use of an oxygen probe for closed-loop regulation of a value of air/fuel ratio admitted to combustion chambers of the engine, and according to which a signal delivered by an oxygen probe is analyzed, the method a) deducing from the signal, a change in a effective injection time making it possible to regulate richness of exhaust gases leaving the engine; b) calculating CRITERION=∫(CRITERION 1+CRITERION2+CRITERION3); c) comparing CRITERION against predetermined minimum and maximum threshold values THRESHOLD_MIN and THRESHOLD_MAX; d) diagnosing a defective condition when CRITERION is outside of a window included between THRESHOLD_MIN and THRESHOLD_MAX. | 12-16-2010 |
20100319444 | CETANE NUMBER ESTIMATION METHOD - A cetane number estimation method is provided in which: the preliminary injection is preformed multiple times at different compression end temperatures with a fuel tank ( | 12-23-2010 |
20110214495 | FUEL PROPERTY DETERMINATION APPARATUS FOR INTERNAL COMBUSTION ENGINE - An object of the present invention is to determine individually and accurately an ignitability index value and an evaporativity index value of a fuel. | 09-08-2011 |
20120011925 | ENGINE HEATER USE DETECTION SYSTEMS AND METHODS - A diagnostic system includes a temperature derivative module and a heater use module. The temperature derivative module determines a derivative of a temperature of one of a fluid of an engine of a vehicle and a component of the engine measured by a temperature sensor after a vehicle startup event. The heater use module selectively indicates that an engine heater was used before the vehicle startup event based on the derivative. | 01-19-2012 |
20120240670 | APPARATUS OF ESTIMATING FUEL INJECTION STATE - An apparatus of estimating fuel injection state of a fuel injection system have at least three injectors. The first and second injectors have fuel pressure sensors respectively. The third injector has no fuel pressure sensor. The apparatus detects an injected cylinder waveform to the first injector when the first injector injects fuel. The apparatus detects a first non-injected cylinder waveform to the second injector when the first injector injects fuel. The apparatus calculates correlations between the injected cylinder waveform and the first non-injected cylinder waveform. The apparatus acquires a second non-injected cylinder waveform detected by the first or second fuel pressure sensor when the third injector injects fuel. The apparatus estimates fuel injection state injected from the third injector based on the second non-injected cylinder waveform and the correlations. | 09-27-2012 |
20130104636 | ELECTRIC ACTUATION OF A VALVE BASED ON KNOWLEDGE OF THE CLOSING TIME OF THE VALVE | 05-02-2013 |
20140033811 | Method for Detecting Faulty Components of an Electronically Regulated Fuel Injection System of an Internal Combustion Engine - A method for detecting error-containing components of a piezo-injector in an internal combustion engine fuel-injection system is disclosed. The piezo-injector has a piezoelectric actuator and an injection needle driven thereby, and is configured for operation in a partial-stroke mode and a full-stroke mode. First, the internal combustion engine is brought to a defined operational point. Then, the time for the injector needle to strike its stop when said injector needle is opened, as well as the time for the injector needle to strike its needle seat again when said injector needle is closed, are measured. The measured times are compared to normal values determined at the test stand. Parameter(s) for the fuel-injection system are calculated, using different calculation models, and the results are stored. Finally, the calculated parameters of the different calculation models are compared to norm values determined at the test stand, and compared to one another. | 02-06-2014 |
20140230531 | FUEL INJECTION FEEDBACK SYSTEM AND METHOD - A fuel injection feedback system comprises a light source disposed inside a fuel injector, an optical sensor disposed inside the fuel injector, and a computing device electronically connected to the optical sensor. The light source is a device configured to emit light capable of being reflected by cavitation. The light source could be disposed on or within the needle or nozzle of the fuel injector, or at a variety of other locations inside the fuel injector. The optical sensor is configured to detect an intensity of light caused by receiving light reflected from cavitation occurring inside the fuel injector. | 08-21-2014 |
20150114099 | DIRECT INJECTION SOLENOID INJECTOR OPENING TIME DETECTION - A direct injection, solenoid fuel injector includes at least one current sensing function capable of detecting a current draw of the solenoid and a controller function. The controller is capable of determining a fully open time of the direct fuel injector solenoid based on the application of a slope inflection filter and a slope discrimination filter to a derivative of the current draw. | 04-30-2015 |
20160138509 | DETERMINING START OF INJECTION OF AN INJECTOR OF AN INTERNAL COMBUSTION ENGINE - A method for determining a start of injection of an injector of an internal combustion engine, including the following steps: time-resolved detecting of an individual storage pressure curve in a measurement interval; determining a test injection start with the aid of the individual storage pressure curve; determining a tendency of the individual storage pressure curve in a predetermined test interval prior to the test injection start; correcting the individual storage pressure curve subject to the tendency; and determining a start of injection with the aid of the corrected individual storage pressure curve. | 05-19-2016 |
073114510 | Injector pressure | 17 |
20080307870 | Onboard fuel injector test - A method of testdiagnosing the operation of each of a plurality of fuel injectors of an internal combustion engine system includes inhibiting ignition of the engine, monitoring a fuel pressure within a fuel rail of the engine and pulsing a fuel injector of the plurality of fuel injectors of the engine. Whether the fuel pressure has stabilized is determined and a pressure differential is calculated based on a pre-pulse fuel pressure and a post-pulse fuel pressure when the fuel pressure has stabilized. A technician determines whether the fuel injector is operating properly based on the pressure differential. | 12-18-2008 |
20100083742 | Method for testing the operation of a pressure sensing unit of an injection system of an internal combustion engine - In a method for testing the operation of a pressure sensing unit of an injection system of an internal combustion engine, the injection system has no high-pressure valve. An error is detected when a pressure gradient value falls below a pressure gradient limit while at the same time the most recently detected pressure is higher than a pressure limit. | 04-08-2010 |
20100147058 | FUEL INJECTOR DIAGNOSTIC SYSTEM AND METHOD FOR DIRECT INJECTION ENGINE - A fuel injector diagnostic system includes a fuel pump control module, a pressure sensor, and a diagnostic module. The fuel pump control module disables delivery of fuel to a fuel rail of an engine. The pressure sensor measures a first pressure of the fuel rail before an injection event and a second pressure of the fuel rail after the injection event on at least one of a plurality of injectors when the engine is running. The diagnostic module diagnoses a fault in the at least one of the injectors based on the first pressure and the second pressure. | 06-17-2010 |
20100251809 | METHOD AND DEVICE FOR DIAGNOSING AN INJECTION VALVE, CONNECTED TO A FUEL RAIL, OF AN INTERNAL COMBUSTION ENGINE - In a method for diagnosing an injection valve ( | 10-07-2010 |
20100319445 | FUEL STATE SENSING DEVICE - A fuel state sensing device is applied to an injector injecting fuel, which is supplied from a fuel pump, though an injection hole. The fuel state sensing device has a fuel pressure sensor (bulk modulus sensing section) for sensing a bulk modulus of the fuel existing in a fuel passage extending from a discharge port of the fuel pump to the injection hole. The fuel state sensing device has a fuel temperature sensor (fuel temperature sensing section) for sensing fuel temperature. The fuel state sensing device has an air mixing state calculating section for calculating a quantity or a ratio of air mixing in the fuel as an air mixing quantity or an air mixing ratio based on the sensed bulk modulus and the sensed fuel temperature. | 12-23-2010 |
20110016959 | METHOD AND DEVICE FOR CONTROLLING A FUEL METERING SYSTEM - A method and a device for controlling a fuel metering system are described. The fuel metering system includes at least one injector for injecting fuel into an internal combustion engine. An electric current value is applied to the at least one injector, and a rail pressure value is determined based on the electric current value. | 01-27-2011 |
20110185800 | DEVICE FOR ANALYZING THE STEP-BY-STEP INJECTION RATE PROVIDED BY A FUEL INJECTION SYSTEM USED IN A HIGH POWER HEAT ENGINE - The invention relates to a device that includes: a first chamber ( | 08-04-2011 |
20120118053 | METHOD FOR DETERMINING THE INJECTION LAW OF A FUEL INJECTOR - A method determines an injection law of a fuel injector to be tested in an injection system and includes steps of: completely interrupting feeding of fuel from a fuel pump to a common rail; avoiding opening of fuel injectors except for one injector to be tested; measuring initial pressure of the fuel inside the rail before starting the opening of the injector; opening the injector for consecutive openings greater than one with a same test-actuation time; measuring final pressure of the fuel inside the rail after ending the opening of the injector; determining a pressure drop in the rail during the opening of the injector, which is equal to a difference between the initial and final pressures; and estimating, according to the pressure drop in the rail, a fuel quantity that is actually injected by the injector when the injector is opened for the test-actuation time. | 05-17-2012 |
20120144907 | NOISE EXISTENCE DIAGNOSIS DEVICE FOR FUEL INJECTION SYSTEM - A waveform detector detects a variation in fuel pressure generated by an injection based on a detection value of a fuel pressure sensor as a fuel pressure waveform. A differential calculator calculates a differential waveform representing a variation in differential value of the fuel pressure waveform. A noise determiner determines that noise overlaps with the fuel pressure waveform when the differential waveform has a value higher than a predetermined upper threshold or when the differential waveform has a value lower than a predetermined lower threshold. | 06-14-2012 |
20120247194 | SENSOR APPARATUS INTEGRATED TO INJECTOR OF INTERNAL COMBUSTION ENGINE - A sensor apparatus that outputs an electrical signal responding to a physical quantity is provided. The sensor apparatus includes: a housing being screwed to a body and having an insertion hole; an electrical circuit section having an electrical component used for processing the electrical signal, being disposed at an one end side of the housing and integrated with the housing; and a plurality of pins inserted through the electrical circuit section, a first end of the pin being inserted into the insertion hole to be fixed therewith, a second end of the pin being protruded from the electrical circuit section to be capable of engaging with a jig. The jig is used to screw the housing to the body after the housing and the electrical circuit are integrated with each other. | 10-04-2012 |
20120247195 | SENSOR DEVICE - A sensor device where a jig is engaged to an engaging part formed in the housing, and the housing is rotated by the jig and screwed into the member to be mounted. A position in the rotating direction of the housing is configured to have a substantially constant position at the time the screw-fixing of the housing and the member to be mounted is completed. A shape of the engaging part when seen along a direction of a rotational axis X of the housing is formed into a non-regular polygon, and the engaging part and a mold IC are shifted and disposed to a side that has a margin in a space in the housing or around the mold IC so that the space around the sensor device is used effectively. | 10-04-2012 |
20120297867 | SYSTEM AND METHOD FOR MEASURING INJECTION PROCESSES - A system for measuring an injection process includes a measurement chamber filled with a fluid. An injection valve injects the fluid into the measurement chamber. A piston is arranged in the measurement chamber. A sensor generates a voltage which is a measure of a piston travel. The sensor is connected with an evaluation unit which continuously detects the piston travel in the measurement chamber. A rotary displacement pump arranged in a bypass channel to the measurement chamber is driven dependent on an existing volume difference. A pressure sensor is arranged in the measurement chamber. A heating element and/or a cooling device is/are arranged at the measurement chamber and is/are actuated by a controller so that an amount of energy introduced by the fluid injected by the injection valve and an amount of energy introduced by the heating element and/or the cooling device is substantially constant for every injection. | 11-29-2012 |
20130019670 | METHOD FOR DETECTING A MALFUNCTION IN AN ELECTRONICALLY REGULATED FUEL INJECTION SYSTEM OF AN INTERNAL COMBUSTION ENGINE - A method is provided for detecting a malfunction in an electronically regulated fuel injection system of an internal combustion engine, by which effective limitation of the cause of the fault in a fuel injection system can take place. For example, it can be determined whether the cause of the fault lies in the low pressure system or in the high pressure system of the fuel injection system. | 01-24-2013 |
20130220006 | CETANE NUMBER ESTIMATION APPARATUS - A cetane number estimation apparatus injects fuel from a fuel injection valve in a diesel engine based on a target fuel injection amount, calculates an indicator of output torque of the diesel engine produced through fuel injection, and estimates the cetane number of the fuel using the calculated indicator. The cetane number estimation apparatus includes a pressure sensor for detecting fuel pressure varied by variation in actual fuel pressure in the fuel injection valve at the time of the fuel injection. The cetane number estimation apparatus also has a pressure correcting section that is adapted to calculate actual operating characteristics of the fuel injection valve based on a variation waveform of the detected fuel pressure and corrects the target fuel injection amount based on the difference between the calculated actual operating characteristics and prescribed reference operating characteristics. | 08-29-2013 |
20140352416 | DEVICE AND METHOD FOR FAULT DETECTION IN A FUEL SUPPLY SYSTEM OF A MOTOR VEHICLE - Method for error detection in a fuel-supply system includes determining (s | 12-04-2014 |
20160138544 | METHOD AT FUEL INJECTION - A method is disclosed to determine the opening degree of injectors in cylinders in a combustion engine with at least three cylinders, wherein the injectors are connected to a fuel accumulator in a common rail fuel injection system, the fuel supply to the fuel accumulator is interrupted, and subsequently a test injection of fuel is carried out into at least two and at most all except one cylinder at a time, in different combinations, at such a time that the injection does not cause any combustion in the cylinders. The pressure decreases caused in connection with the different test injections are measured, and the pressure decrease which is attributable to at least one specific injector is calculated based thereupon, which is used in the determination of the injector's opening degree. | 05-19-2016 |
20160186709 | METHOD FOR THE INJECTOR-SPECIFIC DIAGNOSIS OF A FUEL INJECTION DEVICE AND INTERNAL COMBUSTION ENGINE HAVING A FUEL INJECTION DEVICE - A method for the injector-specific diagnosis of a fuel injection device of an internal combustion engine, including the following steps: detecting a pressure progression in an individual accumulator of an injector in a time-resolved manner; evaluating the detected pressure progression; determining if there is a fault state of the injection device in the region of the injector on the basis of the detected and evaluated pressure progression; and identifying the fault state on the basis of the detected and evaluated pressure progression. | 06-30-2016 |