Entries |
Document | Title | Date |
20080196698 | Evaporative Emission Control Apparatus and Method - A system of mechanical components that operate cooperatively to control evaporation of fuel or hydrocarbon leakage from engines is disclosed. In at least some embodiments, the system of mechanical components comprises a first valve assembly and a second valve assembly. The first valve assembly, which functions as a fuel-shut off valve assembly, governs whether fuel can proceed from a fuel bowl into a carburetor, and when closed, prevents fuel vapors from developing within the carburetor. The second valve assembly, which functions as a “vapor venting control valve assembly,” has an input port that is coupled by way of a fuel tank vapor hose to both a fuel tank and to the fuel bowl. When in a closed state, the second valve assembly controls the fuel vapors, which are provided to its input port from the fuel tank and the fuel bowl, from being communicated to an output port of the second valve assembly. | 08-21-2008 |
20080196699 | Gravity-controlled constant-pressure and pressure-regulation device - A gravity-controlled constant-pressure and pressure-regulation device includes a canister, a weight block, and a seal head. The canister includes a metal layer, an epoxy resin layer, and a plastic sheet layer. The metal layer serves as an inner lining. The epoxy resin layer surrounds an outer circumference of the metal layer. The plastic sheet layer surrounds an outer circumference of the epoxy resin layer. The weight block is movably received in the canister. The metal layer has an inner surface movably and receivingly engages the seal head. The weight block is mounted to the seal head. The weight block is movable upward and downward inside the canister by being acted upon by a gravity force of weight thereof and a lifting force induced by an internal pressure inside the canister to effect mass storage of air inside the canister and stable supply air at constant pressure. | 08-21-2008 |
20080202481 | Vapor recovery system for a vehicle fuel tank - A vapor recovery system for a vehicle fuel tank comprising a canister having a first chamber containing a first body of adsorbent material for adsorbing fuel from fuel vapor laden air, said first chamber having a vent inlet for communication with the headspace of a vehicle fuel tank, a vent outlet for communication with the atmosphere and a purge outlet for communication with the air intake of the vehicle engine via a purge flow path, an adsorption flow path being defined through said first body of adsorbent material between said vent inlet and vent outlet, a flow delaying means being provided within the purge flow path downstream of said purge outlet and upstream of said air intake for delaying the passage of gases through said purge flow path, a hydrocarbon sensing means being provided for sensing the presence of hydrocarbons in said purge flow path downstream of flow delaying means, the vapor recovery system further comprising control means, the control means determining a time interval between an initiation of a canister purge cycle for purging the first body of adsorbent material of hydrocarbons and the detection of hydrocarbons by the hydrocarbon sensing means, the control means determining the amount of hydrocarbon adsorbed by the canister in a previous adsorption cycle based upon such time interval. | 08-28-2008 |
20080223343 | Fuel vapor control apparatus - A filter box having an integrated vent solenoid to connect to the atmospheric port of an automotive emission storage canister in relation to the fuel tank of the vehicle, used to recapture fuel vapor before it is released into the atmosphere. The filter box with integrated vent solenoid is sealed to the atmospheric port of the canister, and consists of a filter housing with an internal feature to house and retain a vent solenoid, an optional foam filter to protect the vent solenoid and the canister against dust, and a filter cap to retain the filter foam. A closed cell foam or rubber O-ring provides a sealing between the filter cap and the filter housing. A labyrinth-type filter means is integrated within the cap of the filter box assembly and provides for separation of the air and dust traveling through the filter box, and a further sealing means provides a leak tight seal between the filter box and the canister. | 09-18-2008 |
20080236551 | CONTROL METHOD FOR AN INTERNAL COMBUSTION ENGINE - In a control method for an internal combustion engine ( | 10-02-2008 |
20080245347 | Method for diagnosing the operation of a purge device of an engine - This involves diagnosing the operation of a fuel vapor purge device on an internal combustion engine. The pressure value and/or mass flow rate admitted to the air inlet manifold is determined upstream of the manifold where it communicates with the vapor recirculation pipeline, a command to open the electrically operated purge valve is issued, the engine control electronics are provided with the pressure and/or mass flow rate value determined at the start, without taking account of the mass flow rate that should have passed through the valve if it is opened, the engine reacts, according to whether or not vapors have been supplied to the manifold, and at least one operating parameter of this engine is detected, and if this parameter does not reveal any variation in the engine operation it is deduced that there is a deficiency in the opening of the valve and/or a malfunctioning of the purge device. | 10-09-2008 |
20080271718 | Method for Fuel Vapor Canister Purging - A method of controlling fuel vapor purging in a hybrid electric vehicle capable of selectively operating an internal combustion engine is provided. The method includes, determining a fuel tank condition parameter based on an amount of liquid fuel residing in a fuel tank of the hybrid electric vehicle and a duration since the previous fuel tank filling event, in response to the fuel tank condition parameter exceeding a threshold limit, initiating operation of the internal combustion engine and purging fuel vapor from the fuel vapor canister for a predetermined duration, and in response to the fuel tank condition parameter being less than the threshold limit, selectively purging fuel vapor from the fuel vapor canister based on an engine operating condition. | 11-06-2008 |
20080295810 | FUEL RECOVERY SYSTEM FOR INTERNAL COMBUSTION ENGINES - A recovery system for fuel for motor vehicles includes a canister having an absorbent media such as activated charcoal. The canister includes an inlet in fluid communication with the blow-by vent of an internal combustion engine and an outlet in communication with the air intake manifold of the engine. Control valves may be incorporated into the system to control fluid flows. As a single vaporization temperature fuel or fuel constituent such as ethanol that has mixed with engine oil during startup vaporizes when the oil reaches its vaporization temperature, it is first absorbed in the activated charcoal and then slowly released and burned in the engine. The system has particular applicability to E85 fueled vehicles. | 12-04-2008 |
20080302341 | EVAPORATIVE EMISSION CONTROL SYSTEM WITH NEW ADSORBENTS - One embodiment of the invention includes an adsorbent canister in a vehicle and an adsorbent having a nearly linear isotherm provided in the adsorbent canister. | 12-11-2008 |
20080314369 | Fuel vapor treatment system - A fuel vapor treatment system which has adsorbent, a purge passage for introducing a mixture gas of air and the fuel vapor desorbed from the adsorbent into the internal combustion engine, a detection passage which communicates to the purge passage, and a pump which generates gas flow so that the mixture gas flows into the detection passage from the purge passage. A pressure sensor detects fuel vapor concentration. An ECU and a purge control valve controls a purge of the mixture gas from the purge passage to the internal combustion engine based on a reference concentration of the fuel vapor. The ECU establishes the detection interval of the fuel vapor concentration in consideration of change in reference concentration. | 12-25-2008 |
20090000603 | FUEL VAPOR TREATMENT SYSTEM - An ECU computes a transit time from a time when the fuel vapor passes the purge valve right after the purge valve is opened until a time when the fuel vapor reaches a vicinity of the fuel injector. Further more, the ECU computes a fuel vapor concentration at the vicinity of the fuel injector after the transit time has elapsed based on a first-order lag curve which is defined by a maximum variation of the fuel vapor concentration and a time constant. Correcting the fuel injection quantity according to the fuel vapor concentration at the vicinity of the injector restricts a disturbance of air-fuel ratio at a time of starting purge process. | 01-01-2009 |
20090007890 | Multi-Path Evaporative Purge System for Fuel Combusting Engine - As one embodiment, a method of operating the evaporative purge system for an engine of a vehicle propulsion system is provided. The method comprises during a first condition, loading at least a first fuel vapor storage canister with fuel vapors; during a second condition, purging fuel vapors stored by at least the first canister to the engine; during a third condition, loading a second fuel vapor storage canister with fuel vapors without loading the first canister with fuel vapors; and during a fourth condition, purging fuel vapors stored by the second canister to the engine without purging fuel vapors from the first canister. Evaporative purge systems are also provided that enable this method. | 01-08-2009 |
20090056680 | ELECTRONIC VENTING AND MECHANICAL ROLL OVER VALVE - A valve including a mechanical part, e.g. a float, for performing a ROV function (Roll Over Valve) and an electronic part, e.g. an electronically controlled solenoid valve, for performing a venting function. | 03-05-2009 |
20090078238 | Fuel-Evaporated Gas Processing System and Electromagnetic Valve Device - A fuel-evaporated gas processing system includes an input port taking in evaporated gas evaporated in a fuel tank; output ports supplying the evaporated gas taken in through the input port to an intake system of an engine; a chamber interposed between the input port and the output ports; an electromagnetic valve device including at least first and second electromagnetic valves disposed in the connection between the input port or the output ports and the chamber, either of the input port or the output ports being branched off into a plurality of sections, and perform opening and closing operations in response to a driving signal; and a valve control means driving the first and the second electromagnetic valves of the electromagnetic valve device. | 03-26-2009 |
20090084363 | Regeneration of Evaporative Emision Control System for Plug-in Hybrid Vehicle - A plug-in hybrid vehicle is driven by one or more electric motors powered by a battery system with supplemental electric power provided by a gasoline engine powered generator. A canister with fuel vapor adsorptive material, connected by a fuel vapor vent passage, is used to admit and temporarily adsorb fuel vapor from a vehicle fuel tank during refueling and diurnal heating. The canister also has an air flow passage for venting the canister and introducing ambient air (in the reverse flow direction) for removing vapor stored in the canister during canister purging. The canister has a second passage for conducting air and purged vapor from the canister to the operating engine. When engine operation is insufficient to purge fuel vapor from the fuel adsorptive material, microwave energy is used to heat the material to purge adsorbed fuel vapor and drive the vapor back through the fuel vapor vent passage into the fuel tank. A vacuum pump in the vent passage may assist the flow of the purged fuel vapor. | 04-02-2009 |
20090107472 | FUEL VAPOR PROCESSING APPARATUS - The present invention includes a first canister disposed within an intake air passage. The first canister communicates with a fuel tank via a second canister, so that a fuel vapor produced within the fuel tank can be purged by the second canister and further by the first canister. The second canister communicates with the intake air passage via a purge passage. The negative pressure within the intake air passage may be applied to the first and second canisters via the purge passage, so that the fuel vapor adsorbed by the first and second canisters can be desorbed or purged and can then be returned into the intake air passage. | 04-30-2009 |
20090126702 | VAPOR CANISTER HAVING INTEGRATED EVAPORATIVE EMISSION PURGE ACTUATION MONITORING SYSTEM HAVING FRESH AIR FILTER - A vapor canister having an integrated evaporative emission canister purge actuation monitoring system. The vapor canister has a plurality of sidewalls defining a housing with a valve body formed integrally on the housing and a cover mounted to the valve body so as to define a vent chamber between the cover and the valve body. The integrated valve body has a main flow passage and a canister port. An air filter assembly is disposed adjacent to the valve body on the housing and provides fluid communication between the main flow passage and the ambient air. A first one-way umbrella valve mounted to the valve body that is responsive to predetermined positive pressure in the main flow passage to control flow of fluid from a vapor canister to ambient air as well as a second one-way umbrella valve that is responsive to a predetermined negative pressure in the main flow passage to control the flow of ambient air through an air filter assembly. | 05-21-2009 |
20090126703 | Vapor canister having integrated evaporative emission purge actuation monitoring system - A vapor canister having an integrated evaporative emission canister purge actuation monitoring system. The vapor canister has a housing with an integrated valve body having a main flow passage, a first one-way umbrella valve mounted to the valve body that is responsive to predetermined positive pressure in the main flow passage to control flow of fluid from a vapor canister to ambient air as well as a second one-way umbrella valve that is responsive to a predetermined negative pressure in the main flow passage to control the flow of ambient air through a fresh air port. A vacuum actuated switch is supported by the integrated valve body and in electrical communication with a control unit. The switch is responsive to negative pressure in the main flow passage to send a signal indicative of the predetermined negative pressure to the control unit. | 05-21-2009 |
20090133673 | FUEL VAPOR TREATMENT SYSTEM - A fuel vapor treatment system is mounted on a hybrid vehicle having an internal combustion engine and an electric motor. Even when an internal combustion engine is stopped, a discharge of fuel vapor from a first canister to atmosphere can be detected. When the discharge of the fuel vapor from the first canister is detected, the internal combustion engine is started to perform a purge process. When it is detected that the purge process in the first canister is finished, the internal combustion engine is stopped to terminate the purge process. | 05-28-2009 |
20090139496 | HYDROCARBON FUEL VAPOUR FILTER SYSTEM - A hydrocarbon vapour filter system for capturing vapour released from a fuel tank. The system contains a vapour line in vapour-tight communication with the fuel tank, having a vapour capture segment for capturing fuel vapour, and in in the preferred embodiment a purging stage releasing the fuel vapour. During engine operation captured fuel vapour can be released from the vapour capture line into air drawn into the engine intake manifold. | 06-04-2009 |
20090151707 | TANK ASSEMBLY AND COMPONENTS - A tank assembly and fuel system for an engine having an engine intake. The fuel system may comprise a tank housing defining an interior and an exterior and an opening between the interior and the exterior, a liquid being containable in the interior, vapor being produceable from the liquid, a closure housing connectable to the tank housing to selectively close the opening, a vapor path from the tank interior to the engine intake, and adsorption media for trapping harmful components in the vapor, the adsorption media being supported in the vapor path and being positioned in the vapor path between the tank interior and the engine intake. | 06-18-2009 |
20090211560 | Method for Operating a Tank System Comprising a Tank, and Tank System - The invention relates to a method for operating a tank system, in particularly of a motor vehicle, comprising a tank. According to the invention, said tank system has an adsorption filter for capturing the volatile substances exiting the tank. The loading of the adsorption filter suggests that the tank is being filled. | 08-27-2009 |
20090250039 | FUEL VAPOR RECIRCULATION DEVICE FOR VEHICLE - A fuel vapor recirculation device may includes: a canister that is connected with a fuel tank through a vapor line and a purge line configured with a pressure control solenoid valve; a vapor control valve that is disposed on the vapor line and selectively connects the fuel tank and the canister corresponding to operation of an engine control unit; a vapor recirculation valve unit that is connected with the canister, receives fuel vapor from the canister, discharges the fuel vapor to the atmosphere or recirculates the fuel vapor to the canister, and supplies air to the canister; and a one-way check valve that is disposed between the purge line and the canister, wherein the one-way check valve supplies air to the vapor recirculation valve unit when a negative pressure is generated in the purge line. | 10-08-2009 |
20090255516 | SOLENOID VALVE - A solenoid valve is directly connected to the intake pipe | 10-15-2009 |
20090277426 | GAS VAPOR CONTROL SYSTEM AND METHOD THEREOF - A gas vapor control system may include a canister for capturing gas vapor that is generated from a fuel, a throttle valve that is disposed substantially in the middle of an intake passage through which air flows into a cylinder of the engine, a gas passage that communicates from the canister to one side downstream of the throttle valve, a purge control valve that is disposed on the gas passage, and a control portion that stops an engine in an idle state and controls a real fuel injection amount that is to be injected while restarting the engine according to a first fuel amount that is included in gas vapor that is discharged into the intake passage. | 11-12-2009 |
20090277427 | DIAGNOSTIC DEVICE AND DIAGNOSTIC METHOD FOR FUEL VAPOR TREATMENT SYSTEM OF VEHICLE - A diagnostic device for a fuel vapor treatment system having: a canister that captures fuel vapor generated in a fuel tank; a purge passage for purging fuel vapor from the canister to an intake passage of an internal combustion engine; a purge valve provided in the purge passage to adjust a flow rate of fuel vapor; a processing device that depressurize an fuel vapor path extending from the fuel tank to the purge valve via the canister by a pump and performs a diagnostic processing for diagnosing a leak of fuel vapor from the fuel vapor path based on a change in pressure in the fuel vapor path during depressurization; and an angle detection device that detects an angle of inclination of the vehicle. The processing device determines, based on an inclination angle of the vehicle detected by the angle detection device, whether the diagnostic processing can be performed. | 11-12-2009 |
20090288645 | Evaporative Emission Management For Vehicles - Evaporative emissions management for a vehicle having a fuel tank and a low-vacuum internal combustion engine, including hybrid electric vehicles, include first and second canisters with the second canister disposed between the first canister and atmosphere. A refueling valve routes fuel vapors from the fuel storage tank through the first canister, and to the second canister when the first canister becomes saturated, during refueling. Other than during refueling, the refueling valve is closed to route fuel vapors around the first canister and directly into the second canister. First and second purge valves are controlled during canister regeneration or purging so air from atmosphere is routed primarily through the second canister to the engine to purge the second canister before the purge valves are operated to route air from atmosphere through both the second and first canisters to purge the first canister. | 11-26-2009 |
20090293849 | Venting device for fuel tank - The fuel tank venting device is furnished with a full fuel control valve and a rollover valve that are installed on a fuel tank, and a fuel tank valve unit having a pressure valve that is situated between a canister and the two valves. The pressure valve is furnished with a casing that has a valve chamber, a valve body housed within the valve chamber, and a spring. The valve body has a disk-shaped valve part and a side wall that projects with tubular contours from the outside perimeter of the valve part, and has a cup shape defining a spring chamber that is bounded by the valve part and the side wall. The valve part is perforated by an orifice of smaller planar dimensions than the valve aperture. | 12-03-2009 |
20090308359 | NOISE MINIMIZATION FOR EVAPORATIVE CANISTER VENTILATION VALVE CLEANING - A control system comprising a detection module that detects at least one of a vehicle speed and an engine speed and a canister vent valve control module that selectively modulates the canister vent valve based on at least one of the vehicle speed and the engine speed. A method comprising detecting at least one of a vehicle speed and an engine speed and selectively modulating a canister vent valve based on at least one of the vehicle speed and the engine speed. | 12-17-2009 |
20090314261 | VAPORIZED FUEL PROCESSING DEVICE IN WORK MACHINE - In an working machine in which: an engine and a fuel tank for the engine are mounted on a machine body; an air cleaner mounted outside the machine body has a cleaner case including a cylindrical case body and a lid body being mounted on one end of the case body, and a cleaner element being housed in the cleaner case and dividing the inside of the cleaner case into a pre-purification chamber and a post-purification chamber; and an air-outlet pipe is connected to an intake system of the engine with an intake duct interposed therebetween, a canister capable of absorbing a vaporized fuel generated in the fuel tank is attached to the fuel tank or the machine body; a purge joint communicating with the post-purification chamber is provided to the lid body of the air cleaner; and a purge conduit extending from the canister is connected to the purge joint. Accordingly, it is possible to take a vaporized fuel generated in the fuel tank into the engine by utilizing the lid body of the air cleaner. | 12-24-2009 |
20100012099 | SYSTEM AND METHOD FOR IMPROVING FUEL VAPOR PURGING FOR AN ENGINE HAVING A COMPRESSOR - A system and method for storing and purging fuel vapors for an internal combustion engine comprising a compressor is presented. The system allows the canister to be purged even while the engine is operated at high engine load. | 01-21-2010 |
20100012100 | Control Device for an Internal Combustion Engine - A control device for an internal combustion engine can quickly control, regardless of variation of the quantity of evaporative fuel gas adsorbed in a canister of the engine, the air-fuel ratio to a target value by performing air-fuel ratio feedback compensation control so as not to cause the emission performance of the engine to deteriorate. For the first canister purge performed after the engine is started up, a purge valve is driven for a prescribed period at a prescribed purge flow rate. During the period, the quantity of purged fuel is calculated using an air-fuel ratio feedback factor. Based on the fuel quantity thus calculated, an adsorption quantity estimation section estimates the quantity of evaporative fuel gas adsorbed in the canister. At the same time, a fuel evaporation quantity calculation section calculates the quantity of fuel evaporating from a fuel tank according to the condition of the engine and vehicle, and the quantity of fuel in the canister is estimated based on the balance between the quantities of fuel charged to and purged from the canister. | 01-21-2010 |
20100031932 | METHOD FOR CONTROLLING AN INTERNAL COMBUSTION ENGINE AND INTERNAL COMBUSTION ENGINE - An internal combustion engine ( | 02-11-2010 |
20100071672 | Method for testing the function of a pressure switch of a tank ventilation system, control device, and internal combustion engine - The switched state of a pressure switch in a tank ventilation system of a motor vehicle is used for testing the function of the tank ventilation system, the pressure switch being in a low-pressure position if the pressure in the tank ventilation system is lower than a predefined pressure limit while being in a high-pressure position if that is not the case. A defective pressure switch can result in wrong assessments. Disclosed is a method for testing the function of the pressure switch, the method encompassing the following steps: a switched state of the pressure switch is detected; a measure is carried out that increases the pressure in the tank ventilation system above the pressure limit if the pressure switch is in the low-pressure position; a defect of the pressure switch is identified if the pressure switch remains in the low-pressure position after carrying out the measure. | 03-25-2010 |
20100089369 | Crankcase Vapor Management System - An engine assembly includes a vapor canister in selective fluid communication with a crankcase to store alcohol vapor when the temperature inside the crankcase causes alcohol accumulated in the crankcase to boil. The vapor canister is in selective fluid communication with an air induction system to recirculate the alcohol vapor through the engine in a metered fashion. | 04-15-2010 |
20100126477 | EVAPORATIVE EMISSIONS CONTROL SYSTEM - A sealable fuel vapor storage and recovery system includes a sealable fuel tank and a vapor storage device. The vapor storage device includes a first end, a chamber and a second end defining a linear flow path. A vent valve is selectively controllable to one of an open position and a closed position and imposes substantially no flow restriction. | 05-27-2010 |
20100132676 | EVAPORATION FUEL PROCESSING SYSTEM AND PURGING METHOD THEREFOR - An evaporation fuel processing system is equipped with a vapor passage, a canister, a purging passage, a purge control valve, a filling amount detector, and an ECU. The ECU comprises an adsorption amount detecting circuit that detects the adsorption amount of an evaporation fuel, which is adsorbed by the canister upon filling of the fuel at a time when a fuel is filled into a fuel tank, a breakthrough time calculating circuit that calculates a time, based on the detected adsorption amount, at which the canister would experience breakthrough in the event that the evaporation fuel were not purged into an engine from the canister, and a control circuit that carries out purge processing by the purge control valve based on the calculated time. | 06-03-2010 |
20100139625 | VEHICLE FUEL SYSTEM AND COMPONENTS THEREOF - A fuel vapor control valve comprising a housing. The housing comprising inlet and outlet ports in flow communication via first and second valve controlled passages. The first valve controlled passage being configured to admit fuel vapor flow in a direction from the inlet port to the outlet port only when pressure at the inlet port exceeds a predetermined threshold. The second valve controlled passage being configured to admit vapor flow in a direction from the outlet port to the inlet port only when pressure at the inlet port drops below pressure at the outlet port. The fuel vapor control valve further comprising a sealing arrangement disposed at an external portion of the housing between the inlet and outlet ports. | 06-10-2010 |
20100192925 | CONTROL DEVICE FOR INTERNAL COMBUSTION ENGINE AND CONTROL METHOD FOR INTERNAL COMBUSTION ENGINE - An engine includes: a valve stop mechanism that varies the number of operating cylinders as a cylinder cut-off mechanism; and a blow-by gas recirculation system that has a blow-by gas passage that returns blow-by gas, flowing from a combustion chamber to a crankcase, to an intake passage and a PCV valve that is equipped with an electric motor and that adjusts the flow rate of gas returned to the blow-by gas passage. A control device variably sets the opening degree, corresponding to a target value of the flow rate of gas, of the PCV valve on the basis of an intake pressure in an intake passage to adjust the opening degree of the PCV valve so that the flow rate of gas becomes the target value. | 08-05-2010 |
20100206272 | Fuel System for Vehicle with Engine - A fuel system for a vehicle with an engine includes: a fuel tank for storing fuel: first and second ports disposed on a wall of the fuel tank, between which wall and a fuel fluid level a clearance is created when the fuel is contained in an allowable maximal amount in the fuel tank of the vehicle in a horizontal state, the first and second ports being positioned frontward and rearward, respectively, in a longitudinal direction of the vehicle, and the first port and the second port being out of alignment in a lateral direction; a canister for adsorbing and releasing a fuel vapor; an inflow line for sending the fuel vapor generated in the fuel tank to the canister through the first and second ports; and a discharge line for sending the fuel vapor from the canister to an air-intake path to the engine. | 08-19-2010 |
20100218749 | Intake Manifold With Integrated Canister Circuit For A Supercharged Internal Combustion Engine - An intake manifold with integrated canister circuit for a supercharged internal combustion engine; the intake manifold is provided with: a tubular body in which a plenum is defined; a sorting chamber, which is obtained in a wall of the tubular body; a canister solenoid valve, which is arranged in the sorting chamber and is adapted to adjust the introduction of gasoline vapours into the sorting chamber itself; a first pipe, which is obtained in the wall of the tubular body, puts the sorting chamber into communication with the plenum, and defines a first branch of a recovery pipe; a second pipe, which is obtained in the wall of the tubular body and defines an initial portion of a second branch of the recovery pipe; a first one-way valve which is arranged in the sorting chamber in correspondence of the first pipe and allows, through the first pipe, only a flow towards the plenum; a second one-way valve which is arranged in the sorting chamber in correspondence of the second pipe and allows, through the second pipe, only a flow through the intake pipe. | 09-02-2010 |
20100224171 | FUEL VAPOR PURGING DIAGNOSTICS - Systems and methods are provided for monitoring reverse flow of fuel vapors and/or air through a vehicle fuel vapor recovery system, said fuel vapor recovery system coupled to an engine intake of a boosted internal combustion engine. One example method comprises, during boost, when the fuel vapor recovery system is commanded to be sealed from the intake, indicating degradation based on a pressure value in the fuel vapor recovery system. | 09-09-2010 |
20100224172 | EVAPORATED FUEL CONTROLLING APPARATUS FOR ALL TERRAIN VEHICLE - An evaporated fuel controlling apparatus for an all terrain vehicle can avoid the influence of disturbance and can be disposed efficiently. The evaporated fuel controlling apparatus includes a canister adapted to absorb evaporated fuel generated from a fuel tank, a purge path adapted to connect the canister and an intake system of an engine to each other, and a purge controlling section adapted to control a flow rate of the evaporated fuel to be supplied from the canister to the intake system of the engine through the purge path. At least the canister from among the canister, purge path and purge controlling section is mounted on a vehicle body front frame FrF which supports a steering mechanism. | 09-09-2010 |
20100229837 | EVAPORATIVE EMISSION SYSTEM AND METHOD FOR CONTROLLING SAME - A method for controlling an automotive canister purge valve in fluid communication with an evaporative canister includes selecting a purge flow rate of increase for the purge valve based on a hydrocarbon concentration in a fluid stream exiting the evaporative canister, and operating the purge valve based on the selected rate. | 09-16-2010 |
20100263635 | CONTROL DEVICE OF INTERNAL COMBUSTION ENGINE - A control device of an internal combustion engine includes a target air-fuel ratio set portion that sets a target air-fuel ratio according to an operating state of the internal combustion engine, an air-fuel ratio detection portion that detects an actual air-fuel ratio, a feedback correction value calculation portion that calculates a feedback correction value to correct a fuel injection amount for the actual air-fuel ratio to coincide with the target air-fuel ratio, and a fuel property change determination portion that determines a change of a fuel property on the basis of a change of a correction amount including a correction value for the fuel injection amount calculated on the basis of the feedback correction value in addition to the feedback correction value. The control device can determine a change of the fuel property accurately even when a change of the feedback correction value is reflected on another correction value. | 10-21-2010 |
20100275888 | Engine Evaporative Emissions Control System - An evaporative emissions system may include a first passage selectively providing fluid communication between a fuel vapor region of a vehicle fuel reservoir and an engine air intake system, a second passage in fluid communication with the fuel vapor region and ambient air, and a filter assembly. The filter assembly may be impermeable to at least one of oxygen and hydrocarbons and may be located in the second passage between the fuel vapor region and ambient air. The filter assembly may prevent the at least one of oxygen and hydrocarbons from traveling between the fuel vapor region and ambient air. | 11-04-2010 |
20100307461 | Hydrocarbon Storage Canister Purge System and Method - A hydrocarbon canister purge system includes a hydrocarbon storage canister, a fuel tank disposed in fluid communication with the hydrocarbon storage canister, an engine disposed in fluid communication with the hydrocarbon storage canister, a hydrocarbon sensor provided in the hydrocarbon storage canister and a controller disposed in signal-receiving communication with the hydrocarbon sensor and in signal-transmitting communication with the engine. | 12-09-2010 |
20100307462 | Vehicle Fuel Vapor Management - A fuel vapor recovery system and method for an automotive vehicle are disclosed. The vehicle fuel tank is vented to atmosphere via a passageway having a carbon canister to remove fuel vapors, a bladder, and a normally-closed isolation valve. When fueling the vehicle, the gases in the fuel tank displaced by entering fuel are introduced into the carbon canister where the fuel vapors are stored. The isolation valve is commanded to open to allow such flow through the carbon canister. When the vehicle is parked for a period of a day, it undergoes a diurnal temperature change which causes fuel to vaporize into the fuel system. According to an aspect of the present development, the isolation valve remains closed and the gases are contained within the bladder as it expands or contracts as the volume of gases increases or decreases in response to temperature changes. | 12-09-2010 |
20100307463 | Vehicle Fuel Vapor Management - A fuel vapor recovery system and method for an automotive vehicle are disclosed. The vehicle fuel tank is vented to atmosphere via a passageway having a carbon canister to remove fuel vapors, a bladder, and a normally-closed isolation valve. When fueling the vehicle, the gases in the fuel tank displaced by entering fuel are introduced into the carbon canister where the fuel vapors are stored. The isolation valve is commanded to open to allow such flow through the carbon canister. When the vehicle is parked for a period of a day, it undergoes a diurnal temperature change which causes fuel to vaporize into the fuel system. According to an aspect of the present development, the isolation valve remains closed and the gases are contained within the bladder as it expands or contracts as the volume of gases increases or decreases in response to temperature changes. | 12-09-2010 |
20100307464 | Method for Fuel Vapor Canister Purging - A method of controlling fuel vapor purging in a hybrid electric vehicle capable of selectively operating an engine includes initiating purging in response to an amount of liquid fuel residing in a fuel tank of the hybrid electric vehicle and a duration since the previous fuel tank filling event. | 12-09-2010 |
20110017178 | CANISTER PURGE CONTROL VALVE CONTROL SYSTEMS - A purge control valve control system is provided for an internal combustion engine system, comprising: a voltage source having a positive potential and a negative potential; a purge control valve having a solenoid, such solenoid comprising an electrically inductive element, such inductive element having a first terminal coupled to the positive potential of the voltage source; a diode having an anode and a cathode. The control unit includes a transistor having: a control electrode fed by a train of pulses; a first electrode coupled to the negative potential of the voltage source; and a second electrode coupled to a second terminal of the inductive element and to the diode. A train of pulses fed to the control electrode is a pulse width modulated signal and switches the transistor between a conducting condition, wherein current passes between the first electrode and the second electrode, and a non-conducting condition, wherein current is prevented from passing between the first electrode and the second electrode. When the transistor is in the conducting condition current from the voltage source passes through the inductive element and through the first and second electrodes with a potential being produced across the diode to bias the diode to a non-conducting condition and wherein when the transistor switches into the non-conducting condition, energy stored in the inductor when current passes through the inductor during the conducting condition of the transistor, produces a voltage pulse to bias the diode to a conducting condition and such stored energy is dissipated in the inductor as such energy passes as current through the conducting biased diode to the voltage source. | 01-27-2011 |
20110023837 | FUEL VAPOR PURGING DIAGNOSTICS - Systems and methods are provided for monitoring reverse flow of fuel vapors and/or air through a vehicle fuel vapor recovery system, said fuel vapor recovery system coupled to an engine intake of a boosted internal combustion engine. One example method comprises, during boost, when the fuel vapor recovery system is commanded to be sealed from the intake, indicating degradation based on a pressure value at a venturi in the fuel vapor recovery system. | 02-03-2011 |
20110079201 | DIAGNOSTIC STRATEGY FOR A FUEL VAPOR CONTROL SYSTEM - A method for operating a fuel vapor control system included in a vehicle having an internal combustion engine is provided. The method may include storing positive pressure or negative pressure in an isolated fuel tank, transferring at least a portion of the positive pressure or the negative pressure to an evaporation canister region, and determining degradation of the evaporation canister based on a pressure response of the evaporation canister region while the evaporation canister region is isolated from the fuel tank. In this way, it is possible to utilize pressure that may be passively generated in one portion of the system, even during shut-down engine operation, to verify the integrity of another portion of the system. | 04-07-2011 |
20110108008 | HYDROCARBON EMISSION SCAVENGER AND METHOD FOR MAKING - A hydrocarbon adsorber and a thermoplastic resin combined and formed to a porous scavenger for insertion into the air intake system of a motor vehicle engine. The resulting porous scavenger adsorbs volatile hydrocarbon molecules from raw fuel remaining in the air intake when the engine is shout off. The adsorbed molecules are then stripped or purged from the scavenger and reintroduced into the air intake when the engine is next started. | 05-12-2011 |
20110120425 | Evaporated Fuel Processing Device - A solenoid switching valve is provided at a low concentration gas pipe that sends gas from a second separating film unit to a canister. A reflux pipe, that is branched-off from the low concentration gas pipe by the solenoid switching valve, merges with a medium concentration gas pipe that is from the second separating film unit, and further runs via a circulating pipe, and reaches a merge portion with a purge pipe from the canister. By switching the solenoid switching valve to the merge portion side and driving a purge pump that is provided at an exhaust pipe between the merge portion and a first separating film unit, gas, whose concentration has risen within the low concentration gas pipe, is sent to the first separating film unit, and is separated into high concentration gas HG and low concentration gas LG. | 05-26-2011 |
20110139130 | Automotive Fuel System Leak Testing - Systems and methods for performing leak testing on fuel system components in hybrid vehicles during engine-off operating conditions are disclosed. For example, a fuel tank may include a pressure accumulator which may be filled with fuel via a fuel pump in order to generate a vacuum which may be used to diagnose leaks in the fuel system. | 06-16-2011 |
20110146630 | SYSTEM AND METHOD FOR CONTROLLING EVAPORATIVE EMISSIONS - Disclosed herein is a system and method for controlling evaporative emissions in an internal combustion engine. A control valve assembly having a valve housing having an inlet portion, a first outlet portion and a second outlet portion, and a vapor chamber is provided. The vapor chamber is situated within the housing and is in communication with the inlet portion, first outlet portion and second outlet portion. The assembly is configured to receive fuel vapors from a fuel vapor source, through the inlet portion into the valve chamber. The assembly is further configured to selectively actuate a piston member situated at least partially inside the valve chamber for communicating the fuel vapors in the vapor chamber to either: (i) at least one of the atmosphere and an engine air inlet system via the second outlet portion when the engine is operating or otherwise engaged to be operated, or (ii) to a crankcase of the engine via the first outlet portion when the engine is not operating. | 06-23-2011 |
20110146631 | EVAPORATED FUEL TREATMENT APPARATUS FOR INTERNAL COMBUSTION ENGINE - An evaporated fuel treatment apparatus collects vapor, generated in a fuel tank, in a canister. A bypass passage is provided for an intake passage. An ejector is placed in the bypass passage to generate a negative pressure by air flowing in the bypass passage. When the negative pressure occurs in the ejector, the vapor collected in the canister is drawn from the canister to the ejector through the purge passage and then purged from the bypass passage to the intake passage. An open/close valve placed in the ejector is configured to allow or block the flow of air from the intake passage to the bypass passage according to a pressure difference between the pressure in an upstream portion and the pressure in a downstream portion of the bypass passage during engine operation. | 06-23-2011 |
20110203554 | EVAPORATED FUEL TREATMENT APPARATUS AND METHOD OF DETECTING FAILURE IN CONTROL VALVE - An evaporated fuel treatment apparatus including a canister for adsorbing an evaporated fuel in a fuel tank, a control valve at a vapor path communicating with a fuel tank and a canister, has a dead-zone range where a flow of the evaporated fuel is blocked even if an opening angle of the control valve is increased in an open direction from zero opening angle, and allows the evaporated fuel to flow through over the dead-zone range. The control unit increases the opening angle from substantially zero to a predetermined angle in the dead-zone range and stands by prior to the opening control, and increases the opening angle from the predetermined angle upon the opening control. An output value by control unit set in the dead-zone range is compared with a detected value to detect a failure of the control valve. | 08-25-2011 |
20110220071 | EVAPORATED FUEL TREATMENT APPARATUS - An evaporated fuel treatment apparatus includes a control valve having a dead zone range in which an evaporated fuel is blocked even if the opening angle is increased from a close position in opening direction and a communicating range in which the evaporated fuel is allowed to flow therethrough when opening angle is increased from the dead zone range. A control unit determines whether the opening angle is switched between the dead zone range and the communicating range. The switching is determined on the basis of a pressure inside the fuel tank detected with a pressure sensor and an air-fuel ratio detected by an air-fuel ratio sensor. A control valve installed in a communication path between a fuel tank and a canister is prevented from being seized. | 09-15-2011 |
20110232611 | AMMONIA VAPOR MANAGEMENT SYSTEM AND METHOD - A method is described for managing vapors generated from an ammonia-containing reductant delivery system. The method may include generating ammonia vapors in a first storage device and storing said generated ammonia vapors in a second storage device. Further, the method may include purging the stored vapors from the second storage device to upstream of a combustion chamber of the engine during a first condition and downstream of the combustion chamber during a second condition. | 09-29-2011 |
20110239994 | EVAPORATIVE EMISSIONS SYSTEM WITH CANISTER HAVING IMPROVED VENTING STRUCTURE, AND VEHICLE INCLUDING SAME - A vehicle includes a fuel tank, a canister for temporarily storing vaporized fuel from the fuel tank, a charge pipe that connects the fuel tank and the canister and that introduces vaporized fuel from the fuel tank to the canister, a purge pipe that connects the canister with an intake system of an internal combustion engine, and a vent pipe that connects the canister with ambient air outside of the canister. An opening of the vent pipe is arranged to open upwardly with respect to the vehicle body in a recessed portion that is formed in a hollow shape and opens downwardly in the vehicle body. A space is formed to partially open in an interval to a recessed portion sidewall of the recessed portion, and a locking member is also provided to cover the opening of the recessed portion from below. | 10-06-2011 |
20110247593 | CONTROL APPARATUS FOR INTERNAL COMBUSTION ENGINE - A control apparatus for an internal combustion engine includes a fuel tank; a vaporized fuel tank that is connected to an intake passage; an in-tank fuel supplying portion that supplies fuel in the fuel tank to the vaporized fuel tank; a vaporized fuel supply valve that opens and closes a connecting portion between the vaporized fuel tank and the intake passage; an air introduction valve provided in the vaporized fuel tank; a throttle valve; a vaporized fuel producing portion that produces vaporized fuel in the vaporized fuel tank; a vaporized fuel supplying portion that supplies vaporized fuel stored in the vaporized fuel tank; and a supply amount controlling portion that controls a supply amount of vaporized fuel according to an opening amount of the throttle valve by driving the throttle valve when supplying vaporized fuel. | 10-13-2011 |
20110247594 | VACUUM SUPPLY SYSTEM - A method of operating a boosted engine system is described in which an ejector coupled with a fuel vapor purging system can generate vacuum during both purging and non-purging conditions, and during both boosted and non-boosted conditions. The vacuum can therefore be used to power vacuum actuated brakes, and/or other vacuum actuators, irrespective of the purging conditions, and irrespective of boost levels. | 10-13-2011 |
20110253110 | VAPORIZED FUEL PROCESSING DEVICE FOR INTERNAL COMBUSTION ENGINE - A vaporized fuel processing device includes a discharging passage having a canister and connected to a fuel tank, the discharging passage being provided with a stop valve and a relief valve that is opened when the pressure in a fuel tank is out of a first pressure range. A vaporized fuel processing device performs a purge flow detection process when the pressure in the fuel tank is within a second pressure range included in the first pressure range. On the other hand, the vaporized fuel processing device opens the stop valve when a purge is being performed, the frequency of performing the purge flow detection process is small, and the pressure in the fuel tank is out of the second pressure range. | 10-20-2011 |
20110308501 | INTERNAL COMBUSTION ENGINE CONTROL APPARATUS AND CONTROL METHOD FOR INTERNAL COMBUSTION ENGINE CONTROL APPARATUS - In a control of an internal combustion engine control apparatus, the control apparatus includes: a fuel tank that stores a fuel; a vaporized fuel tank that is connected to an intermediate portion of an intake passageway of an internal combustion engine and that stores a vaporized fuel that is formed by vaporization of the fuel; an in-tank fuel supply device that supplies the fuel from the fuel tank into the vaporized fuel tank; and a normally-closed vaporized fuel supply valve that opens and closes a connecting portion between the vaporized fuel tank and the intake passageway. The control apparatus estimates air/fuel ratio in the vaporized fuel tank, and produces the vaporized fuel in the vaporized fuel tank by driving the in-tank fuel supply device, with the vaporized fuel supply valve closed, until the estimated air/fuel ratio becomes substantially zero, during operation of the engine. At the time of starting the engine, the control apparatus supplies the vaporized fuel stored in the vaporized fuel tank into the intake passageway by opening the vaporized fuel supply valve. | 12-22-2011 |
20120024265 | RELIEF VALVE AND FUEL VAPOR VALVE ASSEMBLY - A valve assembly is provided that can perform an overpressure relief function to vent fluid from a first component, such as to vent fuel vapor from a fuel tank, to a second component, such as a carbon canister, without being affected by the vapor pressure in the vent line to the second component. That is, the valve opens to provide pressure relief when needed regardless of the vapor pressure against which it opens. The valve assembly may also include a solenoid that is controllable to allow fluid flow separately from the movement in response to vapor pressure. | 02-02-2012 |
20120031380 | Tank Venting Apparatus for a Supercharged Internal Combustion Engine and Associated Control Method - A tank venting apparatus for a supercharged internal combustion engine ( | 02-09-2012 |
20120073548 | Fuel Tank Valve Structure Controlling Emission Gas in Hybrid Vehicle - A fuel tank valve structure controlling emission gas in a hybrid vehicle may include a housing having one side connected with a fuel tank and the other side connected to a canister, a check valve mounted to the housing and opening or closing a first fluid passage connected between the canister and the fuel tank, a solenoid valve apparatus selectively connected with the check valve to open or close the first fluid passage to adjust an internal pressure of the fuel tank, a fuel limit vent valve apparatus mounted to the housing and selectively fluid-connecting to a space formed between the check valve and the fuel limit vent valve apparatus in the housing, and a relief valve mounted to the housing and selectively fluid-connecting the fuel tank with the canister through a second fluid passage. | 03-29-2012 |
20120073549 | CANISTER FOR VEHICLES AND FUEL SUPPLY SYSTEM PROVIDED WITH THE SAME - A canister for vehicles provided with an activated carbon to absorb an evaporation gas evaporated from a fuel tank, and releasing the absorbed evaporation gas to an engine, may include a housing to receive the activated carbon; an evaporation gas supply passage formed to the housing and fluid-connected to the fuel tank; an air passage formed to the housing and selectively receiving an air from the exterior of the housing; and a purge passage formed to the housing and fluid-connected to a purge line to supply the evaporation gas to the engine according to a flow of the received air, wherein the purge passage is provided with a first purge passage formed to the housing and directly fluid-connecting the housing to the purge line and a second purge passage formed to the housing and having an end portion positioned inside the first purge passage or the purge line. | 03-29-2012 |
20120097135 | EVAPORATIVE EMISSION DEVICE TO MOTOR VEHICLE COUPLING - A coupling is provided for attaching an evaporative emission device having a housing to a mounting surface of a motor vehicle. The coupling includes a pair of tracks fixed the mounting surface and a pair of matching rails fixed to the housing. The rails are sized to slide within the tracks until reaching a predetermined seated position within the rails. An aperture is fixed to the mounting surface and includes a shoulder with a manufacturing tolerance defined about a nominal location at the predetermined seated position. A resilient latch is formed on the housing and located so as to snap into the aperture at the predetermined seated position. The latch includes a inclined engaging surface to engage the shoulder over the entire tolerance range of the shoulder. | 04-26-2012 |
20120111307 | TANK VENTING DEVICE FOR A FUEL TANK OF A MOTOR VEHICLE - A tank venting device for a fuel tank of a motor vehicle includes an activated carbon filter which is connected to a fuel tank via a first gas line and connected to the atmosphere or ambient environment via a second gas line. A valve unit includes a single two-stage solenoid valve to control a gas flow through the first and second gas lines. | 05-10-2012 |
20120111308 | Method for Fuel Vapor Canister Purging - A method of controlling fuel vapor purging in a hybrid electric vehicle capable of selectively operating an engine is disclosed. In one example, the method includes initiating purging in response to an amount of liquid fuel residing in a fuel tank of the hybrid electric vehicle and a duration since the previous fuel tank filling event. | 05-10-2012 |
20120118273 | CANISTER FOR VEHICLES AND FUEL EVAPORATIVE SYSTEM PROVIDED WITH THE SAME - A canister for a vehicle is provided with charcoal therein so as to absorb evaporation gas evaporated at a fuel tank, supplies air by pressure difference formed due to engine purge, and thereby releases the absorbed evaporation gas so as to supply the evaporation gas to an engine and to be burned therein again. The canister may include an evaporation gas supply passage connected to the fuel tank and receiving the evaporation gas, an air passage selectively receiving the air from the exterior, a purge passage supplying the evaporation gas to the engine according to flow of the supplied air, and a heating module heating a position at which the air passing through the air passage flows in the canister, or mounted at the air passage and heating the air flowing in the canister, wherein the heating module comprises a heating core for heating the air flowing in the canister, and a diffusing plate disposed between the air passage and the heating module and diffusing the air passing through the air passage so as to be heated at the heating core evenly. | 05-17-2012 |
20120138022 | METHOD FOR CONTROLLING EVAPORATION GAS TREATING APPARATUS IN VEHICLE - Provided is a method for controlling evaporation gas treating apparatus that can effectively prevent evaporation gases from leaking out of a vehicle with minimizing power consumption of a battery in the vehicle and improving efficiency of purging the evaporation gases, by selectively operating a heater for when a large amount of evaporation gases are contained in active carbon of a canister. | 06-07-2012 |
20120145133 | FUEL VAPOR PROCESSING SYSTEMS - A fuel vapor processing system includes a canister, a tank passage communicating between the canister and the fuel tank, and a purge passage communicating between the canister and the intake air passage. Fuel vapor adsorbed by the canister can be desorbed and purged into the intake air passage via the purge passage due to a negative pressure produced in the intake air passage. A desorption promoting device can promote desorption of fuel vapor from the canister. A control unit controls the desorption device, so that the desorption promoting device promotes desorption of fuel vapor from the canister during desorption through the purge passage due to the negative pressure. | 06-14-2012 |
20120152210 | SYSTEM FOR EVAPORATIVE AND REFUELING EMISSION CONTROL FOR A VEHICLE - A fuel tank evaporative emissions control and diagnostic system includes a fuel tank, a canister in fluid communication with the fuel tank to receive vapor escaping from the fuel tank, at least one isolation valve positioned between the fuel tank and the canister, a pressure sensor in fluid communication with the canister, a purge valve positioned between the canister and an internal combustion engine to be in fluid communication with the canister and the internal combustion engine, a canister vent valve positioned on an air inlet of the canister for allowing air to purge vapor from the canister to exit the and into the internal combustion engine, and one or more electronic controllers coupled to the pressure sensor, the isolation valve, the purge valve, and the canister vent valve for controlling the valves according to a preset diagnostic test for checking for malfunctions in the system. | 06-21-2012 |
20120152211 | On-Board Fuel Vapor Separation for Multi-Fuel Vehicle - A fuel delivery system for a fuel burning engine of a vehicle and a method of operating the fuel delivery system is provided. As one example, the method includes separating a first fuel and a second fuel from a fuel vapor on-board the vehicle, said fuel vapor including at least an alcohol component and a hydrocarbon component and said first fuel including a higher concentration of the alcohol component than the fuel vapor and the second fuel; condensing the separated first fuel from a vapor phase to a liquid phase; delivering the condensed liquid phase of the first fuel to the engine; and combusting at least the condensed liquid phase of the first fuel at the engine. | 06-21-2012 |
20120160220 | Device for ventilating and aerating a fuel tank - A device for ventilating and aerating a fuel tank, in particular a fuel tank of an internal combustion engine of a motor vehicle, includes an activated carbon filter, a controllable tank shut-off valve and two tank pressure control valves. One of the tank pressure control valves opens in response to an overpressure in the fuel tank, and the other one of the tank pressure control valves of opens in response to a negative pressure in the fuel tank. In order to reduce the amount of volatile hydrocarbons escaping into the environment from the tank shut-off valve and the tank pressure control valves, at least the two tank pressure control valves and preferably the two tank pressure control valves and the tank shut-off valve are arranged inside the fuel tank. | 06-28-2012 |
20120180767 | Fuel system - A fuel system, in particular of a motor vehicle, includes a fuel tank and a ventilation device for ventilating the fuel tank, wherein the ventilation device has at least one separation device which has a temporary accumulator for liquid fuel and a fuel delivery device which is configured as jet pump for delivering fuel out of the temporary accumulator. In an operating medium line of the jet pump a pressure reducing element or a pressure adjustment element is provided. | 07-19-2012 |
20120204842 | EVAPORATIVE FUEL TREATMENT DEVICE - A purge valve and an atmosphere opening valve are closed at a timing for stopping purge, so that a canister is sealed from an atmosphere. Thus, even when purge is stopped, the interior of the canister can be held in a negative pressure state. Therefore, adsorbed fuel does not return to inner depths of pores of an adsorbent, thus maintaining a state where the fuel is present on a surface side of the adsorbent. Thus, when purge is resumed, fuel vapors are swiftly discharged to an intake passage of an internal combustion engine via a purge passage. Thereafter as well, fuel vapors continue to be discharged due to the fuel rising to the surface from the inner depths of the pores of the adsorbent. When purge is thus resumed, fuel vapors are immediately discharged from the canister with no time lag. | 08-16-2012 |
20120222657 | EVAPORATIVE EMISSION CONTROL DEVICE FOR INTERNAL COMBUSTION ENGINE - A canister shutoff valve has a canister connection port for communicating with a canister, a vapor line connection port connected to a vapor line, and a purge line connection port connected to a purge line. When the canister shutoff valve is de-energized and thus is open, the canister connection port, the vapor line connection port and the purge line connection port communicate with one another, allowing fuel evaporative gas to flow into and out of the canister. When the canister shutoff valve is energized and thus is closed, the canister connection port is blocked and only the vapor line connection port and the purge line connection port communicate with each other, thereby preventing the fuel evaporative gas from flowing into and out of the canister. | 09-06-2012 |
20120247434 | EVAPORATIVE FUEL TREATMENT APPARATUS FOR VEHICLE - An evaporative fuel treatment apparatus for a vehicle includes a direct purge channel for supplying evaporative fuel to a purge channel without involving a canister; a purge control valve for controlling communications between the canister and an air-intake system of an internal combustion engine by an opening and closing operation; a direct purge control valve for controlling communications between a fuel tank and the air-intake system by another opening and closing operation; and a two-way valve provided in a charge channel. During a purge mode of the apparatus, evaporative fuel adsorbed in the canister is purged to the air-intake system by closing the direct purge control valve and opening the purge control valve during operation of engine. During a direct purge mode of the apparatus, evaporative fuel in the fuel tank is purged to the air-intake system by closing the purge control valve and opening the direct purge control valve. | 10-04-2012 |
20120260893 | FUEL VAPOR PROCESSING DEVICES - A fuel vapor processing device may include a casing having an adsorption chamber defined therein, an adsorption material disposed within the adsorption chamber, a heating device capable of heating the adsorption material, and a passage member communicating between the adsorption chamber and the atmosphere. The passage member defines a flow space facing to an outer circumferential surface of the casing, so that heat can be transmitted between the adsorption chamber and the flow space. | 10-18-2012 |
20120279480 | METHOD FOR FLUSHING AN ACTIVATED CARBON FILTER - In a method for flushing an activated carbon filter of a tank ventilation system of an internal combustion engine, which tank ventilation system includes a fuel tank and an activated carbon filter with which a tank shut-off valve TAV, a fuel tank vent valve TEV, and an activated carbon filter shut-off valve AAV are associated, the tank shut-off valve TAV is closed, the fuel tank vent valve TEV is opened, and the activated carbon filter shut-off valve AAV is closed. The activated carbon filter shut-off valve AAV is controlled to close in a clocked manner. | 11-08-2012 |
20120318242 | PURGE CONTROL SOLENOID VALVE FOR REDUCING NOISE - A purge control solenoid valve apparatus for reducing noise, may include a valve housing having an upper connector and a lower connector to be in communication with each other in upper and lower parts thereof and a plunger for opening the upper connector when the plunger receives a magnetic force, and a chamber housing including a canister connector connected to a canister through an evaporation hose and an expansion space part expandably connecting the canister connector and the lower connector. | 12-20-2012 |
20120318243 | CANISTER PURGE VALVE WITH MODULAR LOWER BODY HAVING INTEGERAL CHECK VALVES - A canister purge valve for a vehicle includes a valve member constructed and arranged to control vapor purge flow from a fuel tank and canister structure to an air intake manifold. A modular body is removably coupled to a housing of the valve member. The body defines an internal volume in communication with the valve member to receive vapor purge flow. The body includes at least one outlet port. A check valve is disposed in the body and is associated with the at least one outlet port so that under certain conditions, the check valve permits vapor purge flow to flow from the volume through the outlet port and, under different conditions, prevents flow into the volume. | 12-20-2012 |
20120318244 | CANISTER PURGE VALVE WITH INTEGRATED VACUUM GENERATOR AND CHECK VALVES - An integrated canister purge valve for a turbocharged vehicle engine includes a valve member having a housing and being constructed and arranged to control vapor purge flow from a fuel tank and canister structure to an air intake manifold. A body is coupled to the housing. The body defines an interior space. Structure separating the interior space into a first chamber and a second chamber isolated from the first chamber. The first chamber has an inlet port and an outlet port. A vacuum generator is provided in the first chamber and in fluid communication with the inlet and outlet ports. A first check valve is in the first chamber between the vacuum generator and the valve member and a second check valve is in the second chamber between the valve member and a manifold outlet port. | 12-20-2012 |
20130008415 | EVAPORATIVE EMISSION CONTROL DEVICE FOR AN INTERNAL COMBUSTION ENGINE - A leakage judgment with respect to a fuel tank is carried out. If the fuel tank is not leaking, a leakage judgment with respect to a canister is carried out. If there is a possibility of leakage in the fuel tank, a leakage judgment with respect to the fuel tank and the canister is carried out. If it is judged that there is leakage in the fuel tank and the canister, the leakage judgment with respect to the canister is carried out. | 01-10-2013 |
20130014730 | VAPORIZED FUEL TREATMENT APPARATUS FOR VEHICLEAANM SHIMURA; TakeshiAACI Wako-shiAACO JPAAGP SHIMURA; Takeshi Wako-shi JPAANM IMAMURA; TakahiroAACI Wako-shiAACO JPAAGP IMAMURA; Takahiro Wako-shi JP - A vaporized fuel treatment apparatus for a vehicle including a fuel tank for storing fuel therein with an openable and closable gas filler cap attached to the fuel tank. A vaporized fuel storage is operatively connected to a charge path through which the fuel tank communicates with the vaporized fuel storage and a purge path through which the vaporized fuel storage communicates with an intake system of an internal-combustion engine. A lid covers the gas filler cap to be opened and closed and is supported on a vehicle body. The vaporized fuel treatment apparatus is provided with a positive-pressure adjustment valve for opening when the internal pressure of the fuel tank reaches a predetermined pressure, allowing the fuel tank to communicate with the vaporized fuel storage. The positive-pressure adjustment valve opens when the lid is opened. | 01-17-2013 |
20130019844 | FLUID CONTROL VALVE ASSEMBLY - A valve assembly includes a housing defining first, second, third, and fourth passages. The first passage channels relatively-high pressure fluid and the second passage channels relatively-low pressure fluid into the valve. The third passage connects to the second passage and releases fluid from the valve. The fourth passage connects to the first passage and the second passage and releases fluid from the valve. The valve assembly also includes a first check-valve that permits fluid flow from the second passage to the third passage and a second check-valve that permits fluid flow from the second passage to the fourth passage. The valve assembly additionally includes a nozzle that controls velocity of the relatively-high pressure fluid entering the fourth passage from the first passage. The relatively-low pressure fluid is pulled from the second passage into the fourth passage on the outer periphery of the nozzle by the relatively-high pressure fluid. | 01-24-2013 |
20130032127 | METHOD AND SYSTEM FOR FUEL VAPOR CONTROL - Methods and systems are provided for operating an engine to generate vacuum for a subsequent leak detection routine. During a selected key-off condition, a starter motor is operated to spin the engine unfueled and generate intake vacuum for the leak detection. Fuel vapors drawn during the spinning are stored in an auxiliary canister that is purged along with a main canister during purging conditions. | 02-07-2013 |
20130037006 | EVAPORATED FUEL TREATING APPARATUS - An evaporated fuel treating apparatus reduces blow-through of evaporated fuel components from an atmosphere port to an outside and has a fluid circulation passage which includes at one end side a first chamber containing granulated carbon or fractured carbon, and heat storage material and at another end side a second chamber containing granulated carbon or fractured carbon and not having the heat storage material. A delay diffusion chamber is disposed between the first chamber and the second chamber, which does not have activated carbon and the heat storage material therein. An adsorption amount of evaporated fuel of granulated or fractured carbon in the second chamber is set to be not less than 2 vol % and not more than 8 vol % of a total adsorption amount of evaporated fuel of granulated or fractured carbon, and a volume of the delay diffusion chamber is larger than that of the second chamber. | 02-14-2013 |
20130042839 | DUAL ELECTROMAGNETIC VALVE AND EVAPORATED GAS TREATMENT SYSTEM - A tubular flow path | 02-21-2013 |
20130081599 | METHOD AND DEVICE FOR DETECTING THE BLOCKING OF A BLEED VALVE OF A GASOLINE VAPOR FILTER - A method and device for detecting the blocking of a bleed valve ( | 04-04-2013 |
20130081600 | Purging Device for Fuel Vapors During Idling Stop of Internal Combustion Engine - Disclosed is an engine control unit intended to prevent fuel vapors from a fuel tank from being released to the atmosphere and causing degradation of gas emission performance. In order to fulfill the object, a control unit according to an aspect of this invention includes means for discharging the fuel from a purging device constructed to adsorb the fuel vapors that rise from the fuel tank, and discharge the adsorbed fuel vapors into an air intake pipe, to an upstream side of a catalyst provided in an exhaust pipe, and when the control unit stops the engine that is running idle, the unit drives the discharge means to accelerate purification of the fuel vapors by sending the vapors to the catalyst under an active state immediately after the engine stop. | 04-04-2013 |
20130104857 | TANK VENTILATION WITH A VENTURI NOZZLE | 05-02-2013 |
20130104858 | EVAPORATIVE EMISSION CONTROL DEVICE | 05-02-2013 |
20130118456 | OPTIMIZATION OF TANK VENTING OF A FUEL TANK | 05-16-2013 |
20130118457 | MICROCONDENSER DEVICE AND EVAPORATIVE EMISSION CONTROL SYSTEM AND METHOD HAVING MICROCONDENSER DEVICE - A microcondenser device for an evaporative emission control system includes a housing having an inlet for receiving fuel vapor and a condensation outlet for discharging condensed fuel vapor, and a porous element disposed in the housing and fluidly interposed between the inlet and the condensation outlet for absorbing the fuel vapor received through the inlet. The microcondenser device further includes a thermoelectric element in thermal contact with the porous element for removing heat from the fuel vapor absorbed by the porous element to condense the fuel vapor. | 05-16-2013 |
20130139792 | SAMPLE TUBE STRUCTURE FOR AUTOMOTIVE FUEL TANK LEAK DETECTION - A vapor management system ( | 06-06-2013 |
20130146031 | VAPOR GAS DISCHARGING APPARATUS FOR HYBRID ELECTRIC VEHICLE - A vapor gas discharging apparatus for a hybrid electric vehicle (HEV), which includes a vapor line disposed between a canister and a fuel tank, wherein a purge line may be connected to the canister for transferring vapor gas from the canister to an engine, may include a discharging nipple formed to the canister and employed to supply air to the canister, an air supply line connected to the discharging nipple of the canister for supplying the air to the discharging nipple, a two-way valve connected to an end of an exhaust pipe and an end of the air supply line, and controlled for selectively communicating air flow between the air supply line and the exhaust pipe or between the air supply line and the outside of the air supply line, and a conduction member disposed in the air supply line between the two-way valve and the discharging nipple. | 06-13-2013 |
20130152905 | HYDROCARBON SENSOR FOR PURGING CANISTER OF EXTENDED RANGE ELECTRIC VEHICLE - An evaporative fuel vapor control system ( | 06-20-2013 |
20130174812 | FUEL EVAPORATIVE EMISSION CONTROL DEVICE - When fuel tank internal pressure is at a first predetermined pressure P1 or above over a first predetermined time length t | 07-11-2013 |
20130174813 | FUEL EVAPORATIVE EMISSION CONTROL DEVICE - When fuel tank internal pressure is continuously at a first predetermined pressure P | 07-11-2013 |
20130199504 | VAPORIZED-FUEL PROCESSING SYSTEM - A first purge passage is connected to an intake-air passage at a downstream side of a throttle valve. A second purge passage is connected to the intake-air passage at an upstream side of a supercharging device. A first and a second check valve are respectively provided in the first and second purge passages. A control unit determines to which operating condition (from a first to a third operating condition) engine operation corresponds, based on downstream-side and upstream-side pressure of the throttle valve. A change of in-tank pressure of a fuel tank is detected in a condition that an air-communication valve is closed but a purge control valve is opened. The control unit diagnoses which of the valves is not normally operated and whether such valve is fixed to a valve opened or a valve closed position, based on the change of in-tank pressure for each of engine operating conditions. | 08-08-2013 |
20130213365 | FUEL VAPOR LEAKAGE SENSING APPARATUS AND FUEL VAPOR LEAKAGE SENSING METHOD USING THE SAME - An operation of a change valve is changeable between a valve closing state, in which the change valve is closed to close connection between a pump passage and a canister passage and to open connection between an atmosphere passage and the canister passage, and a valve opening state, in which the change valve is opened to open the connection between the pump passage and the canister passage and to close the connection between the atmosphere passage and the canister passage. An ECU determines that the change valve is abnormal when a value, which is obtained by subtracting a second reference pressure measured in an (n-1)th execution of a fuel vapor leakage sensing process from a first reference pressure measured in an nth execution of the fuel vapor leakage sensing process, is equal to or larger than a predetermined threshold value. | 08-22-2013 |
20130213366 | METHOD AND APPARATUS FOR OPERATING A TANK VENTILATION SYSTEM - The tank ventilation system has an adsorption vessel, a regeneration duct and a pump. The adsorption vessel captures and temporarily stores fuel vapors emerging from a fuel tank. A purge air flow can flow through the adsorption vessel. The regeneration duct connects the adsorption vessel to an intake duct. In the regeneration duct there is arranged a pump designed to draw the purge air out of the adsorption vessel and admix the purge air to intake air in the intake duct. A density of the purge air which that flows in the regeneration duct is determined. Furthermore, a purge air mass flow flowing in the regeneration duct is determined as a function of the density of the purge air and a predefined pump characteristic of the pump. | 08-22-2013 |
20130220282 | TURBOCHARGED ENGINE CANISTER SYSTEM AND DIAGNOSTIC METHOD - An evaporative emission control system for a turbocharged engine. The system includes a fuel vapor canister in fluid communication with an intake manifold of the engine, a purge valve positioned between the intake manifold and the canister, a bypass valve positioned between the purge valve and the canister and connected to the atmosphere, and an evaporative system integrity monitor operable to seal the canister from the atmosphere when the engine is off. In operation, the monitor is closed so as to seal the canister from the atmosphere, the purge valve is closed so as to isolate the intake manifold from the canister, and the bypass valve is opened so as to connect the canister to the atmosphere. Proper operation of the monitor is determined if the monitor toggles from closed to open when a vacuum in the fuel vapor canister reaches a predetermined level. | 08-29-2013 |
20130233287 | VENTURI FOR VAPOR PURGE - Systems and methods for an engine comprising a venturi coupled in an intake of the engine are provided. In one example approach, a method of controlling operation of an engine having a fuel vapor purging system comprises: directing intake air through a first throttle and a venturi disposed in a bypass conduit coupled around an intake of the engine upstream and downstream of a second throttle disposed in the intake; and in response to an operating condition, delivering fuel vapor flow from the fuel vapor purging system to an inlet of the venturi. | 09-12-2013 |
20130239931 | FUEL TANK AND METHOD FOR PRODUCING SAME - An object of the invention is to increase efficiency in an operation of joining an upper shell and a lower shell and to enhance reliability of a fuel tank against leakage. | 09-19-2013 |
20130247882 | Method and Apparatus for Evaporative Emissions Control - A method of controlling an evaporative emissions system of a vehicle includes determining that a refueling event has been requested by a vehicle occupant, detecting a pressure inside a fuel tank, and impeding opening of a fuel tank inlet if the pressure is above a limit value. After the refueling event, an open/closed status of a fuel inlet access door is monitored, a fuel level inside a fuel tank is monitored, and a vehicle engine an operating condition is monitored. Pressure buildup within the fuel tank is disabled if a) the open/closed status has not changed from closed to open, and b) the fuel level has increased, and c) the vehicle engine is operating. An operator alert may be generated, and/or a fault code may be set in a vehicle diagnostic system. | 09-26-2013 |
20130255645 | INTERNAL COMBUSTION ENGINE WITH IMPROVED TANK CLEANING - An internal combustion engine having a fuel tank, a fuel vapor store for storing fuel vapors that escape from the fuel tank, having a connecting line between the fuel vapor store and an air intake tract to conduct fuel vapors from the fuel vapor store into the air intake tract during a regeneration phase, a valve arranged in the connecting line, an aeration line for the fuel vapor store, and having a valve arranged in the aeration line for controlling the aeration of the fuel vapor store. A purge air pump arranged in the aeration line is integrated into the valve unit for controlling the aeration of the fuel vapor store. Effective purging or regeneration of the fuel vapor store is attained even when no negative pressure or only a low negative pressure is provided by the air intake tract. | 10-03-2013 |
20130269660 | METHOD FOR PURGING FUEL VAPORS TO AN ENGINE - A method for improving purging of fuel vapors from a fuel vapor storage canister to an engine is presented. In one example, the method adjusts engine operation to provide sonic flow between a canister and the engine. In this way, it may be possible to lower an amount of fuel vapors stored in a canister while the engine continues to operate efficiently. | 10-17-2013 |
20130269661 | VAPOR FUEL TREATMENT APPARATUS - A control part conducts a pulse width modulation control for a first valve and a second valve in a manner that a sum of a first flow rate of fluid flowing through a first passage and a second flow rate of fluid flowing through a second passage agrees with a target flow rate. When the target flow rate is less than a sum of the maximum of the first flow rate and the maximum of the second flow rate, the control part controls a control timing of a first signal driving the first valve and a control timing of a second signal driving the second valve to be different from each other. | 10-17-2013 |
20130284155 | METHOD FOR PURGING FUEL VAPORS - A method for improving purging of fuel vapors from a boosted engine is presented. In one embodiment, the method increases the efficiency of a venturi that supplies vacuum to purge fuel vapors from a vapor storage canister. | 10-31-2013 |
20130298879 | EVAPORATIVE EMISSION CONTROL - A method for operating a fuel system is disclosed. The method includes sequentially purging fuel vapors from each of a plurality of regions of a canister. Purging a region includes opening an air inlet valve associated with that region and maintaining air inlet valves associated with each other region closed to direct fuel vapors to at least one purge outlet. | 11-14-2013 |
20130298880 | ISOLATION VALVE WITH INTEGRATED FLOAT VALVE FOR HIGH-PRESSURE APPLICATIONS - A valve assembly for a high-pressure fluid reservoir includes an isolation valve having a selectively energizable coil, an armature that is moveable between a first position when the coil is energized and a second position when the coil is de-energized, and an isolation valve seal coupled to the armature. The assembly also includes a float valve having a float with a passage at a bottom portion and an orifice at a top portion of the float, wherein the isolation valve seal is aligned to open and close the passage and wherein vapor flows through the passage and the orifice when the coil is energized during a high pressure condition. A housing houses both the isolation valve and the float valve and has a port that is opened and closed by the float valve. | 11-14-2013 |
20130312713 | Apparatus and Method of Determining a Leak Condition of a Fuel System - A portion of a fuel system of a vehicle is disclosed. The vehicle includes a motor-generator-starter connected to an engine. The fuel system includes a fuel tank connected to the engine. The portion of the fuel system includes an evaporative emissions system and an evaporative emissions leak check system connected to the evaporative emissions system. The evaporative emissions leak check system includes a vacuum source. The vacuum source includes the motor-generator-starter connected to the engine. The motor-generator-starter actuates the engine when the vehicle is operated in a non-moving, keyed-off condition for creating a vacuum within an intake manifold of the engine. A method is also disclosed. | 11-28-2013 |
20130319379 | VALVE WITH PILOT CONTROL, ESPECIALLY FOR A FUEL VAPOR RETENTION SYSTEM - A valve with a pilot control is provided for a fuel vapor retention system. The valve has a main valve ( | 12-05-2013 |
20140026866 | METHOD AND SYSTEM FOR FUEL SYSTEM CONTROL - Methods and systems are provided for controlling a fuel system in a hybrid vehicle. Before canister purging is stopped by closing a purge valve, a canister vent valve is closed to hold fuel tank vacuum. Then, during a subsequent canister purge, the purge valve is opened before opening the vent valve, allowing canister purge to initiate under fuel tank vacuum conditions. | 01-30-2014 |
20140026867 | FUEL VAPOR PURGE DEVICE - A fuel vapor purge device includes a canister connected to an internal combustion engine and a fuel tank via a purge passage to adsorb and hold a part of fuel vapor, a switch valve connected to the canister and to an atmosphere, and a pump connected to the switch valve via a pump passage and to the atmosphere via an atmosphere passage. The pump is capable of depressurizing or pressurizing an interior of the fuel tank, and the switch valve switches connection of the canister between with the atmosphere and with the pump. The fuel vapor purge device further includes a seal valve provided in the pump passage to open or close the pump passage depending on a pressure in the atmosphere passage. | 01-30-2014 |
20140041641 | CONTROL OF MANIFOLD VACUUM IN SKIP FIRE OPERATION - A variety of methods and arrangements are described for selectively reducing intake manifold pressure in a skip fire engine control system. In some embodiments, a throttle is adjusted to generate a manifold vacuum, which is used for various applications, including but not limited to purging a fuel vapor canister, reducing pressure within a brake vacuum booster reservoir and/or venting gas from a crankcase interior. An engine firing fraction is increased to help maintain a desired torque level. Other techniques for reducing the intake manifold pressure are also described, such as applications involving a return to idle. | 02-13-2014 |
20140060498 | FUEL VAPOR TREATMENT SYSTEM - An ECU controls a selector valve so as to connect a first pump passage and a second pump passage, and determines whether a fuel vapor leak from a fuel tank is in an allowable range based on a pressure in the fuel tank which is detected by a pressure sensor while a pump is driven to decrease a pressure in the fuel tank. The ECU opens a purge valve, whereby the fuel vapor adsorbed by a canister is introduce into an engine through an intake passage. The ECU controls the selector valve to connect a first pump passage and the second pump passage so as to circulate an atmospheric air in the pump while the purge valve is opened to introduce the fuel vapor into the internal combustion engine, whereby a foreign matter in the pump can be removed. | 03-06-2014 |
20140060499 | EVAPORATION FUEL PROCESSING DEVICE - The present invention provides an evaporation fuel processing device including: a passage formed inside so as to allow a fluid to flow through the passage; a tank port and a purge port formed on one end side of the passage; an atmospheric air port formed on the other end side of the passage; and adsorbent layers filled with adsorbent which can adsorb evaporation fuel components, the adsorbent layers being provided in the passage, wherein a region which is constituted of three or more adsorbent layers and separating parts for separating the adjacent adsorbent layers, and in which a total volume of the adsorbent layers is set smaller than a total volume of the separating parts, is provided on an atmospheric air port side of the passage. | 03-06-2014 |
20140069394 | FUEL SYSTEM DIAGNOSTICS - Methods and system are provided for identifying unintended closing (or corking) of a mechanical valve coupled to a fuel tank. If tank vent valve corking is identified during a leak test, fuel tank pressure data collected during the leak test is disregarded and not used to determine a fuel system leak. Instead, a fuel system leak test is repeated to improve reliability of test results. | 03-13-2014 |
20140076286 | PURGE VALVE NOISE ATTENUATION SYSTEM AND METHOD - A vapor purge valve in an engine is provided. The vapor purge valve includes a purge valve inlet, a purge valve outlet, and a muffler including a housing at least partially enclosing a diffuser in fluidic communication with the purge valve inlet and the purge valve outlet. | 03-20-2014 |
20140076287 | VAPORIZED-FUEL PROCESSING APPARATUS - A vaporized-fuel processing apparatus includes an intake passage, a chamber, a first purge guide hole, and a second purge guide hole. The intake passage is defined by an intake manifold and a throttle body. The chamber communicates with the intake passage. The first purge guide hole is to guide vaporized fuel adsorbed in a canister toward the chamber. The second purge guide hole is to guide the vaporized fuel adsorbed in the canister toward the chamber. | 03-20-2014 |
20140096749 | MULTI-TUBULAR FUEL VAPOR CANISTER - Systems and methods for operating an engine with a fuel vapor recovery system are disclosed. In one example approach, a method for an engine with a fuel vapor recovery system including a multi-tubular fuel vapor canister comprises directing air through a first set of adsorbent passages in the fuel vapor canister to purge fuel vapor therefrom while not directing air through a second set of adsorbent passages in the fuel vapor canister; and directing air through the second set of adsorbent passages to purge fuel vapor therefrom while not directing air through the first set of adsorbent passages. | 04-10-2014 |
20140096750 | VARIABLE RESTRICTION FUEL VAPOR CANISTER - Systems and methods for operating an engine with a fuel vapor recovery system are disclosed. In one example approach, a method for an engine with a fuel vapor recovery system comprises increasing an amount of flow restriction between storage material in a fuel vapor canister while maintaining a vent valve open during a fuel vapor purging event. | 04-10-2014 |
20140102420 | FUEL VAPOR RECOVERY APPARATUS - A fuel vapor recovery apparatus to be mounted on a vehicle having a fuel tank has an adsorbent canister capable of adsorbing and desorbing fuel vapor vaporized in the fuel tank, a vapor path providing communication between the fuel tank and the adsorbent canister, a purge path providing communication between the adsorbent canister and an intake path of an internal combustion engine, a purge valve configured to open and close the purge path, a blocking valve configured to open and close the vapor path and having a valve body, and a regulator for controlling the purge valve and the blocking valve. The fuel tank is sealed when the blocking valve is closed. The fuel tank is configured to be depressurized by opening the blocking valve. The blocking valve is composed of a motor valve that has a driving motor and can adjust an opening amount by controlling a stroke of the valve body. | 04-17-2014 |
20140102421 | FUEL VAPOR LEAKAGE DETECTION METHOD - A fuel vapor leakage detection device performs a fuel vapor leakage detection method to detect a clogging of passages in an evaporated fuel processing system by (i) switching a switching valve after measuring a first reference pressure, (ii) determining whether a detected pressure equals atmospheric pressure after opening a purge valve, (iii) recording the detected pressure after closing the purge valve, and (iv) switching the switching valve to depressurize an atmospheric system and to determine whether a current detection value of the pressure sensor is the same as the first reference pressure. Then, a second reference pressure is measured for comparison with the first reference pressure, to determine whether the evaporation system is clogged. In such manner, leakage and the clogging of the passages in an evaporated fuel processing system may be detected. | 04-17-2014 |
20140116399 | METHOD AND SYSTEM FOR FUEL VAPOR MANAGEMENT - Methods and systems are provided for shared handling of fuel vapor purge and crankcase ventilation in an engine system. Fuel vapors from each of a canister and a crankcase are drawn into an intake manifold in a common direction during both boosted and non-boosted engine operating conditions using vacuum drawn at various aspirators. Compressor bypass flow through a first aspirator is used to enhance vacuum produced during boosted conditions while throttle bypass flow through a second aspirator is used to enhance vacuum produced during non-boosted conditions. | 05-01-2014 |
20140116400 | PURGE CONTROL METHOD OF AIR TANK - A purge control method of an air tank may include compressing air in an air compressor, removing moisture from the air through a cartridge, storing the air in the air tank, measuring and determining an internal pressure of the air tank after storing the air in the air tank, operating a first solenoid valve if the internal pressure exceeds a first predetermined pressure, determining whether a second solenoid valve is operable and operating the second solenoid valve if operable, operating a purge valve to improve performance of the cartridge, thereby removing the moisture in the air tank, measuring and determining the internal pressure again, and turning off the first and second solenoid valves if the internal pressure is less than a second predetermined pressure. | 05-01-2014 |
20140116401 | EVAPORATED FUEL TREATMENT DEVICE - The objective of the present invention is to provide an evaporated fuel treatment device capable of performing a function diagnosis of a sealing valve with high accuracy even if an internal combustion engine is in operation. The evaporated fuel treatment device includes a sealing valve that blocks a fuel tank from the atmosphere, a canister, a canister internal pressure detection unit, a control part that performs an instruction for opening or closing the sealing valve and controls a purge, and a diagnostic part that performs a function diagnosis of an evaporated fuel sealing system including the fuel tank, the canister, and the sealing valve. The diagnostic part performs the function diagnosis of the sealing valve based on whether or not a canister internal pressure detected by the canister internal pressure sensor varies beyond a predetermined range. | 05-01-2014 |
20140116402 | EVAPORATED-FUEL PROCESSING APPARATUS - An evaporated-fuel processing apparatus including: a sealing valve which is arranged in a communication path between the atmosphere and a fuel tank mounted on a vehicle having an internal combustion engine, and shuts an internal space of the fuel tank off from the atmosphere; an open/close member which covers a fuel filling port of the fuel tank; a refueling-intention-information acquisition unit which acquires information indicating an intention of refueling; and a control unit which issues an opening command for opening the sealing valve when the refueling-intention-information acquisition unit acquires the information indicating an intention of refueling, and allows the open/close member to open when a time elapsed from the moment at which the opening command is issued exceeds a first predetermined time. | 05-01-2014 |
20140123961 | EVAPORATIVE EMISSION CONTROL - Methods and systems are provided for purging a multi-port canister into an engine intake. Air is circulated through the canister and a resulting purge air is directed to an intake passage upstream of a throttle in engine configured with a throttle body. An amount of fresh intake air received at the intake passage is corresponding decreased. | 05-08-2014 |
20140123962 | CONTROLLING APPARATUS FOR AN ENGINE - A controlling apparatus for an engine includes a purge path connected to a sealing-type fuel tank and an intake system of an engine and is configured to allow purge gas containing evaporated fuel from the fuel tank to flow therethrough. A purge valve placed in the purge path is configured to adjust a flow rate of the purge gas. A calculation unit calculates a degree of opening of the purge valve based on a target introduction ratio of the purge gas, and a controlling unit controls the purge valve so as to establish the degree of opening calculated by the calculation unit. The calculation unit corrects, in high-pressure purge performed when a pressure in the fuel tank increases exceeding a predetermined pressure, the degree of opening using a tank pressure flow velocity correction coefficient K2 corresponding to an upstream pressure of the purge valve. | 05-08-2014 |
20140130781 | FUEL SYSTEM DIAGNOSTICS - Methods and system are provided for distinguishing fuel tank vacuum generation due to canister purge valve degradation from vacuum generation due to canister vent valve degradation. A fuel tank vacuum level is monitored after sealing the fuel tank from the atmosphere following an engine pull-down. If there is an ensuing change in fuel tank vacuum, canister purge valve degradation is determined, else, canister vent valve degradation is determined. | 05-15-2014 |
20140144411 | FUEL EVAPORATION GAS DISCHARGE SUPPRESSING DEVICE OF INTERNAL COMBUSTION ENGINE - A fuel evaporation gas discharge suppressing device of an internal combustion engine includes a gas storage tank for storing a fuel evaporation gas in a communication passage for causing an air intake passage and a fuel tank in an internal combustion engine of a vehicle to communicate with each other in the communication passage. Control unit controls canister opening/closing unit, fuel tank opening/closing unit and gas tank opening/closing unit based on an internal pressure of the fuel tank. The control unit opens the canister opening/closing unit and opens the fuel tank toward the communication passage, and then opens the gas storage tank toward the communication passage when reducing the internal pressure of the fuel tank. | 05-29-2014 |
20140150752 | Method And System For Cleaning A Charcoal Canister Of An Emissions System Using A Fuel Cell - An evaporative emission control system for a vehicle includes a fuel tank, a vapor collection canister in communication with the fuel tank so as to receive hydrocarbons, a fuel cell in communication with the canister, and a pump constructed and arranged to pump hydrocarbons from the canister to the fuel cell so that the fuel cell can purge the canister by converting the hydrocarbons to water, carbon dioxide and electricity. | 06-05-2014 |
20140165972 | EVAPORATIVE FUEL TREATMENT APPARATUS - An evaporative fuel treatment apparatus includes a fuel tank, a fuel pump, an adsorber, a purge mechanism, a supercharger and an electronic control unit. The fuel pump is configured to draw fuel that is supplied from the fuel tank to the internal combustion engine. The adsorber is provided inside the fuel tank and configured to adsorb evaporative fuel developed inside the fuel tank. The purge mechanism is configured to carry out purging for introducing fuel, desorbed from the adsorber, into an intake pipe of the internal combustion engine. The supercharger is configured to feed air into the intake pipe. The electronic control unit is configured to increase an amount of heat that is transferred from the fuel pump to the adsorber on the condition that an intake negative pressure in the intake pipe is higher than a predetermined threshold. | 06-19-2014 |
20140174411 | APPARATUS FOR SUPPRESSING FUEL EVAPORATIVE GAS EMISSION - A changeover valve is opened, reference pressure Pb is detected, a monitoring timer is set to 0, a purge process is started, the changeover valve is closed, a pump is operated, and the monitoring timer t is started. Then, a canister internal pressure Pc is detected, a pressure deviation ΔPc is calculated from the reference pressure Pb and the canister pressure Pc, and it is determined if there is abnormality such as a leak or obstruction in a fuel evaporative gas treatment portion when the pressure deviation ΔPc is a first threshold ΔP | 06-26-2014 |
20140196694 | MULTI-PATH PURGE EJECTOR SYSTEM - Systems and methods for a multi-path purging ejector are disclosed. In one example approach, a dual path purge system for an engine comprises an ejector including a restriction, first and second inlets, and an outlet, at least one break-point at the restriction or inlets, and a shut-off valve coupled to the outlet. | 07-17-2014 |
20140196695 | EVAPORATIVE FUEL TREATMENT APPARATUS - The evaporative fuel treatment apparatus includes: a fuel tank configured to store fuel for an engine; a sub-tank that communicates with the fuel tank; an adsorber provided inside the sub-tank and configured to adsorb evaporative fuel generated inside at least one of the fuel tank and the sub-tank; a purge mechanism configured to carry out purging for introducing evaporative fuel from the adsorber into the engine; and an in-tank fuel adjustment unit configured to adjust an amount of fuel inside the sub-tank in response to an operating state of the engine, the in-tank fuel adjustment unit including a fuel introduction pump configured to be able to introduce fuel from an outside of the sub-tank to an inside of the sub-tank, the fuel introduction pump being formed of a jet pump configured to be driven by at least part of fuel discharged from the fuel pump. | 07-17-2014 |
20140209069 | CONTROLLING THE CLOSING FORCE OF A CANISTER PURGE VALVE PRIOR TO EXECUTING LEAK DIAGNOSTIC - A method for a vehicle having a fuel vapor canister coupled between a fuel tank and an engine intake manifold via an electronically controlled purge valve, comprises initiating a vapor leak test under predetermined conditions and in response to said initiation, fully opening said purge valve from a closed position to a fully open position for a predetermined time, and then fully closing said purge valve after said predetermined time and commencing said leak test. | 07-31-2014 |
20140216421 | PARTIALLY SEALED FUEL VAPOR PURGE SYSTEM - Systems and methods for operating an engine with a fuel vapor recovery system are disclosed. In one example approach, a method comprises, during a diurnal condition, providing a first amount of venting to a fuel vapor canister, and during a purge condition, providing a second amount of venting to the fuel vapor canister, where the second amount is greater than the first amount. | 08-07-2014 |
20140230795 | FUEL SYSTEM CONTROL - Methods are provided for reliving excess vacuum from a fuel tank. In response to elevated fuel tank vacuum levels, a canister purge valve is opened to dissipate the vacuum to an engine intake manifold while the engine is not combusting. Alternatively, the purge valve is opened to dissipate the excess vacuum to the intake manifold while the engine is combusting during conditions when the likelihood of air-fuel ratio errors are lower or when any incurred errors are better tolerated. | 08-21-2014 |
20140230796 | FUEL VAPOR RECOVERY CANISTER - A vehicle fuel system includes a vapor recovery canister containing at least two carbon beds. Each carbon bed is configured to capture hydrocarbon material associated with fuel vapor discharged from a vehicle fuel tank into the canister. | 08-21-2014 |
20140251285 | INTAKE AIR OXYGEN COMPENSATION FOR EGR - A method may comprise correcting an intake oxygen concentration based on fuel canister vapor purge only during boosted conditions, and adjusting exhaust gas recirculation responsive to the intake oxygen concentration. | 09-11-2014 |
20140283794 | Pressure control valve for gaseous fuel - A pressure control valve controls a pressure of a gaseous fuel according to an engine operation state. The pressure control valve has a movable valve body, a manifold chamber that communicates with an intake manifold, and a passage that is connected to an injector. An intake manifold pressure from the manifold chamber moves the movable valve body in a valve opening direction and an output pressure from the passage moves the movable valve body in a valve closing direction. In such manner, the pressure control valve changes a magnitude of a differential pressure between the output pressure and the intake manifold pressure according to a magnitude of the intake manifold pressure. | 09-25-2014 |
20140283795 | EVAPORATED FUEL TREATING DEVICE AND FAILURE DETERMINATION METHOD - An evaporated fuel treating device for an engine having an intake pipe, the evaporated fuel treating device includes a fuel evaporation system, a purge valve, a non-return valve, a seal valve mechanism, and an ECU. The system includes a fuel tank, an adsorber, purge passage. The adsorber adsorbs evaporated fuel. The purge valve adjusts a flow rate of the evaporated fuel flowing in the purge passage. The non-return valve prevents a reverse flow of gas in the purge passage from inside of the intake pipe towards the adsorber. The seal valve mechanism seals the system. The ECU configured to (a) open and close the purge valve after causing, the seal valve mechanism to seal the system, when the engine is stopped, and (b) detect an open failure state of the non-return valve based on a pressure difference inside the system when the purge valve is opened and closed. | 09-25-2014 |
20140299110 | METHOD FOR DIAGNOSING A TANK VENTILATION SYSTEM - In an internal combustion engine having a turbocharger and a compressor, a discharge point of a tank ventilation system is provided in the intake passage of the internal combustion engine upstream from the turbocharger or the compressor. A Venturi nozzle is situated between the discharge point and a tank venting valve of the tank ventilation system. A defect or a detachment of the line between the Venturi nozzle and the discharge point is detectable with the aid of a change of an adaption value and/or of a correction factor in a control unit of the internal combustion engine or in a computer. | 10-09-2014 |
20140311461 | CANISTER PURGE VALVE SELF-CLEANING CYCLE - A method for a fuel system coupled to an engine comprising: under vacuum conditions, opening the fuel vapor canister purge valve, and generating pressure pulsations in a conduit coupled to the fuel vapor canister purge valve by opening and closing a fuel vapor canister vent valve one or more times while maintaining the fuel vapor canister purge valve open. In this way, contaminants and/or debris that may prevent the canister purge valve from closing completely may be dislodged and evacuated to the intake manifold. | 10-23-2014 |
20140345575 | CANISTER PURGING FOR PLUG-IN HYDRID ELECTRIC VEHICLES - A method for desorbing fuel vapors from a canister of a vehicle having an internal combustion engine and a fuel tank includes detecting the temperature within the interior of the fuel tank using a temperature sensor positioned within the fuel tank. The canister is in fluid communication with the fuel tank and an intake manifold of the engine of the vehicle. A vapor bypass valve is positioned along a flow line between the fuel tank and the canister. The vapor bypass valve is opened if the temperature inside the fuel tank falls below a pre-determined value. The low pressure region created within the fuel tank due to fall in temperature is utilized to route ambient air along with the fuel-vapors contained within the canister, towards the fuel tank, through the opened vapor bypass valve. | 11-27-2014 |
20140345576 | EVAPORATED FUEL TREATMENT APPARATUS - An evaporated fuel treatment apparatus includes a diagnosis section for leak diagnosis of an evaporated fuel tightly-closed system. In first diagnosis stage in which an atmosphere on-off valve is in close state after an ignition switch is turned off, the diagnosis section performs first leak diagnosis, based on relationship between tank internal pressure detected by a tank internal pressure sensor and first threshold value; and in second diagnosis stage in which the atmosphere on-off valve is in close state after completion of first leak diagnosis, the diagnosis section performs second leak diagnosis, based on relationship between tank internal pressure detected by the tank internal pressure sensor and second threshold value. The atmosphere on-off valve is once opened after completion of first leak diagnosis. First threshold value is set with larger deviation from the atmospheric pressure compared with second threshold value used in second diagnosis stage. | 11-27-2014 |
20150020780 | DEVICE AND METHOD FOR DIAGNOSING EVAPORATED FUEL PROCESSING DEVICE - An evaporated fuel processing apparatus includes a blocking valve configured to selectively allow and shut off communication between a canister and a fuel tank, and adsorbs evaporated fuel by the canister by opening the blocking valve during fuel filling, wherein the evaporated fuel occurs in the fuel tank, and performs a purge operation of introducing purge gas into an intake air line of an internal combustion engine with the blocking valve closed while the internal combustion engine is operating, wherein the purge gas contains a fuel component released from the canister. A diagnostic apparatus is configured to diagnose whether or not the blocking valve is abnormal, based on sensing of evaporated fuel flowing through the blocking valve while the purge operation is being performed. | 01-22-2015 |
20150047615 | AIR INTAKE DUCT ICE INGESTION FEATURES - An engine system including an air intake duct positioned upstream of an engine cylinder may include an ice ingestion feature for retaining condensation. An ice ingestion feature may include indents formed in the bottom of an air intake duct wall. As such, the ice ingestion feature may include compartments and/or grooves of varying depths, widths, and/or angles such that the ice retention rate may be based on the surface area of the compartment or grooves. | 02-19-2015 |
20150059711 | FLOW CONTROL VALVE AND VAPOR FUEL PROCESSING APPARATUS HAVING THE SAME - A valve element in a valve chamber is movable between an OFF position and an ON position to switch a flow quantity of fluid between a large flow quantity and a small flow quantity. The valve chamber has a fluid passage including an outer passage defined between an inner periphery of the valve chamber and an outer periphery of the valve element. The valve chamber has a throttle shape to decrease in inner diameter gradually from upstream toward downstream to decrease a minimum passage area of the fluid passage in a non-linear form. The valve chamber increases a differential pressure across the valve element in a linear form relative to a stroke of the valve element when the valve element moves from the OFF position toward the ON position. | 03-05-2015 |
20150068498 | SYSTEMS AND METHODS FOR A TWO-VALVE NON-INTEGRATED REFUELING CANISTER ONLY SYSTEM - A system for a vehicle, comprising: a tank pressure control valve coupled in a first conduit between a fuel tank and a fuel vapor canister; a refueling valve coupled in a second, different, conduit between the fuel tank and the fuel vapor canister, the second conduit in parallel to the first conduit. In this way, two smaller, less complex valves may be utilized to control fuel tank vapor purging and fuel tank depressurization during refueling. This in turn may lower system cost and increase system functionality. | 03-12-2015 |
20150068499 | FUEL APPARATUS FOR VEHICLE - A fuel apparatus includes a vapor passage for guiding evaporation gas in a fuel tank to a canister, a sealing valve for closing the vapor passage in normal condition to keep the interior of the fuel tank in a sealed state, a leak detection portion for detecting leak of the evaporation gas from the closed space of the fuel tank in the sealed state to outside, and an opening control portion for opening the sealing valve when leak of the evaporation gas from within the fuel tank is detected. Alternatively, the fuel apparatus includes a bypass passage connecting an upstream portion of the vapor passage located upstream of the sealing valve and a downstream portion of the vapor passage located downstream of the sealing valve to each other to bypass the sealing valve, and a bypass valve provided in the bypass passage, for opening the bypass passage in the closed state when leak of the evaporation gas from within the fuel tank is detected. | 03-12-2015 |
20150075501 | FUEL TANK PRESSURE SENSOR RATIONALITY TEST FOR A PHEV - A method for verifying the reliable operation of a fuel tank pressure transducer positioned within a fuel tank of a PHEV. The method detects the initiation of a refueling cycle, which leads to opening a system vent valve positioned between a carbon canister and a system vent, and opening a fuel tank isolation valve. A controller monitors fuel system pressure within the fuel tank and at the vent valve, and that device determines rates of change of the fuel system pressure within the fuel tank and at the outlet vent. Reliable operation of the fuel tank pressure transducer is indicated upon a determination that the rates of change of the fuel system pressure in the fuel tank and at the outlet vent are uniform within a predetermined range. | 03-19-2015 |
20150075502 | METHODS AND SYSTEMS FOR AN INTAKE OXYGEN SENSOR - Methods and systems are provided for adjusting a reference voltage for an intake manifold oxygen sensor based on ingestion of hydrocarbons from a fuel system canister and/or an engine crankcase. During conditions when purge or crankcase ventilation hydrocarbons are ingested in the intake aircharge, the intake oxygen sensor is transitioned from operating at a lower reference voltage to a higher reference voltage where the effects of the ingested hydrocarbons on the sensor output are nullified. An EGR dilution of the intake aircharge is estimated based on the output of the sensor at the higher reference voltage while an amount of hydrocarbons ingested is estimated based on a difference between sensor outputs at the higher and lower reference voltages. | 03-19-2015 |
20150075503 | METHODS AND SYSTEMS FOR AN INTAKE OXYGEN SENSOR - Methods and systems are provided for adjusting a reference voltage for an intake manifold oxygen sensor based on ingestion of hydrocarbons from a fuel system canister and/or an engine crankcase. During conditions when purge or crankcase ventilation hydrocarbons are ingested in the intake aircharge, the intake oxygen sensor is transitioned from operating at a lower reference voltage to a higher reference voltage where the effects of the ingested hydrocarbons on the sensor output are nullified. An EGR dilution of the intake aircharge is estimated based on the output of the sensor at the higher reference voltage while an amount of hydrocarbons ingested is estimated based on a difference between sensor outputs at the higher and lower reference voltages. | 03-19-2015 |
20150083087 | METHOD AND SYSTEM FOR FUEL VAPOR CONTROL - Methods and systems are provided for identifying leaks on each of a fuel tank and a canister side of a fuel system using a single leak check module. A position of a switching valve coupled in the vapor line of the fuel system is adjusted to selectively couple the leak check module to either the fuel tank or the canister. Leak is detected based on a change in pressure at a reference orifice of the leak check module following applying of vacuum from a vacuum pump. | 03-26-2015 |
20150083088 | METHOD AND SYSTEM FOR DETECTING PHEV EVAP SYSTEM RECIRCULATION TUBE RELIABILITY - A method for detecting blockage within a recirculation tube of the evaporative emission control system of a PHEV measures the rise in interior temperature of a canister of the EVAP system, during the process of refueling, and notes an initial state of loading of the canister before refueling, indicative of the amount of hydrocarbons contained within the canister It is inferred that the recirculation tube is operative reliably if the rise in canister temperature is below a pre-determined temperature value. | 03-26-2015 |
20150083089 | FUEL OXIDATION REDUCTION FOR HYBRID VEHICLES - Systems and methods to control fuel tank pressure to reduce fuel oxidation in plug-in hybrid electric vehicles are disclosed. A method comprises routing vapors from a fuel system canister to the fuel tank to maintain the fuel tank pressure at a desired pressure. In this way, the engine may be maintained off for greater durations while still retaining fuel quality of fuel stored on-board the vehicle. | 03-26-2015 |
20150090232 | HYBRID VEHICLE FUEL VAPOR CANISTER - Embodiments for controlling fuel vapors are disclosed. In one example, a method comprises during a purge of a fuel vapor canister, adjusting a heater of the fuel vapor canister based on a rate of a purge flow exiting the fuel vapor canister and a concentration of hydrocarbons released from the fuel vapor canister. In this way, a fuel vapor canister purge efficiency may be increased. | 04-02-2015 |
20150090233 | HYBRID VEHICLE FUEL VAPOR CANISTER - Embodiments for controlling fuel vapors are provided. In one example, a method comprises initiating a purge of a fuel vapor canister responsive to a temperature profile at a vent side of the fuel vapor canister. In this way, release of fuel vapors to the atmosphere may be reduced. | 04-02-2015 |
20150090234 | PHEV EVAP SYSTEM CANISTER LOADING STATE DETERMINATION - An evaporative emission control system for a plug-in hybrid electric vehicle that indicates the level of loading of a carbon canister of the system. The system has multiple thermocouples positioned space apart from each other along a vapor flow path within the carbon canister. A controller is connected to each thermocouple, which monitors the temperature of the thermocouples. The controller indicates the level of saturation of the carbon canister based on certain pre-determined temperature criteria. | 04-02-2015 |
20150090235 | CPV-CONTROLLED EVAP LEAK DETECTION SYSTEM - A method and system for testing an evaporative emission control system for leaks. The method includes opening a canister purge valve by an amount sufficient to provide a flow equivalent to a predetermined orifice diameter. Then, a vacuum pump evacuates a reference volume consisting of the portion of the evaporative emission control system extending from the canister purge valve to an evacuation level control monitor. The system determines the pressure in the reference volume at the end of a specified evacuation time, and that value is stored as the threshold test value. Then, the system closes the canister purge valve and proceeds to evacuate the entire evaporative emission control system for a predetermined time. At the end of that time, the system identifies the absence of a leak if the system pressure falls at least to the threshold test value. A powertrain control module controls the canister purge valve. | 04-02-2015 |
20150096541 | BOOST PURGE EJECTOR TEE ARRANGEMENT - A boost purge ejector tee arrangement for a fuel vapor emissions system can include a boost purge ejector tee having a body that can define a first inlet port, a second inlet port and an outlet port. The first inlet port and the outlet port can be fluidly coupled along a first flow path. The body can define a second flow path from the second inlet port that can intersect the first flow path upstream of the outlet port. A nozzle can be positioned in the first flow path such that an outlet of the nozzle can be proximate the intersection of the second flow path with the first flow path. The boost purge ejector tee can be integrated into an air box that can be associated with an engine such that the outlet port exits into an inside of the air box. | 04-09-2015 |
20150101577 | LATCHING CANISTER VENT VALVE - A purge vapor system, which includes a fuel tank, a fuel tank isolation valve in fluid communication with the fuel tank, and a carbon canister in fluid communication with the fuel tank isolation valve. The purge vapor system also includes a canister vent valve in fluid communication with the carbon canister, an air filter in fluid communication with the canister vent valve, and a latching mechanism for changing the canister vent valve between an open position and a closed position, where the latching mechanism is part of the canister vent valve. The latching mechanism is energized as the latching mechanism changes the canister vent valve between the open position and the closed position, and the latching mechanism is de-energized as the canister vent valve is held in the open position or the closed position. | 04-16-2015 |
20150107562 | EVAPORATIVE EMISSION CONTROL - A method for operating a fuel system is disclosed. The method includes sequentially purging fuel vapors from each of a plurality of regions of a canister. Purging a region includes opening an air inlet valve associated with that region and maintaining air inlet valves associated with each other region closed to direct fuel vapors to at least one purge outlet. | 04-23-2015 |
20150114360 | SYSTEM AND METHODS FOR CANISTER PURGING WITH LOW MANIFOLD VACUUM - A method for purging fuel vapors, comprising: purging fuel tank vapors directly from a fuel tank to an engine intake, bypassing a canister, via a venturi, while drawing canister vapors via the venturi into the purged fuel tank vapors en route to the engine intake. In this way, fuel tank vapors may be used to enable purging of a fuel vapor canister, even under conditions where there is insufficient manifold vacuum to enable a canister purge routine. By increasing the frequency of purge opportunities, bleed emissions from a saturated canister may be reduced. | 04-30-2015 |
20150114361 | FUEL EVAPORATIVE GAS EMISSION SUPPRESSION SYSTEM - If a pressure deviation ΔP (amount of pressure decrease) after a first predetermined time period T1 has elapsed since a bypass valve (canister opening/closing valve) is controlled from an opened to closed state by actuating a negative pressure pump when the engine is stopped and a purge valve is opened is less than a first predetermined pressure P1, it is determined that the bypass valve is in an open sticking state, and if the pressure deviation ΔP is not less than the first predetermined pressure P1, it is determined that the bypass valve is not in an open sticking state. Moreover, a pressure deviation ΔP after a second predetermined time T2 has elapsed since the bypass valve is subsequently controlled to be opened decreases by not less than a second predetermined pressure P2, it is determined that the bypass valve | 04-30-2015 |
20150322901 | SYSTEMS AND METHODS FOR PURGE AIR FLOW ROUTING - A method, comprising: purging fuel vapors from a fuel vapor canister and/or a fuel vapor bleed element to an engine intake with air routed through a transmission bellhousing. In this way, purge air may be warmed by heat generated in the transmission bellhousing during engine operation, thereby increasing desorption efficiency and reducing bleed emissions. Further, purge air may be pressurized in the transmission bellhousing to allow purging operations irrespective of intake manifold vacuum. | 11-12-2015 |
20150330338 | VAPORIZED FUEL PROCESSING APPARATUS - A vaporized fuel processing apparatus has a fuel tank, a canister configured to adsorb vaporized fuel and connected to an internal combustion engine, a vapor path connecting the fuel tank to the canister, a closing valve having a stepping motor and configured to open and close the vapor path, and an electric control unit configured to cause the closing valve to an initial position in order to initialize the closing valve. The electric control unit is configured to determine whether it is in a predetermined initialization permission time when the initialization of the closing valve does not adversely affect running of the internal combustion engine. When it is determined that it is in the predetermined initialization permission time, the electric control unit is configured to output signals to start the initialization of the closing valve. | 11-19-2015 |
20150337775 | SYSTEM AND METHODS FOR PURGING A FUEL VAPOR CANISTER BUFFER - A method for purging a fuel vapor canister buffer, comprising: opening a fuel tank isolation valve; opening a canister purge valve; and drawing a vacuum on a fuel tank sufficient to open a capless refueling assembly vacuum relief mechanism. In this way, the fuel vapor canister buffer may still be purged to intake even under conditions where the canister vent line is blocked. | 11-26-2015 |
20150345411 | EVAPORATION FUEL PROCESSING APPARATUS - In an evaporation fuel processing apparatus, a canister holds an evaporation fuel evaporated in a fuel tank, a purge passage communicates with the canister and an intake passage of an engine, a purge pump disposed in the purge passage pressurizes and feeds an air in the canister toward the intake passage, a bypass passage disposed in the purge passage bypasses the purge pump, and an on-off valve disposed in the purge passage opens and closes the bypass passage. When an intake negative pressure of the intake passage is low, the purge pump is activated, and the bypass passage is closed by the on-off valve. When the intake negative pressure of the intake passage is not low, the purge pump is stopped, and the bypass passage is open by the on-off valve. | 12-03-2015 |
20150345414 | Control Method for Adjusting the Hydrocarbon Concentration in an Active Carbon Filter of a Motor Vehicle - A control method for adjusting the hydrocarbon concentration in an active carbon filter of a tank ventilation device of a motor vehicle, includes the acts of: detecting an operational parameter of the internal combustion engine of the vehicle; determining the hydrocarbon content of a fuel tank gas mixture in the fuel tank ventilation device; and opening the tank ventilation valve of the tank ventilation device for a defined length of time in accordance with the determined hydrocarbon content when the operational parameter of the internal combustion engine displays an overrun mode or a standstill mode of the internal combustion engine generated by a start-stop system. | 12-03-2015 |
20150345435 | SYSTEM AND METHODS FOR MANAGING FUEL VAPOR CANISTER TEMPERATURE - A system for an engine, comprising: a fuel vapor canister coupled to a fuel tank; a thermal jacket comprising a phase-change material, the thermal jacket spatially sheathing the fuel vapor canister; and an engine coolant passage positioned to transfer thermal energy between engine coolant and the phase-change material. In this way, the phase-change material may buffer the temperature of the fuel vapor canister by absorbing heat generated during hydrocarbon adsorption, and returning the heat to the vapor canister during hydrocarbon desorption. By coupling the phase-change material to engine coolant, the thermal capacity of the thermal jacket can be increased, as heated coolant can thus transfer thermal energy to the phase-change material to replace the thermal energy transferred to the canister during hydrocarbon desorption. | 12-03-2015 |
20160010571 | FUEL SUPPLY SYSTEM FOR AN INTERNAL COMBUSTION ENGINE | 01-14-2016 |
20160010599 | FUEL EVAPORATIVE GAS TREATMENT DEVICE FOR FUEL TANK | 01-14-2016 |
20160017849 | ABNORMALITY SENSING DEVICE FOR EVAPORATION FUEL PURGE SYSTEM - An abnormality sensing device for an evaporation fuel purge system is equipped with a purge passage that connects a canister to an intake passage of an internal combustion engine, a purge pump, a purge control valve, and a valve component that closes and opens the purge passage at a target passage including at least a first purge passage defined between the purge control valve and the intake passage. An abnormality determining portion detects a physical quantity relevant to a pressure change in the target passage in a determination possible state where the purge control valve allows the evaporation fuel to flow through the first purge passage and where the valve component prohibits the evaporation fuel from being supplied to the intake passage. | 01-21-2016 |
20160025019 | CANISTER DESIGN FOR EVAPORATIVE EMISSION CONTROL - Methods and systems are provided for purging a fuel vapor canister into an engine intake. A method comprises flowing fuel vapors from a fuel tank through a full length of the fuel vapor canister from a first input to a first output on a first opposite side from the first input. The adsorbed fuel vapors may be purged from the fuel vapor canister through a full width in the fuel vapor canister from a second input to a second output on a second opposite side from the second input. | 01-28-2016 |
20160053726 | EVAPORATIVE EMISSIONS SYSTEM AND METHOD FOR A STOP/START VEHICLE - Systems and methods for diagnosing individual components of an evaporative emissions system are presented. In one example, fuel vapor flow may be a basis for determining whether or not selected emission system components may be degraded. Further, fuel tank pressure may be another basis for determining component whether or not selected emissions system components may be degraded. | 02-25-2016 |
20160061153 | SYSTEM AND METHOD FOR DIAGNOSING A DUAL PATH PURGE SYSTEM USING A HYDROCARBON SENSOR AND FOR DIAGNOSING A HYDROCARBON SENSOR IN A SINGLE PATH PURGE SYSTEM OR A DUAL PATH PURGE SYSTEM - A system according to the present disclosure includes a valve control module, a purge fraction module, and a diagnostic module. The valve control module opens a purge valve in an evaporative emissions system to allow purge vapor to flow to an intake system of an engine. The purge fraction module determines first and second fractions of purge vapor delivered to the engine relative to a total amount of air and purge vapor delivered to the engine based on first and second inputs, respectively. The first input is from a hydrocarbon sensor disposed in the evaporative emissions system of the engine. The second input is from an oxygen sensor disposed in an exhaust system of the engine. The diagnostic module selectively diagnoses a fault in at least one of the evaporative emissions system and the hydrocarbon sensor based on the first and second purge fractions when the purge valve is open. | 03-03-2016 |
20160061154 | PURGE VALVE DETACHMENT DIAGNOSTIC SYSTEMS AND METHODS - A diagnostic system for a vehicle includes a purge valve control module that closes a purge valve. The purge valve regulates fuel vapor flow from a fuel vapor canister to an intake system of an engine. A pump control module, after the closing of the purge valve, turns on a pump that pumps fuel vapor toward the purge valve. A first pressure module, after the purge valve is closed, determines a first pressure measured using a pressure sensor located between the pump and the purge valve. A second pressure module, after the determination of the first pressure and while the pump is on, determines a second pressure measured using the pressure sensor located between the pump and the purge valve. A diagnostic module selectively diagnoses detachment of the purge valve from the intake system based on the first and second pressures. | 03-03-2016 |
20160090924 | TRANSPIRATION FUEL TREATMENT APPARATUS - A transpiration fuel treatment apparatus, which can lower the internal pressure of a fuel tank in a relatively short time at the time of refueling, is provided. The transpiration fuel treatment apparatus comprises a fuel tank, a first sealing valve for sealing up a transpiration fuel within the fuel tank, and a second sealing valve for sealing up the transpiration fuel within the fuel tank at a position different from the position of the first sealing valve. The first sealing valve and the second sealing valve are opened before refueling of the fuel tank is started. | 03-31-2016 |
20160108864 | EVAPORATION FUEL PURGE SYSTEM - An evaporation fuel purge system includes: a fuel tank; a canister that absorbs and desorbs evaporation fuel emitted from the fuel tank; an intake passage for an internal combustion engine in which the evaporation fuel desorbed from the canister is mixed with fuel for combustion; a purge passage that connects the canister to the intake passage; an ejector device disposed in the purge passage; and a fluid drive device. The ejector device has a nozzle part that accelerates external fluid. The fluid drive device sends outside air corresponding to the external fluid to flow into the nozzle part. | 04-21-2016 |
20160115913 | VEHICLE - The vehicle is provided with a canister, a fuel vapor treatment device, a brake booster, which has a constant pressure chamber to which a negative pressure is supplied and is actuated by using a negative pressure supplied to the constant pressure chamber, and a negative pressure pump. The negative pressure pump is provided with a suction port, which is connected to the canister and to the constant pressure chamber, and an ejection port, which is connected to the air intake passage. A second purge control valve for opening and closing a second purge passage is installed in the second purge passage, which puts the canister and the negative pressure pump in communication. A brake negative pressure control valve is installed in the second brake passage, which puts the constant pressure chamber and the negative pressure pump in communication. | 04-28-2016 |
20160123254 | System And Method For Controlling The Amount Of Purge Fluid Delivered To Cylinders Of An Engine Based On An Operating Parameter Of A Purge Pump - A system according to the present disclosure includes a pump operating parameter module and a purge flow control module. The pump operating parameter module determines a value of an operating parameter of a purge pump that delivers purge fluid from a canister in an evaporative emissions system to an intake system of an engine. The operating parameter of the purge pump includes at least one of a speed of the purge pump, an amount of current supplied to the purge pump, and an amount of power supplied to the purge pump. The purge flow control module controls at least one of a purge valve and the purge pump to adjust an amount of purge fluid delivered to a cylinder of an engine based on the determined value of the operating parameter of the purge pump. | 05-05-2016 |
20160131052 | FUEL VAPOR PROCESSING APPARATUS - A fuel vapor processing apparatus may include a canister and a purge device. The purge device may desorb fuel vapor from the canister and purge the desorbed fuel vapor to an engine. The fuel vapor processing apparatus may further include a purge control device. The purge control device may obtain a target purge quantity to be desorbed from the canister at a point of time during an operation of the engine. In addition, the purge control device may control a purge quantity during the operation of the engine such that the purge quantity reaches the target purge quantity. | 05-12-2016 |
20160138528 | Fuel Vapor Canister Heater Control And Diagnostic Systems And Methods - An energy module determines an amount of energy consumed by an electric heater of a fuel vapor canister since an ignition system of the vehicle was last transitioned from OFF to ON. A purge valve control module controls opening a purge valve while the ignition system of the vehicle is ON, wherein fuel vapor flows from the vapor canister through the purge valve to an air intake system when the purge valve is open. A heater control module selectively applies power to the electric heater of the fuel vapor canister and, based on at least one of the amount of energy consumed by the electric heater and a mass of fuel vapor that has flowed through the purge valve, selectively disconnects the electric heater from the power until after the ignition system is transitioned from ON to OFF. | 05-19-2016 |
20160146157 | CONCENTRIC CONICAL FUEL VAPOR CANISTER - A fuel vapor canister is presented, comprising two or more pneumatically coupled concentric adsorbent beds, a vent port configured to deliver fresh air to an outermost concentric adsorbent bed, and a purge port configured to couple an engine intake to an innermost concentric adsorbent bed. The concentric adsorbent beds facilitate improved purging of the canister, thus decreasing bleed emissions. The concentric adsorbent beds may have a bi-conical structure yielding a conical flow path which allows fresh air to flow through the adsorbent beds equally, reducing the size of a canister heel. | 05-26-2016 |
20160146158 | FUEL TANK SYSTEM AND METHOD FOR SENSING PERFORATION - A fuel tank system includes: a fuel tank; a canister; a vent pipe; a valve member that is provided at the vent pipe and is sectioned into a tank-side main chamber, a canister-side main chamber and a back pressure chamber; a pipe configured to open an interior of the canister to the atmosphere; a negative pressure pump that is provided at the pipe, and applies negative pressure through the canister and the vent pipe to a fuel tank interior; a judging means for judging absence/presence of perforation of the fuel tank from behavior of air pressure at a time when negative pressure is generated at the negative pressure pump; and a negative pressure application path that communicates the pipe with the back pressure chamber, and that is configured to apply negative pressure from the negative pressure pump to the back pressure chamber without the negative pressure going through the canister. | 05-26-2016 |
20160146159 | FLOW RATE CONTROL VALVE AND FUEL VAPOR PROCESSING APPARATUS INCLUDING THE SAME - A flow rate control valve includes: a valve casing forming a fluid passage; a valve seat provided in the fluid passage; a stepping motor; a valve guide stroke-controlled by the stepping motor via a feed screw mechanism; a valve body configured to be placed and separated on and from the valve seat; a connector connecting the valve guide and the valve body so as to allow them to move in an axial direction within a predetermined range; a valve spring biasing the valve body in a closing direction. When closing the valve body, ECU controls the motor to a closed state such that a connection between the valve guide and the valve body by the connector is released, with the valve body being seated on the valve seat, and the valve guide being situated at a non-contact position spaced away from the valve seat. | 05-26-2016 |
20160177898 | MULTIPLE TAP ASPIRATOR WITH LEAK PASSAGE | 06-23-2016 |
20160186699 | PRESSURE CONTROL APPARATUS OF FUEL TANK FOR VEHICLE - In pressure increasing control for raising a pressure within a sealed type fuel tank from an excessive negative pressure to a low negative pressure, an opening or closing operation of a sealing valve, when the interior of a vehicle is very quiet, may cause the working noise thereof to be transmitted to a passenger, thereby deteriorating the noise characteristic. When the pressure within a fuel tank is below a predetermined negative pressure near a saturated vapor pressure of the fuel and an interior noise level is equal to or greater than a threshold value, a controller may operate a sealing valve to thereby raise the pressure of the fuel tank to a normal negative pressure region which may be higher than the predetermined negative pressure. | 06-30-2016 |
20160201612 | COMMON SHUT-OFF VALVE FOR ACTUATOR VACUUM AT LOW ENGINE POWER AND FUEL VAPOR PURGE VACUUM AT BOOST | 07-14-2016 |
20160201613 | SYSTEM AND METHOD FOR IMPROVING CANISTER PURGING | 07-14-2016 |
20160201614 | FUEL SYSTEM CONTROL | 07-14-2016 |
20160201615 | SYSTEM AND METHOD FOR IMPROVING CANISTER PURGING | 07-14-2016 |
20160377003 | EVAPORATED FUEL PROCESSING APPARATUS - An evaporated fuel processing apparatus includes: a fuel tank that stores fuel supplied to an engine; a purge pipe that communicates an upper space in the fuel tank with an inlet system of the engine; an electromagnetic valve that is mounted on the purge pipe and that opens and closes the purge pipe; an air-fuel ratio detecting module for detecting an air-fuel ratio of an air-fuel mixture burned in the engine in accordance with an oxygen concentration in exhaust gas emitted from the engine; and a controlling module for controlling open and close of the electromagnetic valve based on an operating state of the engine. The controller controls at least one of a valve-open cycle, a valve-open period, and a valve-open amount of the electromagnetic valve based on a variation value of the air-fuel ratio detected by the air-fuel ratio detecting module when opening the electromagnetic valve. | 12-29-2016 |
20170234269 | SYSTEMS AND METHODS FOR FUEL VAPOR CANISTER PURGING | 08-17-2017 |
20180022211 | VAPOUR RECOVERY SYSTEM AND VAPOUR CONTROL METHOD | 01-25-2018 |
20190145354 | EVAPORATED FUEL PROCESSING DEVICE | 05-16-2019 |
20190145356 | Work Vehicle | 05-16-2019 |
20220136462 | EVAPORATED FUEL TREATMENT APPARATUS - An evaporated fuel treatment apparatus includes an abnormality determination unit that determines an abnormality of a purge passage. The abnormality determination unit changes an operating cycle of a purge control valve to a cycle longer than an initial set value while maintaining a duty ratio of the purge control valve set according to an operating state of an internal combustion engine, and determines an abnormality of the purge passage based on a first variation range and a second variation range calculated from a detection value detected by an airflow meter before and after the change of the operating cycle. | 05-05-2022 |