WALBRO ENGINE MANAGEMENT, L.L.C. Patent applications |
Patent application number | Title | Published |
20160040628 | ELECTRONIC CONTROLLED FUEL ENRICHMENT SYSTEM - An apparatus for delivering a fuel-air mixture to an engine is provided. The apparatus includes: a carburetor having one or more passages and one or more chambers, wherein at least some of the passages and chambers are in communication with one another, and a fluid pump communicated with the carburetor and pumping fluid into or out of the carburetor to influence an fuel-to-air ratio of a fuel and air mixture delivered from the carburetor. | 02-11-2016 |
20140306358 | ACCELERATOR DEVICE FOR A CARBURETOR - In at least one implementation a carburetor includes an intake bore with a port opening into the intake bore, a fuel chamber from which fuel is supplied to the intake bore, and an accelerator device including a fuel reservoir. A fuel flow control valve is provided between the fuel chamber and the port to control the flow rate of fuel to the port and at least one passage communicates the fuel reservoir with the port and fuel in the fuel reservoir is supplied to the port therethrough. The passage also communicates the fuel reservoir with the fuel chamber. The fuel flow control valve is located between the fuel reservoir and the port and between the fuel chamber and the port, and the passage includes a portion extending between the fuel reservoir and the fuel chamber independently of the fuel flow control valve. | 10-16-2014 |
20140261329 | DIAPHRAGM CARBURETOR WITH FUEL METERING COMPENSATION - A fuel and air supply device for an engine includes a carburetor having a fuel metering assembly with a fuel metering diaphragm defining at least part of a reference chamber, a scavenging air assembly including an air passage and an air valve moveable within the passage to alter air flow through the air passage, and a reference passage. The reference passage communicates at one end with the air passage upstream of the air valve and at its other end with the reference chamber to provide a reference air signal through the reference passage to the reference chamber. The reference air signal, in at least some implementations, is taken from a location downstream of an air filter and any other components so it is representative of the air flow at the air valve and accounts for restrictions to air flow caused upstream of the air valve. | 09-18-2014 |
20140239097 | VENTURI FLUID PUMP WITH OUTLET FLOW CONTROLLER - A fuel pump for a fuel system includes a nozzle, a venturi, a pump inlet and a flow controller. The nozzle has an orifice through which fuel is ejected and the venturi is downstream of the nozzle and has an inlet through which fuel discharged from the orifice flows, a passage downstream of the venturi inlet through which fuel flows to create a drop in pressure in the area of the venturi, and an outlet through which fuel is discharged from the venturi. Fuel is drawn through the pump inlet fuel by the drop in the pressure created in the area of the venturi and the flow controller is downstream of the outlet and has a chamber in which fuel from the venturi outlet is received. The flow controller causes fuel to fill the venturi to ensure performance of the fuel pump. | 08-28-2014 |
20140021642 | PLUGS FOR CARBURETORS - In accordance with one implementation, a carburetor includes a body having a fluid passage formed therein and a counterbore located along the fluid passage. The counterbore has a first sealing surface and a central axis, and the body further includes a second sealing surface located radially closer to the central axis than is the first sealing surface. The carburetor also includes a plug affixed to the body at the counterbore and in contact with both of the first and second sealing surfaces. Engagement of the plug with the two sealing surfaces may improve the connection between the plug and carburetor body. In at least some implementations, the plug may be held in place without aid of an adhesive or other secondary connector or connection aid. | 01-23-2014 |
20130249120 | CARBURETOR FUEL FILTER - An on-board fuel filter for a carburetor includes a filter element made from a non-metallic material. The material can be a polymeric material and may be a woven or a non-woven material. The fuel filter may be adapted to have an interference fit with a fuel passage of the carburetor and constructed so that the fuel filter is substantially not plastically deformed by the interference fit. Filter elements may be cut from a sheet of polymeric material and aligned with a fuel passage opening in a body of the carburetor while being cut. | 09-26-2013 |
20130234345 | FUEL METERING DIAPHRAGM WITH BACKING PLATE - In at least some implementations, a carburetor having a fuel metering system including a diaphragm assembly that moves in response to pressure changes in a metering chamber to actuate a metering valve may include a flexible diaphragm adapted to carried by a body of the carburetor at a periphery to define part of the metering chamber. The portion of the diaphragm that defines part of the metering chamber defines a chamber projected area of the diaphragm. A backing plate is attached to the flexible diaphragm and arranged to be located outside the metering chamber. The backing plate having an outer perimeter defining a plate projected area, wherein an area ratio of the plate projected area to the chamber projected area is greater than about 0.1. | 09-12-2013 |
20130175713 | CARBURETOR FUEL SUPPLY SYSTEM - In at least some implementations a carburetor may include a main bore through which a fuel and air mixture is delivered from the carburetor, a fuel metering assembly, a supplemental fuel pump and a valve. The supplemental fuel pump includes a diaphragm that defines a fuel chamber on one side from which fuel may be discharged to at least temporarily increase the amount of fuel discharged from the carburetor and a reference chamber on the other side that is communicated with a reference pressure source. The valve is electrically actuated and moveable between first and second positions to at least substantially prevent communication of the reference pressure source with the supplemental fuel pump diaphragm when the valve is in its second position to thereby inhibit or prevent fuel being discharged from the fuel chamber. | 07-11-2013 |
20130133765 | FUEL PUMP ASSEMBLY - A fuel pump assembly may include a housing and a fuel pump within a fuel pump cavity. The fuel pump may include a motor, a pumping element driven for rotation by the motor, a pump body that maintains the position of the pumping element relative to the motor and the housing, and a flexible seal. The seal may be disposed between the pump body and the housing to provide a fluid tight seal between them. A portion of the seal may be disposed radially outwardly of a distal end of the pump body to radially position the pump body within the fuel pump cavity and a portion of the seal may be disposed axially outwardly of the distal end of the pump body to axially position the pump body within the fuel pump cavity. | 05-30-2013 |
20130119567 | CARBURETOR FUEL SUPPLY SYSTEM - A purge and prime assembly for a carburetor includes a purge and prime pump that alternately takes in and discharges fluid, and a plurality of passages through which fluid is routed. The passages may include a purge passage through which fluid is drawn by the purge and prime pump, a return passage through which fluid is discharged from the purge and prime pump and discharged from the carburetor, and a priming passage through which a portion of the fluid discharged from the purge and prime pump is routed to a main bore of the carburetor. The assembly may also include a purge valve that prevents fluid from being discharged from the purge prime pump through the purge passage, and a return valve that prevents fluid in the return passage from being drawn into the purge and prime pump. | 05-16-2013 |
20130087935 | CARBURETOR SHUT-OFF VALVE - In at least some implementations, a valve for a carburetor that is moveable between open and closed positions includes a first valve portion adapted to at least substantially inhibit a first fluid flow in the carburetor when the valve is closed and a second valve portion associated with the first valve portion to at least substantially inhibit a second fluid flow in the carburetor when the valve is closed. In this way, two fluid flows may be at least substantially inhibited at the same time by the valve. In some forms, the fluid flows may include a primary fluid flow to an engine and a secondary fluid flow, such as from an accelerator pump, to the engine. | 04-11-2013 |
20130068974 | ROTARY POSITION SENSOR WITH BUFFER - A rotary position sensor for determining the rotary position of a rotary component may include a sensor and a magnet. The sensor may be responsive to a characteristic of a magnetic field that changes as the magnetic field moves. The magnet may be carried by the rotary component for rotation with the rotary component. A buffer may be provided around the magnet to limit distortion of the magnet field. The buffer is effective against objects normally located in the area of a device with which the sensor is used (e.g. adjacent components) as well as against foreign objects not normally in the area of the device. | 03-21-2013 |
20130062547 | AIR VALVE SEALING PLUG - A seal for an air valve having a valve shaft rotatably carried in a bore formed in a body and a valve head carried by the valve shaft to control air flow through an air passage as the valve shaft is rotated. The seal may include a pair of spaced apart sealing members adapted to engage the body within the air passage to seal a junction between the valve and air passage. The seal may also include an intermediate member between and interconnecting the sealing members, where the intermediate member is flexible to permit movement of at least a portion of the sealing members toward each other and the intermediate member is also resilient to yieldably bias the sealing members away from each other at least when the sealing members are displaced toward each other. | 03-14-2013 |
20130054121 | FUEL INJECTED ENGINE SYSTEM - An engine system may include a fuel and air supply circuit and an exhaust circuit, a temperature sensor mounted on an exterior of the engine and an oxygen sensor located in the exhaust circuit. The fuel and air supply circuit may include a throttle body mounted on the engine and having a throttle valve to control the flow rate of air delivered to the engine, a fuel injector carried by the throttle body to deliver fuel to the engine and a fuel rail carried by at least one of the throttle body and the fuel injector and having an input to receive a supply of fuel and an outlet through which fuel is routed to the fuel injector. An engine control unit may be communicated with these components to control the fuel and air mixture provided to the engine as a function of the temperature and oxygen sensor outputs. | 02-28-2013 |
20120043674 | AIR SCAVENGING CARBURETOR - In one form, a carburetor may include an air passage, a fuel and air mixing passage, a throttle valve, an air valve and a lost motion coupler interconnecting the air valve and the throttle valve. The throttle valve may be disposed in communication with the fuel and air mixing passage and moveable between an idle position and an open position permitting an at least somewhat less restricted fluid flow therethrough than when the throttle valve is in the idle position. The air valve may be disposed in communication with the air passage, and moveable between closed and fully open positions to control air flow through the air passage. The lost motion coupler may permit a limited movement of the throttle valve away from its idle position without a corresponding movement of the air valve, and may also permit movement of the air valve along with the throttle valve after said limited movement and until the air valve is fully open, and may also permit further movement of the throttle valve to its wide open position after the air valve is fully open. | 02-23-2012 |
20120018908 | CARBURETOR VALVE ADJUSTMENT LIMITER - A carburetor valve and limiter cap assembly for limiting adjustment of fuel flow in a carburetor may include a needle valve and a limiter cap. The needle valve may have a tip, a threaded portion, a head having a flange with an outer diameter greater than the rest of the head, and one or more serrations formed on the head. The limiter cap may have a sidewall, a tab extending outwardly from the sidewall, a first cavity having an inner diameter sized for an interference fit with the flange, and at least one driving feature to engage at least one serration so that rotation of the limiter cap causes rotation of the needle valve. The interference fit between the flange and the limiter cap inhibits removal of the limiter cap from the needle valve to prevent undesired adjustment of the needle valves by an end user. | 01-26-2012 |
20110303189 | POSITIVE DETECTION OF ENGINE POSITION DURING ENGINE STARTING - A system for managing ignition of a light-duty internal combustion engine during starting includes a charge winding used to create an ignition pulse; a first signal generated by the charge winding that indicates the speed of an engine; a second signal generated by the charge winding that indicates a piston position of the engine; a switch coupled to the charge winding for controlling the ignition pulse; and a processing device that receives the first signal and the second signal, wherein the processing device activates the switch when a comparison of the received first signal and second signal indicates that a piston is positioned at approximately top dead center (TDC). | 12-15-2011 |
20110253102 | SYSTEM FOR SUPPLEMENTARY FUEL SUPPLY - Supply of supplementary fuel is controlled by activation of a valve in response to certain engine operating conditions or parameters. For example, the supplementary fuel may be supplied to facilitate starting and warming up a cold engine, or to cool and/or slow down an engine operating above a threshold speed. | 10-20-2011 |
20110000471 | CONTROL CIRCUIT FOR CAPACITOR DISCHARGE IGNITION SYSTEM - A control circuit for use with an ignition system of a light-duty combustion engine. In one embodiment, the control circuit includes a charging circuit, a timing circuit and a shut down circuit that includes a manual stop switch. Activation of the manual stop switch causes the control circuit to shut down the engine, and can do so even if the manual stop switch is only momentarily engaged by the operator. | 01-06-2011 |
20100258099 | ENGINE FUEL DELIVERY SYSTEMS, APPARATUS AND METHODS - A method of operating an engine is disclosed, which includes determining a peak power condition for the engine, measuring a temperature associated with the engine at said peak power condition, comparing the temperature measured with a previously determined temperature associated with a known peak power condition of the engine, determining an offset value based on the comparison made in step, controlling at least one of an air-fuel mixture delivered to the engine or ignition spark timing based on said offset value. Various engine fuel delivery systems, carburetors, fuel injection and control systems also are disclosed. | 10-14-2010 |
20100219817 | ROTARY POSITION SENSOR - A rotary position sensor for determining the rotary position of a rotary component may include a sensor and a magnet. The sensor may be responsive to a characteristic of a magnetic field that changes as the magnetic field moves. The magnet may be carried by the rotary component for rotation with the rotary component and have an anti-rotation feature to prevent rotation of the magnet relative to the rotary component to maintain a desired rotary position of the magnet. | 09-02-2010 |
20100012084 | Controlling A Light-Duty Combustion Engine - A method and system for controlling a light-duty combustion engine and, more particularly, a method and system that use an engine speed governor to limit the engine speed to a level that is less than a clutch-in speed of a centrifugal clutch. If it is determined that an operator is attempting to throttle or accelerate the engine, the engine speed governor is disengaged so that normal operation can commence. | 01-21-2010 |
20090194726 | LAYERED SCAVENGING CARBURETOR - A scavenging valve assembly is used in a carburetor. The valve assembly includes a throttle valve and a rotary air valve. The throttle valve opens and closes an air-fuel passage. The rotary air valve opens and closes an air passage and has one or more air bore(s). When the rotary air valve begins to rotate, airflow travels through the bore(s) and the size of an opening area that airflow travels through continuously increases in size. | 08-06-2009 |
20090184434 | VARIABLE VENTURI CARBURETOR - A carburetor includes a main body defining a bore, a main passage and a venturi defined within the bore, and a fuel nozzle carried by the main body and including a fuel nozzle outlet communicating with the venturi. The carburetor may also include a valve member translatable across an axis of the bore, such that in a closed state, the valve member closes the main passage but maintains the venturi at least partially open. The carburetor may also include a needle valve disposed at an end of the fuel nozzle substantially opposite of the fuel nozzle outlet to variably control flow of fuel into a fuel nozzle inlet, and a needle valve transmission may be coupled between a throttle shaft and the needle valve to convert rotation of the throttle shaft to translation of the needle valve. | 07-23-2009 |
20090145408 | CARBURETOR LIMITER CAP DEVICE - An adjustment limiting device for a carburetor including a fuel adjustment valve rotatable to adjust a supply of fuel in or delivered from the carburetor includes an adjustment limiting cap and a connector. The adjustment limiting cap is adapted to be disposed over a portion of the fuel adjustment valve and includes a rotary connection feature adapted to limit relative rotational movement between the adjustment limiting cap and the fuel adjustment valve, and a rotation limiter to limit rotational movement of the adjustment limiting cap. The connector may be carried by the adjustment limiting cap to maintain the adjustment limiting cap on the fuel adjustment valve. The connector may be concealed by the carburetor body, permit the adjustment limiting cap to be fitted onto the fuel adjustment valve, and prevent the adjustment limiting cap from being removed from the fuel adjustment limiting valve. | 06-11-2009 |
20090071448 | VAPOR SEPARATOR - A vapor separator includes a fuel pump, and a container at least partially defining a fuel reservoir to hold fuel and a pump chamber to hold the fuel pump. A closure is carried by the container to close the fuel reservoir and at least partially defines a vapor chamber above a level of fuel in the fuel reservoir and in fluid communication with the pump chamber. A vapor vent device is carried by the closure to allow fuel vapor to vent out of the vapor separator from the vapor chamber and prevent liquid fuel from flowing therethrough when the vapor separator is declined. | 03-19-2009 |
20090013951 | CONTROL SYSTEM AND METHOD OF DELIVERING START-UP FUEL TO AN ENGINE - A method and system that control delivery of start-up fuel to an engine, in one form includes clocking a first predetermined period of time. The method includes allowing start-up fuel to be supplied to the engine during at least some of the first predetermined period of time. The method also includes clocking a second predetermined period of time that comes after the first predetermined period of time. And the method includes not allowing start-up fuel to be supplied to the engine when the second predetermined period of time is clocking. In another form, the system includes a carburetor and a control unit. | 01-15-2009 |
20090000602 | FUEL CONTROL DEVICE FOR A PLURALITY OF FUEL SOURCES - A fuel mixing device includes a fuel passage adapted to communicate fuel from at least one of a first fuel source or a second fuel source provided at a higher pressure than the first fuel with at least one of a first fuel path or a second fuel path. The device also includes a control valve permitting fuel flow through the second fuel path and out of the device when the first fuel is provided in the fuel passage so that the first fuel flows out of the device through both the first and second fuel paths, and the valve prevents fuel flow through the second fuel path and out of the device when the second fuel is provided in the fuel passage so that the second fuel flows out of the device only through the first fuel path. | 01-01-2009 |
20080302332 | SPLIT-BORE STRATIFIED CHARGE CARBURETOR - A carburetor includes a body, a fuel metering system carried by the body to regulate fuel flow to the body, and a fuel-and-air mixing passage in fluid communication with the fuel metering system. The mixing passage extends through the body and is partitioned into a rich mixture passage, and a lean mixture passage positioned between the rich mixture passage and the fuel metering system. | 12-11-2008 |
20080276911 | CONTROLLING EVAPORATIVE EMISSIONS IN A FUEL SYSTEM - Methods and fuel systems to reduce evaporative emissions of a volatile fuel. A fuel tank contains fuel, a carburetor mixes air with the fuel from the fuel tank, and a plurality of fluid paths route fuel amongst and/or between the fuel tank and the carburetor. A valve actuation device stops flow of fuel in one or more of the plurality of fluid paths and the carburetor is adapted to be drained of fuel during engine shutdown to reduce or prevent evaporative emissions from the fuel system. The carburetor is preferably designed so as to minimize a volume of fuel contained therein. | 11-13-2008 |
20080258320 | CHARGE FORMING DEVICE WITH IDLE AND OPEN THROTTLE CHOKE CONTROL - A charge forming device may include a body having a fuel and air mixing passage, a throttle valve and choke valve moveable between first and second positions to control at least in part the fluid flow in the fuel and air mixing passage, and throttle and choke control members associated with the throttle and choke valves, respectively. The choke control member may also be associated with an engine starting system so that the choke valve is moved to its second position upon actuation of the starting system. The choke control member is selectively associated with the throttle control member to hold the choke control member in a position spaced from its first position. In this manner, the throttle valve and choke valve may be automatically positioned in a desired position for starting of the engine upon actuation of the engine starting system. | 10-23-2008 |
20080236552 | Mixture Device for Gaseous Fuel and Air - A fuel mixing device includes a body having an intake bore, a first surface, and a second surface adjacent to the first surface. A first valve device may be carried by the body on the first surface and a second valve device may be carried by the body on the second surface. A first fuel passage may be provided in the body communicating with the first valve device and adapted to communicate with a supply of fuel. A second fuel passage communicates with the second valve device and the first fuel passage to permit fuel that has passed through the first valve device to flow to the second valve device, wherein the first fuel passage and the second fuel passage connect to at least one of the first surface or the second surface. | 10-02-2008 |
20080211116 | ACCELERATOR DEVICE FOR A CARBURETOR - According to one implementation, carburetor includes an intake bore, a throttle valve, a main fuel nozzle, an accelerator device and a fuel passage. The throttle valve is movable between an idle and wide open positions and includes a shaft rotatably supported around an axial line extending across the intake bore. The accelerator device may be operable to increase an amount of fuel that flows through the main fuel nozzle when the throttle valve is moved toward its wide open position, and may include a fuel reservoir constructed and arranged to store fuel. The fuel passage communicates with the main fuel nozzle and the fuel reservoir is provided upstream of the main fuel nozzle such that fuel flows through the fuel reservoir before being delivered to the main fuel nozzle. | 09-04-2008 |