Patent application number | Description | Published |
20080257316 | DUAL EXHAUST GAS RECIRCULATION VALVE - An exhaust gas recirculation (EGR) system communicates hot exhaust gases from an exhaust manifold to an intake manifold through a first passage and a second passage parallel with the first passage. A first EGR valve assembly controls exhaust gas flow through the first passage and a second EGR valve assembly controls exhaust gas flow through the second passage. Exhaust gas is selectively flowed through one or both of the first and second passages to provide the desired temperature and flow through the intake manifold to the engine. | 10-23-2008 |
20130152905 | HYDROCARBON SENSOR FOR PURGING CANISTER OF EXTENDED RANGE ELECTRIC VEHICLE - An evaporative fuel vapor control system ( | 06-20-2013 |
20140144416 | METHOD AND DEVICE FOR OPERATING AN INTERNAL COMBUSTION ENGINE - The internal combustion engine includes at least one cylinder, an exhaust gas tract having a measuring device, and a tank ventilation system having a purge air line, which provides pneumatic communication between the tank ventilation system and the cylinder. The purge air line has a sensor for ascertaining a hydrocarbon content of a gas flow from the tank ventilation system to the at least one cylinder. Fuel metering into the cylinder is controlled dependent on the ascertained hydrocarbon content. An exhaust gas characteristic of an exhaust gas flow that flows in the exhaust gas tract is detected by the measuring device and compared with a specified target value. If the ascertained difference between the detected exhaust gas characteristic and the specified target value exceeds a specified threshold, a test is carried out to determine whether the sensor has a malfunction. | 05-29-2014 |
20150034180 | TANK PRESSURE CONTROL SOLENOID WITH PASSIVE TANK VACUUM RELIEF - A tank pressure control valve which provides for both controlled and passive vacuum relief functions with an additional component in a tank purge valve. The tank pressure control valve includes a second valve in addition to a purge valve to create a small sealing area on one side that opens easily against the tank pressure with the normal magnetic forces in a purge valve. The second valve is a sealing disk, which has an aperture to allow for the flow of purge vapor. One side of the disk has sealing on a larger area so the small vacuum forces open the valve against the spring force biasing the valve to a closed position. The design of the second valve uses a disk to provide precise flow control and passive vacuum relief. | 02-05-2015 |
Patent application number | Description | Published |
20130015378 | ARTICULATING POPPET TO SEAL A NATURAL VACUUM LEAK DETECTION DEVICE - A Natural Vacuum Leak Detection (NVLD) device having an articulated poppet to allow the sealing surface of the poppet portion to articulate, or wobble, on the end of a poppet pin, where the poppet pin is mounted to the end of the flange portion. The flange portion has the friction spring, and poppet spring pushing on it. The seal surface of the flange portion is able to move to evenly apply force to the lip seal, and provide a full seal. Because the seal surface of the flange portion is able to articulate, or wobble, the flange portion is able to compensate for misalignment between the poppet stem portion and lip seal. | 01-17-2013 |
20130152904 | Turbo Purge Module For Turbocharged Vehicle - A turbo purge module includes a purge valve connected between a vapor collection canister and an intake manifold. A venturi nozzle receives pressurized air from the turbocharger, when the turbocharger is operating, to create a vacuum to draw vapors from the canister through the purge valve to an inlet of the turbocharger and the intake manifold to be purged in the engine. A first check valve prevents pressure from the intake manifold from reaching the canister when the turbocharger is operating. A second check valve prevents vacuum pressure from the intake manifold from communicating with the venturi nozzle when the turbocharger is at idle, with vapor from the canister being drawn through the purge valve and the intake manifold to be purged in the engine. The purge valve, venturi nozzle, first check valve, and second check valve are integrated into a single component. | 06-20-2013 |
20130160746 | Method And System For Regulated Exhaust Heating Of A Charcoal Canister Of An Emissions System To Reduce Heel - A evaporative emission control system includes a fuel tank, canister communicating with the fuel tank, air intake structure directing air to an internal combustion engine, a purge valve connected between the canister and the air intake structure, a vent valve associated with a source of ambient air, mixing structure associated with vent valve to selectively receive the ambient air that passes through the vent valve, a feed line connected between an exhaust flow path associated with the engine and the mixing structure, an output air flow from the mixing structure being received by the canister, and an exhaust valve in the feed line for controlling pressurized exhaust air flow, from the exhaust flow path, to the mixing structure. The exhaust air flow is mixed with the ambient air in the mixing structure with the output air flow therefrom purging the canister of hydrocarbons to be consumed by the engine. | 06-27-2013 |
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 |
20140326534 | NATURAL VACUUM LEAK DETECTION NOISE ATTENUATION DEVICE - A noise attenuation device for reducing resonance in a natural vacuum leak detector. The device includes a housing, a first connector connected to the housing, and a first fitting connected to the first connector. Also included is a second connector which is connected to the housing on an opposite end of the housing in relation to the first connector, and a second fitting connected to the second connector. A plurality of tubes is disposed within the housing between the first connector and the second connector such that air flows through the first fitting, the first connector, the plurality of tubes, through the second connector and the second fitting. A plurality of flow paths is created by the plurality of tubes, and the plurality of flow paths reduces the turbulence and the pulsation of air flow through the housing, reducing or eliminating resonance in the natural vacuum leak detector. | 11-06-2014 |
20140345573 | TURBO BYPASS SWITCH VALVE MOUNTING ON AIR BOX - A system which includes a turbo bypass switching valve (BSV) positioned at a beneficial location as a direct mount on an air box to achieve compliance to OBD hose-off requirement via electronic actuation of the BSV and monitoring of the fuel tank pressure sensor for pressure change. When the turbocharger unit is generating pressurized air, the turbo BSV is open, and vapor is passing through the purge valve, some level of vacuum in the fuel tank is sensed. By closing the BSV, flow through the venturi is reduced, producing both less vacuum and a change in fuel tank pressure. The pressure change does not occur if any of the hoses become disconnected. This results in a simple OBD “venture hose off” check without additional components. | 11-27-2014 |
20140345707 | DIRECT MOUNT CANISTER PURGE SOLENOID WITH ADDITIONAL VACUUM PORTS - A valve assembly, such as a canister purge solenoid (CPS) having one or more interchangeable components which may be used to reconfigure the valve assembly to have one or more additional vacuum ports. The design of the valve assembly eliminates the need to mold these ports into the intake manifold, simplifying the design of the manifold, and the tooling needed to make the manifold. The direct mount design of the CPS of the present invention includes at least one additional port to serve as an additional vacuum port to be used for any other purpose, such as a PCV valve, brake booster, or the like. | 11-27-2014 |