Patent application number | Description | Published |
20080250851 | INTEGRATED OIL CONDITION AND LEVEL SENSOR - An oil condition and level sensor is provided that includes a solenoid body, a coil, an armature and a pole piece. The solenoid body defines an armature chamber between the armature and the pole piece. The armature is movable in the armature chamber in response to energizing of the coil. In an oil condition sensing system, the coil is operatively connected to a controller which can determine at least one of an oil temperature, oil viscosity, oil level, and an oil change occurrence. In one embodiment, four oil levels, including an overfill oil level and an excessively low oil level may be detected. The sensor is referred to as an integrated oil condition and level sensor as multiple sensing functions are integrated into one sensor. | 10-16-2008 |
20100186696 | OIL CONTROL VALVE ASSEMBLY FOR ENGINE CAM SWITCHING - An oil control valve assembly for an engine is provided that has a control valve with a valve body, and a manifold that defines a control passage in fluid communication with a valve lift switching component and an exhaust passage for exhausting fluid from the valve. The control valve is controllable to selectively direct fluid from a supply source to the control passage to actuate the valve lift switching component. An elongated tubular member is positioned adjacent the engine component and is operatively connected to the exhaust passage such that fluid flows from the exhaust passage to the elongated tubular member and through the elongated tubular member onto the engine component. | 07-29-2010 |
20100269586 | SENSOR FOR INDUCTIVE MEASURE OF FLUID LEVEL - A sensor for measuring fluid level is provided that includes a float, which may be steel or another material that affects magnetic flux. The sensor further includes a housing defining a cavity configured to receive the float. The housing may be, but need not be, tubular, and the cavity may be cylindrical. At least one magnetic coil is wound to the housing along the cavity. The coil may be wound around the housing. The float is positionable in the fluid to move within the cavity in relation to fluid level. | 10-28-2010 |
20100281971 | FLUID CONDITION AND LEVEL SENSOR - A fluid condition and level sensor is provided that includes a solenoid body, a coil, and an armature surrounded by the coil. The solenoid body defines an armature chamber in which the armature is movable in response to energizing of the coil. The sensor is mounted to a reservoir such that a first portion of the solenoid body extends into a cavity defined by the reservoir, and so that movement of the armature is substantially transverse to a direction of fluid level change in the reservoir. The first portion of the solenoid body defines an opening permitting fluid communication between the cavity and the armature chamber, such that fluid enters and is displaced from the armature chamber through the opening as the armature moves, movement of the armature within the armature chamber thereby being affected by fluid level in the reservoir. | 11-11-2010 |
20100320407 | FLUID-BIASED HYDRAULIC CONTROL VALVE - A hydraulic control valve is provided having a solenoid body, an energizable coil, and an armature positioned adjacent the coil. A valve stem extends from the armature. The coil is energizable to move the armature and the valve stem from a first position to a second position. The valve body, the armature and the valve stem are configured so that the armature and the valve stem are biased to the first position by pressurized fluid, allowing the armature to operate without a biasing spring. | 12-23-2010 |
20110284781 | ISOLATION VALVE WITH INTEGRATED SENSOR - An isolation valve has an electrically-actuated solenoid valve, at least one port having a port extension, and a sensor assembly coupled to the port extension. The sensor assembly includes a printed circuit board, an integrated circuit disposed on the circuit board, and at least one pressure sensor coupled to the port extension to measure a vapor pressure in the port extension. In one embodiment, a single sensor assembly can monitor pressure at two or more ports. By integrating the sensor assembly into the isolation valve, the valve has a compact assembly that is easy to install in a vapor control system. | 11-24-2011 |
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 |
20130000574 | OIL CONTROL VALVE ASSEMBLY FOR ENGINE CAM SWITCHING - An oil control valve assembly for an engine is provided that has a control valve with a valve body, and a manifold that defines a control passage in fluid communication with a valve lift switching component and an exhaust passage for exhausting fluid from the valve. The control valve is controllable to selectively direct fluid from a supply source to the control passage to actuate the valve lift switching component. An elongated tubular member is positioned adjacent the engine component and is operatively connected to the exhaust passage such that fluid flows from the exhaust passage to the elongated tubular member and through the elongated tubular member onto the engine component. | 01-03-2013 |
20130075639 | FLUID-BIASED HYDRAULIC CONTROL VALVE - A hydraulic control valve is provided having a solenoid body, an energizable coil, and an armature positioned adjacent the coil. A valve stem extends from the armature. The coil is energizable to move the armature and the valve stem from a first position to a second position. The valve body, the armature and the valve stem are configured so that the armature and the valve stem are biased to the first position by pressurized fluid, allowing the armature to operate without a biasing spring. | 03-28-2013 |