Patent application number | Description | Published |
20090202292 | Multiple Position Ball Stud for Closure Strut - A multiple position ball stud assembly for a closure strut supporting a closure pivotally attached adjacent to an opening, and a method of operation, is disclosed. The ball stud assembly may comprise a ball stud and a ball stud actuator. The ball stud may have a socket portion mounted on a closure lift assist strut and a guide pin extending from the socket portion. The ball stud actuator assembly may include a housing, a guide for receiving the guide pin, and an actuator for moving the guide pin along the guide to thereby cause the ball stud to move relative to the housing. The multiple position ball stud assembly may also include a control assembly that engages the actuator for selectively causing the actuator to move the guide pin along the guide. | 08-13-2009 |
20100092238 | ACTIVE MATERIAL ELEMENTS HAVING REINFORCED STRUCTURAL CONNECTORS - An active material assembly for interconnecting with at least one structural member of a structure, sustaining a load over a predetermined period, and selectively effecting a change in the structure, includes at least one active material element, such as a shape memory wire, and a reinforcing connector, such as a ring terminal crimp fixedly secured to the wire, and more preferably including the use of one or more tube or shim intermediate the wire and crimp, wave form imparting configurations, collets, or ferrules. | 04-15-2010 |
20100099346 | ACTIVE MATERIAL ENABLED PRESSURE RELEASE VALVES AND METHODS OF USE - An active pressure relief valve adapted for selectively regulating a condition within an interior compartment generally includes a housing fluidly coupling the compartment to an external environment and defining an opening, an actuator including an active material element operable to effect movement of a flap relative to the opening, a load limit protector coupled to and configured to present a secondary output path for the element, when the flap is unable to move, and/or a latching mechanism coupled to, and configured to engage the flap, so as to retain the flap in a modified condition. | 04-22-2010 |
20100109371 | Closure Damper Assembly - A closure assembly for a vehicle pivotable between a closed position and a full open position, and a method of controlling its movement, is disclosed. The closure assembly includes a closure, a hinge mechanism attached to the closure, and a damper assembly. The damper assembly includes a damper actuator and a pneumatic closure damper, with the closure damper including a hollow bellows extending from a support base, an orifice and an end opposite the support base. The damper actuator is attached to the hinge mechanism and the support base is attached to the body structure such that the damper actuator is spaced from the end when the closure is in the closed position and the damper actuator is in contact with the end and compresses the bellows when the closure is in the full open position. | 05-06-2010 |
20100154307 | DAMPING ASSEMBLY FOR REDUCING VIBRATIONS IN A LATCH FOR A VEHICLE DOOR AND A METHOD - A damping assembly is disposed within a housing of a latch assembly to slow rotation of a forkbolt as the forkbolt rotates between an over-travel position and a latched position within the housing. The damping assembly includes a first passage and a second passage that are each configured to allow a fluid to flow therein. A restriction passage fluidly connects the first passage and the second passage and increases the pressure of the fluid within the passages. A check valve is configured to allow unidirectional flow of the fluid through the passages. An engagement mechanism is operatively connected to the passages and is configured to engage the forkbolt as the forkbolt rotates between the over-travel position and the latched position. The fluid within the passages reacts against the engagement mechanism to slow rotation of the forkbolt as the forkbolt rotates between the over-travel position and the latched position. | 06-24-2010 |
20110127781 | LOCKABLE VEHICLE CLOSURE BUMPERS - A closure assembly and method of operation for a vehicle closure includes a latch for selectively securing the closure to the vehicle, and a lockable bumper assembly that includes an electronic locking mechanism that can selectively secure the bumper in a pocket of the base to add an additional mechanism for securing the closure to the vehicle. The locking mechanism may be controlled to secure the bumper to the base after a controller detects that the latch is latched and the bumper is seated in the pocket of the base. | 06-02-2011 |
Patent application number | Description | Published |
20090189428 | Arm assembly for a chair - An office chair is provided with includes a chair arm assembly on each opposite side thereof for supporting the arms of a user. The arm assemblies each include a latching assembly to permit adjustment of the height of an arm cap thereof while maintaining the arm cap at a selected elevation. The latch assembly is engageable with an inner liner provided within a support post. Further, the armrest assembly has a plurality of interconnected and relatively movable plates which permit adjustment of the angular orientation of the arm cap along with adjustment of the arm cap in the front-to-back direction and the side-to-side direction. | 07-30-2009 |
20120068512 | Arm assembly for a chair - An office chair is provided with includes a chair arm assembly on each opposite side thereof for supporting the arms of a user. The arm assemblies each include a latching assembly to permit adjustment of the height of an arm cap thereof while maintaining the arm cap at a selected elevation. The latch assembly is engageable with an inner liner provided within a support post. Further, the armrest assembly has a plurality of interconnected and relatively movable plates which permit adjustment of the angular orientation of the arm cap along with adjustment of the arm cap in the front-to-back direction and the side-to-side direction. | 03-22-2012 |
20130181372 | MANUFACTURING PROCESS FOR FORMING A CHAIR BACK - An improved chair back is formed of a molded construction uses multiple mold shots of mold materials to develop different performance characteristics in selected areas of the chair back. The chair back has the appearance of a unitary molded panel, but is formed from multiple mold shots which preferably are performed at multiple stations on a mold tool. By providing multiple mold shots and selected materials to form different areas of the chair back, different performance characteristics are generated including the provision of a peripheral frame providing structural rigidity to the chair back, a lumbar support panel which provides localized support to the lumbar region of the chair occupant, and a thin sheet-like support panel extending between the frame and enclosing the interior region defined between the peripheral frame to provide a more flexible and pliant surface providing more comfortable contact with the occupant's back. | 07-18-2013 |
Patent application number | Description | Published |
20100018505 | METHOD AND APPARATUS FOR SUPPORTING STOP-AND-GO ENGINE FUNCTIONALITY - A vehicle includes a direct-start engine and a fuel rail with a threshold fuel pressure, a transmission having a threshold fluid pressure, and a fuel delivery system. The system has a controller, a motor having a shaft, and an integrated pump assembly including a high-pressure (HP) fuel pump and a low-pressure (LP) fluid pump each connected to the shaft. Threshold pressures are maintained during the predetermined engine state, which includes an engine idling and an engine cranking state. A method for providing stop-and-go functionality in a vehicle having a direct-start engine includes detecting a current engine state, rotating a motor shaft to energize a secondary HP fuel pump at a first threshold pressure during engine cranking, and rotating the shaft to energize an LP fluid pump at a second threshold pressure during engine idling and engine cranking. The secondary pumps can also be used when primary pumps are temporarily inoperable. | 01-28-2010 |
20100060245 | RECTIFYING CIRCUIT FOR A MULTIPHASE ELECTRIC MACHINE - Cathode-anode voltage across free-wheeling diodes in an active rectifier is used in the determination of switching points when the free-wheeling diode is forward biased. Hysteretic switching is accomplished through the selection of conductive and non-conductive switching threshold. The switching thresholds are further selected to prevent voltage oscillations at zero current crossings and reduce delays during deactivation to prevent cross-conduction. | 03-11-2010 |
20100100301 | METHOD AND APPARATUS FOR SUPPORTING STOP-AND-GO ENGINE FUNCTIONALITY - A vehicle includes a direct start engine, an automatic transmission having a threshold fluid pressure sufficient for enabling operation of the transmission when the engine is off, a controller, and a fuel delivery system. The controller determines the presence of predetermined engine states, and optimizes a stop-and-go functionality of the engine. The fuel delivery system includes a motor and an integrated pump assembly having a secondary high-pressure (HP) fuel pump which is selectively connectable to a rotatable shaft of the motor, and a secondary low-pressure (LP) fluid pump which is continuously connected to the shaft. The motor continuously energizes the secondary LP fluid pump via the rotatable shaft to thereby maintain the threshold fluid pressure during a first or second engine state, and selectively energizes the secondary HP fuel pump via the rotatable shaft to maintain the threshold fuel pressure during the second engine state. | 04-22-2010 |
20100250069 | PUMP SPEED COMMAND GENERATION ALGORITHM FOR MAGNETORHEOLOGICAL POWER STEERING COUPLING - A method for determining a speed of a power steering pump used in a power steering assembly of a vehicle that has particular application in a vehicle using a magneto-rheological hydraulic power steering (MRHPS) system for improving the fuel efficiency and ride comfort of the vehicle, and for reliable functioning of the power steering system. The method includes determining an angle of rotation of the steering wheel and a rate of change of the angle of rotation of the steering wheel based on the angle of rotation of the steering wheel of the vehicle. The method further includes determining the speed of the vehicle and the speed of the power steering pump based on the angle of rotation of the steering wheel, the rate of change of the angle of rotation of the steering wheel and the speed of the vehicle. | 09-30-2010 |
20100326070 | ACTUATOR SYSTEM INCLUDING AN ACTIVE MATERIAL - A linear actuator associated with an actuator system for a device includes a wire cable fabricated from an active material. The linear actuator couples to the device and to the moveable element. The active material induces strain in the linear actuator in response to an activation signal. The linear actuator translates the moveable element relative to the device in response to the induced strain. An activation controller electrically connects to the linear actuator and generates the activation signal. A position feedback sensor monitors a position of the moveable element. | 12-30-2010 |
20120105065 | DIAGNOSIS OF HEV/EV BATTERY DISCONNECT SYSTEM - A circuit that detects if contacts in an HV contactor have been welded or stuck closed. The circuit includes a controller that generates a short duration pulse signal that closes a driver switch and allows current flow through a coil in the HV contactor. The current flow is converted to a voltage by a sensor, where the voltage is received by the controller. The controller uses the voltage, such as by comparing the voltage to a stored representative voltage of the coil current for when the HV contactor is open, to determine whether the HV contactor is closed, and possibly welded or stuck closed, or partially closed. The sensor can be the driver switch or another device, such as a resistor. | 05-03-2012 |
20120130594 | METHOD FOR MANAGING FAULTS IN A MAGNETO-RHEOLOGICAL HYDRAULIC POWER STEERING SYSTEM - A system and method for managing faults occurring in a power steering system in a vehicle is disclosed that has particular application for an MRHPS system to provide reliable functioning of the power steering system. The method includes detecting a fault condition in the MRHPS system and selecting a safe mode from a plurality of predetermined safe modes based on the fault condition. The plurality of predetermined safe modes include a normal operation mode, an engine speed follow mode, a manual mode, a fixed duty cycle mode and a voltage control mode. If a fault condition is detected, the method applies the safe mode to manage the fault condition. | 05-24-2012 |
20120324868 | METHOD FOR CONVERTING CONSTITUENT GASES IN AN INTERNAL COMBUSTION ENGINE EXHAUST GAS MIXTURE AND A VEHICLE INCORPORATING THE SAME - A vehicle includes an internal combustion engine operatively disposed therein. The engine generates exhaust gases. The vehicle further includes an alternator operatively connected to the engine. The alternator produces DC power. An ultracapacitor is operatively connected to the alternator to receive electrical energy therefrom. The vehicle still further includes an exhaust gas treatment system operatively connected to the engine to receive exhaust gases therefrom. The exhaust gas treatment system includes an electrically heated catalyst (EHC) device electrically connected to the ultracapacitor to selectively heat a catalytic exhaust system component. The ultracapacitor stores energy converted by the alternator from vehicle kinetic energy and releases the stored energy to heat the EHC. | 12-27-2012 |
20140103722 | ELECTRICAL SYSTEM AND METHOD FOR A HYBRID-ELECTRIC VEHICLE - An electrical system includes a battery for providing electrical power to a starter mechanism and an auxiliary load of a hybrid-electric vehicle. An electric double-layer capacitor (“EDLC”) is electrically connectable to the battery and the auxiliary load. A separation switch is electrically connected between the battery and the EDLC for electrically separating the battery from the EDLC and the auxiliary load. The separation switch is opened in response to the voltage across the battery being less than the voltage across the EDLC. | 04-17-2014 |
20140306523 | APPARATUS AND METHOD FOR VEHICLE VOLTAGE STABILIZATION - Method for voltage stabilization during an engine starting event of a vehicle includes receiving, at a switch device module, an active Start_ON signal from a starter solenoid module indicating initiation of the engine starting event. At the switch device module, an auxiliary electrical energy storage device (ESD) is electrically coupled to one or more auxiliary loads within a predetermined delay since the active Start_ON signal was received. A primary ESD and a starter motor are electrically decoupled from the one or more auxiliary loads only after the auxiliary ESD has been electrically coupled to the one or more auxiliary loads. In response to a predetermined condition occurring while the primary ESD and the starter motor are electrically decoupled from the one or more auxiliary loads, the primary ESD and the starter motor are electrically coupled to the one or more auxiliary loads. | 10-16-2014 |
20140375118 | SMART POWER DISTRIBUTION UNIT - Apparatus for voltage stabilization in a vehicle includes a battery distribution module having a load module managing electrical power to one or more auxiliary loads, a first switch coupling a starter motor and an ESD to the load module only when closed, a second switch coupling an auxiliary ESD to the load module only when closed, and a controller integrated with a PC board attached to the first and second switch devices. The controller is configured to control opening and closing of the first and second switches based on at least one of a plurality of signals received by the controller. The primary ESD is electrically coupled a primary fuse terminal of the battery distribution module which electrically couples the primary ESD to a second terminal of the first switch and the starter motor. The auxiliary ESD is electrically coupled to an auxiliary fuse terminal of the battery distribution module which electrically couples a first terminal of the second switch to the auxiliary ESD. | 12-25-2014 |