Patent application number | Description | Published |
20080217955 | Vehicle Door Auxiliary Latch Release - An auxiliary latch release assembly, and method of operation, for use with a vehicle having a body defining a cargo area, a door, and a door latch mounted in the door and including an auxiliary latch release is disclosed. The assembly may comprise a handle that is accessible in the cargo area, a release cable having a first end engaging the handle and a second end extending in the body adjacent to the door having the door latch, and an e-latch override assembly mounted in the body that engages the second end of the release cable and includes a latch release member. The latch release member can be actuated by the e-latch override assembly to engage the auxiliary latch release to release the door latch. | 09-11-2008 |
20110187151 | PASSIVELY DEPLOYABLE AIR DAM FOR A VEHICLE - An air dam assembly mounted under a front end of a vehicle includes a passively deployable air dam assembly. The passively deployable air dam assembly includes a passively deployable air dam having a front surface at least partially exposed to ram air when the vehicle is traveling in a forward direction, and a passive deployment assembly including at least one spring biasing the passively deployable air dam into a retracted position, with the passive deployment assembly engaging the passively deployable air dam to allow the passively deployable air dam to move, against the bias of the spring, from the retracted position to a deployed position closer to ground under the vehicle when a forward speed of the vehicle reaches or exceeds a predetermined activation speed. | 08-04-2011 |
20110203861 | IMPACT AND DAMAGE RESISTANT FRONT END AIRLFOW CONTROL DEVICE - An airflow control device for controlling a flow of air through a grille of a vehicle includes a sheet of flexible material. The sheet is moveable between an open position allowing airflow through the grille and a closed position blocking airflow through the grille. The sheet moves in a generally vertical path between the open position and the closed position. | 08-25-2011 |
20110247779 | FLEXIBLE DRIVE ELEMENT FOR AN ANGLED ACTIVE SHUTTER - A shutter system includes a first louver element having a first pivot axis and a second louver element having a second pivot axis. The first louver element is configured to rotate about the first pivot axis, and the second louver element is configured to rotate about the second pivot axis. The shutter system additionally having a flexible drive element connecting the first louver element and the second louver element to thereby substantially synchronize the rotation of the first and second louver elements. | 10-13-2011 |
20110251761 | SHUTTER WITH OFFSET LOUVER PIVOT - A shutter system for controlling an airstream through a grille opening in a vehicle includes a plurality of louvers. Each louver has a pivot axis, and a louver face offset from the pivot axis. The shutter system also includes a mechanism configured to select a position for the shutter system by rotating each of the plurality of louvers about its respective pivot axis. Each of the plurality of louvers rotates in tandem with every other of the plurality of louvers during the selection of the position for the shutter system. The louver face of each of the plurality of louvers is rotated to a position parallel to the airstream when the shutter system is fully opened, is positioned to restrict the airstream through the grille opening when the shutter system is partially closed, and is positioned immediately adjacent to the grille opening when the shutter system is fully closed. | 10-13-2011 |
20110308763 | FUEL EFFICIENT POWERTRAIN COOLING SYSTEMS AND RADIATOR MODULES - Embodiments of a powertrain cooling system and embodiments of a radiator module are provided for deployment onboard a vehicle. In one embodiment, the powertrain cooling system includes a first airflow path, a second airflow path, a primary radiator core positioned in the first airflow path, an auxiliary radiator core position in the second airflow path, and a first airflow valve positioned in the second airflow path upstream of the auxiliary radiator core. The first airflow valve is movable between a closed position wherein the first airflow valve impedes airflow to the auxiliary radiator core and an open position. | 12-22-2011 |
20120060776 | COMPOUND SHUTTER SYSTEM - A compound shutter system includes a first shutter assembly having at least one louver operable to selectively open and close the first shutter assembly. The compound shutter system also includes a second shutter assembly disposed remotely from the first shutter assembly. The second shutter assembly includes at least one louver operable to selectively open and close the second shutter assembly. The compound shutter system additionally includes a drive element. The drive element operatively connects the first shutter assembly and the second shutter assembly and automatically coordinates operation of the first and second shutter assemblies. A vehicle employing the compound shutter system is also disclosed. | 03-15-2012 |
20120067655 | JAMMING RESISTANT AERO LOUVER - A louver for a vehicle includes a panel having a central portion and a first outer edge portion. A hinge interconnects the central portion and the first outer edge portion. The louver rotates about a rotation axis in a first direction from an open position to a closed position. The hinge bends to allow the first outer edge portion to move relative to the central portion to reduce an effective moment arm resisting rotational movement of the louver when the louver is bound. | 03-22-2012 |
20120090906 | VENTILATION ASSEMBLY FOR A FRONT EXTERIOR OF A VEHICLE - A ventilation assembly is configured for operative attachment to a front exterior of a vehicle. The ventilation assembly includes a first and a second section. The first and second sections are configured to move between respective open and closed positions. The first and second sections define respective first and second openings when the first and second sections are in the respective open positions to provide continuous fluid movement from the front exterior of the vehicle therethrough. Likewise, the first and/or second sections are a fluid barrier, configured to prevent the ingress of fluid from the exterior of the vehicle through the respective opening, when the section is in the respective closed position. Additionally, one of the first and second sections is disposed above the other of the first and second sections on the front exterior of the vehicle. | 04-19-2012 |
20120091749 | SYSTEM FOR CONTROLLING AN ACCESS OPENING IN A BODY OF A VEHICLE - A system controlling an access opening in a body of a vehicle includes a door arranged to selectively open and close a first portion of the opening. A latch is mounted on the door for latching the door to the body and releasing the door to selectively open and close the first portion of the opening. A device is mounted on the door and is configured to be retracted by an actuator before the door is opened and to be protracted by the actuator when the door is closed. A detent is mounted on the device to latch the device to the door when the device is protracted and to release the device before the device is retracted. A motor is mounted on the first door and is configured to operate at least two of the latch, the detent, and the actuator. | 04-19-2012 |
20120092883 | VEHICULAR DUCT WITH INTEGRATED LIGHTING - A body panel for a vehicle includes an outer lens and a light engine projecting a light into the outer lens. The body panel includes a duct, which is disposed at a substantially equal vertical elevation as the outer lens. The light engine is positioned relative to the outer lens to allow the duct to pass directly behind the outer lens, at approximately the same vertical elevation, to improve air flow through the duct. | 04-19-2012 |
20120100791 | SHUTTER CONTROL DURING AMBIENT TEMPERATURE WARM-UP ACROSS A FREEZING POINT - A method of controlling operation of an adjustable shutter adapted for varying an amount of airflow to cool a powertrain in a vehicle includes monitoring the ambient temperature. The method also includes sensing an increase in the ambient temperature up to a threshold temperature value. The method additionally includes changing a position of the shutter after a predetermined amount of time has elapsed following the increase in the ambient temperature up to the threshold temperature value. A vehicle using a controller to perform such a method is also provided. | 04-26-2012 |
20120111652 | SYSTEM AND METHOD FOR INCREASING OPERATING EFFICIENCY OF A POWERTRAIN BY CONTROLLING AN AERO SHUTTER - A method of increasing operating efficiency of a powertrain includes unrestricting a grille opening by fully opening a shutter at or below a first predetermined vehicle speed, and turning a fan off. The method also includes unrestricting the grille opening by fully opening the shutter above the first predetermined vehicle speed and at or below a second predetermined vehicle speed under a high powertrain cooling load, and turning the fan on. The method additionally includes partially restricting the grille opening above the second predetermined vehicle speed via an intermediate position of the shutter, and turning the fan off. A specific size of the fan together with the selected positions for the shutter at the respective vehicle speeds provides sufficient airflow through the grille opening to cool the powertrain, and provides increased powertrain operating efficiency. A system for increasing operating efficiency of a powertrain and a vehicle are also provided. | 05-10-2012 |
20120132474 | COMPOUND SHUTTER SYSTEM WITH INDEPENDENT AND NON-SEQUENTIAL OPERATION - A compound shutter system includes a plurality of shutter assemblies. Each of the shutter assemblies has at least one louver operable to selectively open and close the respective shutter assembly. The compound shutter system additionally includes a mechanism operatively connected to each of the plurality of shutter assemblies. The mechanism is also configured to actuate each of the shutter assemblies independently and non-sequentially relative to each other. A vehicle employing the compound shutter system is also disclosed. | 05-31-2012 |
20120133175 | SYSTEM AND METHOD FOR ACTUATING MULTIPLE COMPONENTS IN A VEHICLE HAVING AN ACCESS OPENING - An actuating system for a vehicle having a body that defines an access opening includes a panel arranged to selectively open and close at least a first portion of the opening. The system also includes multiple components operatively connected to the panel and adapted to be actuated. The system additionally includes a motor operatively connected to the panel and adapted to actuate the multiple components. A vehicle employing the system and a method for sealing an access opening in a body of a vehicle are also provided. | 05-31-2012 |
20120232761 | PASSIVE CHARGE CORD RELEASE SYSTEM FOR AN ELECTRIC VEHICLE - In accordance with exemplary embodiments, passive release of a charge cord is provided for a vehicle. The vehicle includes a charging port having one or more sensors for detecting movement of the charging cable relative to the charging port. A transceiver responds to the detected movement by transmitting an authentication request and receiving an authentication signal, which is processed by a controller and unlocks the charging cable from the charging port responsive to verifying the authentication signal. In an exemplary method, an authentication request is transmitted responsive to detecting an uncoupling action of the charging cable from a vehicle. Upon receipt and verification of an authentication signal, the charging cable is automatically unlocked and unlatched facilitating release of the charging cable. In accordance with the exemplary embodiments, the charging cable can be passively released from the vehicle. | 09-13-2012 |
20120272579 | HEADERLESS OPPOSING HINGED DOORS - A pair of opposing hinged doors includes a first door and a second door having a first window panel and a second window panel respectively. The first window panel moves along a first path that initially guides the first window panel away from the second window panel and then guides the first window panel vertically downward when moving from an extended position into a retracted position. Similarly, the second window panel moves along a second path that initially guides the second window panel away from the first window panel and then guides the second window panel vertically downward when moving from an extended position into a retracted position. The movement of the first window panel and the second window panel along the first path and the second path respectively allows for the first door and the second door to be independently openable relative to each other. | 11-01-2012 |
20120280531 | SYSTEM FOR CONTROLLING AN ACCESS OPENING IN A BODY OF A VEHICLE - A system for controlling an access opening in a vehicle body includes first and second doors arranged to selectively open and close first and second portions of the opening. The system also includes first and second latches operatively connected to the first and second doors, respectively, and configured to selectively latch the first and second doors to and release the first and second doors from the body. The system additionally includes a device operatively connected to the first door and configured to be selectively retracted before at least one of the first and second doors is opened and protracted when the first and second doors are closed to seal the opening. Furthermore, the system includes a third latch operatively connected to one of the first and second doors and configured to selectively latch the first door to the second door and release the first and second doors. | 11-08-2012 |
20120305818 | ACTIVE AERO SHUTTERS - A shutter set includes a first vane and a first vane stop. The first vane is moveable between a first position and a second position. The first vane stop is selectively moveable between a locking position and a free position, relative to the first vane. The first vane stop is configured to apply a bias force or is configured to bias the first vane by a predetermined clearance distance when the first vane stop is in the locking position, and is configured to allow movement of the first vane between the first position and the second position when the first vane stop is in the free position. | 12-06-2012 |
20120312611 | VARIABLE-BIAS SHUTTER - A variable-bias shutter system for controlling an airstream through an entryway includes a plurality of louvers. Each louver has a pivot axis and a louver face that includes a first portion arranged to one side and a second portion arranged to the other side of the respective pivot axis. The shutter system also includes a mechanism configured to select a position for the shutter system by rotating in tandem each of the plurality of louvers about the respective pivot axis. An area of the first portion that is exposed to the airstream is smaller than an area of the second portion when the shutter system is substantially closed. Additionally, the area of the first portion that is exposed to the airstream is larger than the area of the second portion when the shutter system is not closed. A vehicle employing the variable-bias shutter system is also disclosed. | 12-13-2012 |
20120313580 | ELECTRIC VEHICLE WITH SECONDARY CHARGE CORD RELEASE MECHANISM - A secondary (backup) release (unlocking and unlatching) of a charge cord for plug-in electric vehicles or hybrid electric vehicles is provided. A charging port is configured to receive a charging cord and includes a lock bolt configured to lock the charging cord in the charging port during charging. The vehicle also includes a hood assembly having a hood latch with a first cable coupled to the hood latch. A second cable is coupled to the latch bolt and a sheath of the first cable for unlocking the lock bolt. A retainer is coupled to the hood assembly and is configured to limit movement of the second cable until the hood latch has released the hood assembly. | 12-13-2012 |
20120323448 | REJECTION OF UNDER-HOOD AIRFLOW - A system for controlling airflow through an under-hood compartment of a vehicle includes a first grille opening and a second grille opening each disposed at an entrance to the under-hood compartment. The first and second grille openings are configured to admit a first portion of the airflow and a second portion of the airflow, respectively, to the under-hood compartment from the ambient. The system also includes a selectable position shutter assembly disposed at the second grille opening and configured to control the second portion of the airflow admitted to the under-hood compartment. The system additionally includes a vent opening at least partially defined by the body and configured to exhaust at least a fraction of the first portion of the airflow from the under-hood compartment to the ambient. A vehicle employing the system and housing an internal combustion engine and a heat exchanger in the under-hood compartment is also disclosed. | 12-20-2012 |
20120330513 | AIR DAM ACTUATION SYSTEM - A system for air dam actuation of a vehicle is provided having an object sensor, an air dam, an actuation mechanism, and a control module. The object sensor is for tracking external objects located in front of the vehicle. The air dam has a deployed position and a non-deployed position. The actuation mechanism is connected to the air dam, and actuates the air dam between the deployed and the non-deployed position. The control module is in communication with the object sensor and the actuation mechanism. The control module includes logic for monitoring the object sensor for a set of object data. The set of object data is data indicating if an external object is located in front of the vehicle. | 12-27-2012 |
20130031837 | CONTROL OF AN ACCESS OPENING IN A BODY OF A VEHICLE - A system for controlling an access opening in a vehicle body includes first and second doors arranged to selectively open and close first and second portions of the opening. The system also includes a device operatively connected to the first door and configured to be selectively retracted before at least one of the first and second doors is opened. The device is also configured to be protracted when the first and second doors are closed to thereby seal the first and second portions of the access opening. The system additionally includes a controller configured to selectively retract and protract the device. Furthermore, the system includes a sensor arranged on the vehicle and configured to detect an impact exceeding a threshold intensity on the body and communicate a signal indicative of the impact to the controller. The controller retracts the device upon receipt of the signal from the sensor | 02-07-2013 |
20130042426 | ELECTRONIC VEHICLE WIPER BLADE PARKING MECHANISM - A vehicle wiper assembly includes a wiper blade configured to wipe a surface, an armature, and an actuator. The armature has a first end spaced from a second end, and is coupled with the wiper blade at the first end, and coupled to a pivot mechanism at the second end. The pivot mechanism is configured to allow the wiper blade to articulate about the second end in a direction substantially away from the surface and between a wiping position and a parked position. The actuator is provided in mechanical communication with the armature and is configured to receive an electrical actuation signal to transition the wiper blade between a wiping position and the parked position, where the wiper blade is in contact with the surface while in the wiping position, and is separated from the surface while in the parked position. | 02-21-2013 |
20130042533 | BACK-UP POWER FOR CONTROLLING AN ACCESS OPENING IN A BODY OF A VEHICLE - A system for controlling an access opening in a vehicle body includes first and second doors arranged to selectively open and close first and second portions of the opening. The system also includes a power-activated device operatively connected to the first door and configured to be selectively retracted before at least one of the first and second doors is opened. The power-activated device is also configured to be protracted when the first and second doors are closed to thereby seal the first and second portions of the access opening. The system additionally includes a primary energy storage device configured to supply power to the power-activated device. Furthermore, the system includes an auxiliary energy storage device configured to supply back-up power to the power-activated device when the power supplied by the primary energy storage device is interrupted. | 02-21-2013 |
20130081888 | RECONFIGURABLE BASELINE OPENING FOR UNDER-HOOD AIRFLOW - A method of establishing a baseline airflow opening into an under-hood compartment of a vehicle configured to house a powertrain includes providing a fascia for the under-hood compartment. The fascia includes a first grille opening and a second grille opening configured to admit first and second portions of ambient airflow, respectively, into the under-hood compartment. A selectable position shutter assembly is disposed in the second grille opening and configured to control a size of the second grille opening. The baseline airflow opening into the under-hood compartment is the sum of the size of the first grille opening and the minimum size of the second grille opening. The method also includes ascertaining a configuration of the powertrain and setting the minimum size of the second grille opening in response to the ascertained configuration of the powertrain to establish the baseline airflow opening. A system employing the method is also disclosed. | 04-04-2013 |
20130103265 | VEHICLE GRILLE SHUTTER - A method of acknowledging a presence of an individual relative to a vehicle having a grille opening includes detecting that the vehicle is stationary. The method also includes sensing the presence of the individual relative to the vehicle. The method additionally includes setting an adjustable shutter in motion in response to the sensed presence of the individual when the vehicle is stationary. The shutter is arranged relative to the grille opening and is operable to selectively open and close the grille opening to present an appearance of a “wink”. A system using a controller configured to regulate the shutter and perform such a method is also provided. | 04-25-2013 |
20130264047 | SHIELDED POSITIVE STOPS FOR AN ACTIVE SHUTTER - A shutter system for controlling airflow through a grille opening in a vehicle includes a shutter housing. The shutter system also includes a louver supported by and configured to rotate relative to the shutter housing about a pivot axis. The shutter system also includes a first positive stop configured to prevent the louver from rotating past a fully-opened position and a second positive stop configured to prevent the louver from rotating past a fully-closed position. The shutter system additionally includes a shield arranged relative to the shutter housing and configured to screen the first and second positive stops from the airflow and protect the positive stops from airborne dirt and debris. A vehicle having the above shutter system is also disclosed. | 10-10-2013 |
20130264133 | ANGLED ACTIVE SHUTTER WITH DUAL-DRIVE ACTUATION - A shutter system includes a first louver configured to rotate about a first pivot axis and a second louver configured to rotate about a second pivot axis. The second pivot axis is arranged at an angle that is smaller than 180 degrees with respect to the first pivot axis. The shutter system also includes a dual-drive actuation mechanism configured to rotate the first and the second louvers about the respective pivot axes. The dual-drive mechanism includes a first driven element operatively connected to the first louver and a second driven element operatively connected to the second louver. The dual-drive mechanism also includes a drive element configured to receive a drive torque and apply the drive torque simultaneously to the first and second driven elements. A vehicle having the above shutter system is also disclosed. | 10-10-2013 |
20140038507 | METHOD AND APPARATUS FOR REMOTE TORQUE CONTROL OF AN AERODYNAMIC AIR SHUTTER MECHANISM - A system for controlling an aerodynamic shutter of a vehicle includes an ambient temperature estimation module that determines an ambient temperature. A shutter control module that determines whether to actuate the shutter based on the ambient temperature. The shutter control module also determines a predetermined period before selectively applying a predetermined torque value to the shutter. The predetermined period is selected based on the ambient temperature. | 02-06-2014 |
20140039765 | INITIALIZATION SEQUENCE FOR A VEHICLE GRILLE SHUTTER - A method of initializing operation of a shutter arranged relative to a grille opening in a vehicle having a power-plant includes detecting a start-up of the power-plant. The method also includes sensing a temperature of ambient air. The method also includes commanding the shutter to achieve a fully-opened position when the temperature of ambient air is above a predetermined value such that a flow of ambient air to the power-plant through the grille opening is substantially unrestricted. The method additionally includes commanding the shutter to achieve a fully-closed position when a temperature of the power-plant is maintained below a threshold value such that the flow of ambient air through the grille opening to the power-plant is substantially blocked. A vehicle using a controller configured to perform the above method is also provided. | 02-06-2014 |
20150037999 | ELECTRICAL CONNECTOR ASSEMBLY - An electrical connector assembly including a first connector having a first electrical conductor. A second connector is engagable with the first connector and has a second electrical conductor. The first and second electrical conductors establish an electrical connection through the electrical connector assembly when in contact together. A lock mechanism is arranged to both lock the first and second connectors together and to enable contact between the first and second conductors when the first and second connectors are in a fully engaged relation. A method of establishing an electrical connection through an electrical connector assembly is also included. | 02-05-2015 |