An active front deflector assembly having a deployable deflector panel, linkage assemblies, and an actuator. The system deploys and retracts based on vehicle requirements, and, when deployed, interrupts air flow thereby improving the vehicle aerodynamics, reducing emissions and improving fuel economy. The deflector panel is retractable so the vehicle meets ground clearances, ramp angles, off-road requirements, etc. The deflector panel is also both rigid and semi-rigid to absorb impact energy. The linkage assemblies are coupled to the deflector panel and a drive shaft connected to the actuator. The drive shaft transmits the drive from the actuator coupled to one linkage assembly to the other linkage assembly for moving the deflector panel between the deployed/retracted positions. The actuator is clutched to prevent damage to the system. The active front deflector assembly provides a fully deployable system with object detection, declutching of the actuator, and communication with the vehicle.

A compact deployable/retractable running board assembly for a motor vehicle including a running board, linkage coupled to the running board, and a motor assembly coupled to an actuator, the running board moveable between at least one stowed position and at least one deployed position. The linkage includes a drive arm connected to a pivot shaft within a housing at a location on the pivot shaft between two bushings that are coupled to the pivot shaft within the housing. The linkage also includes an idler arm connected to a pivot shaft within an idler housing. The actuator is operably coupled to the linkage to cause rotation of the linkage to move the running board between the at least one stowed position generally under the motor vehicle and at least one deployed position to provide a step surface for a user.

A convertible top having a top cover and a cover linkage adjustable between a closed position and a storage position and which has a linkage arrangement on each of its two sides linkage arrangement pivotably mounted on a respective main bearing, which is fixed to the vehicle, via a main multi-joint arrangement comprising two main links, a rear bow realized as a panel bow mounted on each of the bilaterally arranged linkage arrangements via a rear link arrangement. The two bilaterally arranged rear link arrangements can each be actuated by a drive lever, which drives the respective rear link arrangement starting from the closed position in a first opening phase while the main multi-joint arrangement is static and drives the respective rear link arrangement in the opposite direction of the respective main multi-joint arrangement in a second opening phase.

A rear view element folding device is disclosed for approaching at least one pivot position of an element housing relative to an element foot that can be mounted on the motor vehicle. The rear view element folding device locks or unlocks at least one resting position of the element housing relative to the element foot. A method for triggering such a rear view element folding device is also disclosed.

A vehicle throttle system having a throttle foot pedal and a throttle lever, wherein actuation of the vehicle engine may be controlled by the pedal and lever. The system includes a throttle level sensor, which is located at the throttle lever, and arranged to receive inputs from both the foot pedal and the lever. By locating the throttle sensor at the throttle lever, the sensor is less exposed to harmful environmental conditions, and can provide for more effective use of vehicle cabin space.

An active front deflector assembly having a deployable deflector panel, linkage assemblies, and an actuator. The system deploys and retracts based on vehicle requirements, and, when deployed, interrupts air flow thereby improving the vehicle aerodynamics, reducing emissions and improving fuel economy. The deflector panel is retractable so the vehicle meets ground clearances, ramp angles, off-road requirements, etc. The deflector panel is also both rigid and semi-rigid to absorb impact energy. The linkage assemblies are coupled to the deflector panel and a drive shaft connected to the actuator. The drive shaft transmits the drive from the actuator coupled to one linkage assembly to the other linkage assembly for moving the deflector panel between the deployed/retracted positions. The actuator is clutched to prevent damage to the system. The active front deflector assembly provides a fully deployable system with object detection, declutching of the actuator, and communication with the vehicle.

An active front deflector assembly having a deployable deflector panel, linkage assemblies, and an actuator. The system deploys and retracts based on vehicle requirements, and, when deployed, interrupts air flow thereby improving the vehicle aerodynamics, reducing emissions and improving fuel economy. The deflector panel is retractable so the vehicle meets ground clearances, ramp angles, off-road requirements, etc. The deflector panel is also both rigid and semi-rigid to absorb impact energy. The linkage assemblies are coupled to the deflector panel and a drive shaft connected to the actuator. The drive shaft transmits the drive from the actuator coupled to one linkage assembly to the other linkage assembly for moving the deflector panel between the deployed/retracted positions. The actuator is clutched to prevent damage to the system. The active front deflector assembly provides a fully deployable system with object detection, declutching of the actuator, and communication with the vehicle.

A remote handle assembly for selectively unlocking a component in a seat assembly for an automotive vehicle comprises a handle bracket having a hole extending laterally through the handle bracket, a pulley having a pivot hole extending axially through the pulley, a handle spline having a passageway extending axially through the handle spline, and a pin extending through the passageway in the handle spline, the pivot hole in the pulley, and the hole in the handle bracket. The pulley is pivotably coupled to the pin between an unactuated position and an actuated position and the handle spline is pivotably coupled to the pin between an unactuated position and an actuated position and the pin is fixedly coupled to the handle bracket and is configured to retain the handle bracket, the pulley, and the handle spline together.

An airflow metering device for metering airflow to a heat exchanger of a vehicle includes a first movable airflow fabric member and a second airflow fabric member. In a first closed position, the first movable airflow fabric member and second airflow fabric members meet at a central area of the airflow. The first movable airflow fabric member and second airflow fabric member are actuatable for withdrawing away from each other for providing an opening from the close position outward. This provides a central opening for metering airflow to the heat exchanger such as a radiator or the like. A continuous loop drive system is used for actuating both first and second airflow fabric members simultaneously.

A rear view element folding device is disclosed for approaching at least one pivot position of an element housing relative to an element foot that can be mounted on the motor vehicle. The rear view element folding device locks or unlocks at least one resting position of the element housing relative to the element foot. A method for triggering such a rear view element folding device is also disclosed.