Provided is a bumper capable of improving a maneuvering stability of a vehicle. The bumper is a front bumper 7 to be attached to a front lower portion of a vehicle 1. Flow-straightening protrusions 31 each formed along a vehicular front-rear direction are provided on a lower portion of the front bumper 7 in a way such that they are aligned along a vehicular width direction across a region on an extended line 36 of a vehicular width direction inner end portion 2T of each of front wheels 2L, 2R of the vehicle 1. Thus, the occurrence of turbulent flows around the front wheels 2L, 2R can be restricted so that a vehicle stability can be improved.

An air deflection device of a motor vehicle includes an air deflection element and a displacement kinematic system. The air deflection element is displaceable by the displacement kinematic system from an extended deflection position, in which the air deflection element with a deflection surface in a front region of the air deflection element in a longitudinal direction of the motor vehicle diverts an airflow hitting the air deflection element in an underbody region in a forward direction of travel of the motor vehicle, into a retracted position. The air deflection element is displaceable by the displacement kinematic system rearwards in the longitudinal direction of the motor vehicle and upwards in a vertical direction of the motor vehicle and is pushable back in a direction of the retracted position in an event of an obstacle-related force component acting on the air deflection element in the longitudinal direction of the motor vehicle.

A composite liftgate system with an inner panel construction having a strengthening channel structure. Structural composite reinforcements are bonded to the inner panel where additional strength is needed to meet predetermined performance requirements. Where the extra structure is needed, no steel or a minimum amounts of steel is used and the structural reinforcements are bonded in place using adhesive prior to application of additional fasteners.

A shield may be provided between a rear bumper and a silencer, the shield may be provided so as to extend in the vehicle width direction to overlap with at least a rear vertical wall of the silencer in the up-down direction in vehicle rear view, and the shield may be provided with a guider that guides underfloor traveling air downward, the underfloor traveling air flowing to the rear side through a lower portion of the silencer.

A speed sensitive type active hidden air curtain of a vehicle includes: hole opening or closing devices configured to cover or open an air hole of a bumper facing traveling wind with any one of a bumper interlocking device, a lamp interlocking device, and a hole color change device to guide air to a space formed between a bumper and a wheel; a power connection member interlocked with a deflector guiding the traveling wind under the bumper to move the hole opening or closing devices; and a supporter maintaining tension of the power connection member. The speed type active hidden air curtain thereby implements a clean and differentiated design image of the bumper and improves appearance quality thereof by covering the air hole exposed to the outside.

A vehicular aerodynamic device includes first and second links being coupled via first and second engagement members and integrally rotating, thereby transmitting drive force to an aerodynamic member. The first and second engagement members are coupled to the first and second links, respectively, and integrally rotate by engaging with each other, and rotate relative to each other by external force. At least one of a first coupling portion that couples the first link and the first engagement member and a second coupling portion that couples the second link and the second engagement member includes clutch-side and link-side engagement surfaces integrally rotating by engaging with each other. A second gap between the clutch-side and link-side engagement surfaces in a second relative rotation direction is narrower than a first gap between the clutch-side and link-side engagement surfaces in a first relative rotation direction.

A vehicle includes an aerodynamic device. The aerodynamic device includes: an air dam movable between a deployed position and a retracted position, an actuator operatively coupled to the air dam, the actuator configured to move the air dam between the deployed position and the retracted position, and a controller communicatively coupled to the actuator. The controller is configured to operate the actuator to move the air dam into the deployed position when the controller receives a service request signal.

A vehicle is provided that has a vehicle body, a wheel assembly, a suspension linkage, and a cover panel. The vehicle body has an underside and defines a wheel arch that forms an opening in the underside of the vehicle body. The suspension linkage runs within the wheel arch and couples the wheel assembly to the vehicle body to permit motion of the rotation axis of the wheel assembly relative to the vehicle body. The suspension linkage further comprises a first suspension link coupled between the vehicle body and the wheel assembly, whereby the cover panel is coupled to the first suspension link so that the cover panel moves with the first suspension link. The cover panel further extends across part of the opening so that in forward motion the cover panel directs a rearward moving airflow across the opening.

An air dam assembly includes, among other things, an air dam and at least one quick-release pin that secures the air dam to a vehicle structure. An air dam positioning method includes, among other things, when an air dam is in a first position, the step of coupling the air dam to a vehicle structure using at least one quick-release pin in an engaged position. The method further includes transitioning the at least one quick-release pin to a disengaged position, and then, when the quick-release pin is in the disengaged position, moving the air dam to a second position that is different than the first position. The method then, when the air dam is in the second position, includes coupling the air dam to the vehicle structure using the at least one quick-release pin.

Adjustment device for adjusting an air influencing element of a motor vehicle between at least a first position and a second position, comprising a driving unit for adjusting the air influencing element between at least the first position and the second position, provided with an input shaft and an output shaft which is at a distance from the axis of the input shaft, wherein the driving unit has a first part which is provided around the input shaft of the driving unit, and has a second part which is provided around the output shaft of the driving unit, wherein the adjustment device is furthermore provided with a failsafe mechanism, wherein the failsafe mechanism engages the first part of the driving unit.