An adjustable rear bumper spoiler system for a vehicle controls air turbulence by driving the air spoiler device so that the vehicle can be pressed downwards during high-speed driving. The adjustable rear bumper spoiler system also controls air turbulence by driving flap devices so that the vehicle body is pressed downwards with respect to the turning direction during turning. This consequently improves the driving performance and driving reliability of the vehicle.

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 vehicle lower structure includes: an introducing port into which air is introduced, the introducing port being provided to a front part of a vehicle; an air outlet from which the air blows, the air outlet being provided to an underfloor downward of a bumper cover in a vehicle-vertical direction, the bumper cover being located at the front part of the vehicle; and a spat provided frontward in a vehicle-longitudinal direction of a front wheel, the spat including: a front wall protruding from a front edge of the air outlet in the vehicle-longitudinal direction toward a vehicle-downward direction in the vehicle-vertical direction; and a rear wall protruding from a rear edge of air outlet in the vehicle-longitudinal direction toward the vehicle-downward direction, and the spat opening at both sides of the air outlet in a vehicle-width direction.

A mounting structure for a vicinity information detection sensor, comprising: an apron upper member arranged along a vehicle front-and-rear direction at a vehicle width direction outer side of a vehicle front portion; and a vicinity information detection sensor equipped with a detection unit that detects vicinity information of the vehicle, the vicinity information detection sensor being mounted to the apron upper member, directly or via a bracket, such that the detection unit is oriented to the vehicle outer side.

A baffle assembly includes a body, and a vehicle includes a bumper beam and the baffle assembly. The body includes an edge facing outwardly away from the body. A region of the edge includes a plurality of supports spaced from each other. The baffle assembly further includes a seal member secured to the edge of the body. The seal member includes a plurality of protrusions spaced from each other and interleaved with the plurality of supports such that the protrusions and the supports cooperate with each other in an alternating pattern which creates an area configured to absorb energy when a force is applied in the region.

A shutter mechanism is adapted to be provided to a grill opening in a vehicle body. Opening and closing operations of the shutter mechanism are controlled by an electronic control unit (ECU). The ECU determines whether a vehicle is in a traveling end state. If the vehicle is in the traveling end state, the ECU determines whether or not the shutter mechanism is in an open state. If the ECU determines that the open state of the shutter mechanism cannot be confirmed, the ECU controls the shutter mechanism to open the shutter mechanism.

A motor vehicle includes a motor vehicle front end with at least one cooling-air opening. The cooling-air opening is formed with an encircling edge which, at least at the two lateral side regions, has a projecting edge region. In the cooling-air opening, there is arranged at least one cooling-air slat which extends through the cooling-air opening and divides the cooling-air opening into at least two separate partial openings.

A connecting structure for connecting an actuator to an opening flap for opening and closing an exterior trim component of a motor vehicle is disclosed, wherein the connecting structure has at least one carrier arrangement, which can be connected to the opening flap, and at least one connecting section arranged on the carrier arrangement, with which the opening flap can be connected to the actuator for moving the opening flap. The invention also relates to an exterior trim component with such a connecting structure and to a motor vehicle with such an exterior trim component.

An automotive vehicle includes a body having fore and aft portions. The vehicle includes a bumper beam coupled to the vehicle body proximate the fore portion and a heat exchanger disposed aft of the bumper beam. A fascia assembly is coupled to the vehicle body and extends about the bumper beam. The fascia assembly includes a fascia inlet configured to direct an airflow from the exterior of the fascia assembly to the interior of the fascia assembly. An energy absorption member is disposed between the fascia and the bumper beam. An air passage extends through at least one of the bumper beam and the energy absorption member. The air passage extends from an air passage inlet to an air passage outlet. The air passage inlet is positioned downstream of the fascia inlet with respect to the airflow, and the air passage outlet being positioned upstream of the heat exchanger.

A structural component made of a plastics material for a skin of a body of a motor vehicle has a separating line that separates the structural component into an inner region and an outer region. The inner region has three-dimensional regions having reduced material thickness for defined pivotability with a reduced force requirement. The design means that a significantly lower force requirement is needed for opening or closing the inner region.