A bumper reinforcement includes a bumper reinforcement body, a first extension portion, a second extension portion, and a weakened portion. The bumper reinforcement body is molded from a synthetic resin material, a length of the bumper reinforcement body extends in a vehicle width direction. The first extension portion is integrally molded with the bumper reinforcement body so as to extend from the bumper reinforcement body toward a vehicle rear side and oppose a vehicle structural member extending in the vehicle width direction from a vehicle front side. The first extension portion is provided within a range spanning from a vehicle width direction side end portion to a position at 40% of an overall vehicle width direction length of a vehicle front end section away from the vehicle width direction side end portion. The second extension portion is integrally molded with the bumper reinforcement body.

A vehicle component is configured to be arranged in a path of an electromagnetic wave transmitted and received by a radar device. The vehicle component includes a dielectric layer including a dielectric, a metal layer made of metal, and a heater wire. The metal layer includes an electromagnetic wave passage portion through which the electromagnetic wave passes and an electromagnetic wave reflection portion that reflects the electromagnetic wave. The heater wire is located on the electromagnetic wave passage portion of the metal layer. The heater wire generates heat when energized.

A vehicle component is configured to be arranged in a path of an electromagnetic wave transmitted and received by a radar device. The vehicle component includes a dielectric layer including a dielectric, a metal layer made of metal, and a heater wire. The metal layer includes an electromagnetic wave passage portion through which the electromagnetic wave passes and an electromagnetic wave reflection portion that reflects the electromagnetic wave. The heater wire is located on the electromagnetic wave passage portion of the metal layer. The heater wire generates heat when energized.

To suppress deformation of a vehicle cabin by efficiently absorbing an impact load obliquely from a vehicle front side, a vehicle-body front structure includes an upper-side cross member, a lower-side cross member, upper-side impact absorption members that support respective ones of both vehicle-width-direction sides of the upper-side cross member, and lower-side impact absorption members that support respective ones of both vehicle-width-direction sides of the lower-side cross member. The upper-side impact absorption members and the lower-side impact absorption members are each positioned farther on a vehicle-width-direction outer side at a position farther on a vehicle front side.

A vehicle includes an outside-air intake and an air inflow adjustment mechanism. The outside-air intake is configured to take outside air into an internal chamber of the vehicle. The air inflow adjustment mechanism is configured to adjust a flow rate of air that is to flow into the outside-air intake. The air inflow adjustment mechanism is disposed at the outside-air intake and includes one or both of a positive pressure source configured to perform discharge of gas and a negative pressure source configured to perform suction of gas.

A vehicle includes an outside-air intake and an air inflow adjustment mechanism. The outside-air intake is configured to take outside air into an internal chamber of the vehicle. The air inflow adjustment mechanism is configured to adjust a flow rate of air that is to flow into the outside-air intake. The air inflow adjustment mechanism is disposed at the outside-air intake and includes one or both of a positive pressure source configured to perform discharge of gas and a negative pressure source configured to perform suction of gas.

A motor vehicle includes a radiator grille and a lighting apparatus with a number of light sources. During operation, the lighting apparatus emits light, which originates from the number of light sources, from the radiator grille into the surrounds of the motor vehicle. The lighting apparatus includes a number of flexible fiber bundles. Each fiber contains one or more fibers and has a homogeneous outer surface for generating homogeneous light radiation in a circumferential direction of the fiber bundle. Further, each fiber bundle is arranged at least in sections on the radiator grille and coupled to at least one light source at at least one light one fiber bundle end, the light source feeding into the at least one fiber bundle end during operation.

A motor vehicle includes a radiator grille and a lighting apparatus with a number of light sources. During operation, the lighting apparatus emits light, which originates from the number of light sources, from the radiator grille into the surrounds of the motor vehicle. The lighting apparatus includes a number of flexible fiber bundles. Each fiber contains one or more fibers and has a homogeneous outer surface for generating homogeneous light radiation in a circumferential direction of the fiber bundle. Further, each fiber bundle is arranged at least in sections on the radiator grille and coupled to at least one light source at at least one light one fiber bundle end, the light source feeding into the at least one fiber bundle end during operation.

An active air flap of a vehicle according to one embodiment of the present invention includes a frame part which communicates with an outside air inlet of a grill, a flap part including a plurality of flap units which are rotatably connected to the frame part and sequentially open or close the outside air inlet of the grill, a rotary shaft which connects the plurality of flap units to the frame part, and a driven pinion gear connected to the rotary shaft, a driving part which transmits a driving force to the flap part, and a control unit which controls the driving part to be driven.

An active air flap of a vehicle according to one embodiment of the present invention includes a frame part which communicates with an outside air inlet of a grill, a flap part including a plurality of flap units which are rotatably connected to the frame part and sequentially open or close the outside air inlet of the grill, a rotary shaft which connects the plurality of flap units to the frame part, and a driven pinion gear connected to the rotary shaft, a driving part which transmits a driving force to the flap part, and a control unit which controls the driving part to be driven.