A protective panel for a vehicle substantially conforming to a portion of a vehicle. The protective panel having an upper surface and a lower surface opposite the upper surface, the lower surface having a reduced surface area in order to limit force applied to the protective panel and the vehicle. The panel further having an edge portion disposed along a perimeter, between the upper and lower surface, for deflecting obstacles, and one or more mounting points for removably attaching the protection panel to a portion of the exterior of a vehicle.

A protective panel for a vehicle substantially conforming to a portion of a vehicle. The protective panel having an upper surface and a lower surface opposite the upper surface, the lower surface having a reduced surface area in order to limit force applied to the protective panel and the vehicle. The panel further having an edge portion disposed along a perimeter, between the upper and lower surface, for deflecting obstacles, and one or more mounting points for removably attaching the protection panel to a portion of the exterior of a vehicle.

A vehicle comprises: a vehicle body having a front and a rear; a vehicle chassis supporting the vehicle body, the vehicle chassis including a chassis portion; a component attached to the front of the vehicle body; and a member comprising (i) an elongate portion having teeth, and (ii) an attachment portion attaching the member to one of the chassis portion or the component, wherein the member is configured for ratcheting of the teeth against an edge of the other of the chassis portion or the component due to relative movement between the component and the chassis portion.

A sensing device for actuating an airbag system in a motor vehicle comprises an airbag having a stowed condition and an inflated condition, an inflator operationally coupled with the airbag responsive to electrical actuation for inflating the airbag with a gas, an impact detection sensor for generating a signal upon an offset impact event, and a controller for processing the signal generated by the sensor and electrically actuating the inflator upon computing a predetermined impact severity to a forward corner of the motor vehicle. The motor vehicle further comprises a front bumper beam attached proximate a distal end of a front rail and the sensor comprises a flexible electro-resistive sensor mounted to a rear side of an outboard portion of the front bumper beam.

A sensing device for actuating an airbag system in a motor vehicle comprises an airbag having a stowed condition and an inflated condition, an inflator operationally coupled with the airbag responsive to electrical actuation for inflating the airbag with a gas, an impact detection sensor for generating a signal upon an offset impact event, and a controller for processing the signal generated by the sensor and electrically actuating the inflator upon computing a predetermined impact severity to a forward corner of the motor vehicle. The motor vehicle further comprises a front bumper beam attached proximate a distal end of a front rail and the sensor comprises a flexible electro-resistive sensor mounted to a rear side of an outboard portion of the front bumper beam.

A vehicle comprises: a vehicle body having a front and a rear; a vehicle chassis supporting the vehicle body, the vehicle chassis including a chassis portion; a component attached to the front of the vehicle body; and a member comprising (i) an elongate portion having teeth, and (ii) an attachment portion attaching the member to one of the chassis portion or the component, wherein the member is configured for ratcheting of the teeth against an edge of the other of the chassis portion or the component due to relative movement between the component and the chassis portion.

Vehicle periphery device implemented in a form whose external outline of its projection onto the horizontal plane of the bearing surface has the form of a circle, with this periphery capable of passing between possible points of contact of this periphery located at a distance equal to the diameter of this circle. Technical result: prevention of periphery jamming; ensuring ideal Internet compatibility, optimality for any positioning, optimality for any digital technology; saved space; increased density of the traffic; implementation of the purpose. It should help fundamentally more quickly and efficiently: implement fully automatic control of individual vehicles, combine their operation into a fully automated transport system in which modified vehicles can completely replace motor cars and, where possible, other modes of transport.

A hose plow attachment is provided. The device includes a frame removably securable to a vehicle bumper via a mounting bracket, wherein the frame includes an upper cross bar and a lower cross bar. In some embodiments, a platform is disposed between a lower surface of the upper cross bar and an upper surface of the lower cross bar, wherein an exterior surface of the platform comprises a material having a coefficient of friction less than one. In other embodiments, a plurality of rollers is rotatably affixed to a lower surface of the upper cross bar and an upper surface of the lower cross bar, wherein each roller of the plurality of rollers rotates about a longitudinal axis of the plurality of rollers.

A vehicle body structure deflector system for small overlap frontal impact includes a first shock tower and a second shock tower. A cross member is positioned between each of the first shock tower and the second shock tower. A first deflector is connected to the first shock tower and a second deflector is connected to the second shock tower. If one of the first deflector or the second deflector is contacted by a barrier during forward travel of the vehicle a portion of an energy of impact with the barrier is transferred through one of the first shock tower or the second shock tower, through the cross member and into the other shock tower. The portion of the energy of impact with the barrier generates a vehicle lateral displacement to dissipate the portion of the energy of impact.

A vehicle body structure deflector system for small overlap frontal impact includes a first shock tower and a second shock tower. A cross member is positioned between each of the first shock tower and the second shock tower. A first deflector is connected to the first shock tower and a second deflector is connected to the second shock tower. If one of the first deflector or the second deflector is contacted by a barrier during forward travel of the vehicle a portion of an energy of impact with the barrier is transferred through one of the first shock tower or the second shock tower, through the cross member and into the other shock tower. The portion of the energy of impact with the barrier generates a vehicle lateral displacement to dissipate the portion of the energy of impact.