A trail sight for a vehicle, according to an exemplary aspect of the present disclosure includes, among other things, a body configured to extend in a longitudinal direction along a length of a vehicle, wherein the body comprises a first portion fixed to a vehicle body structure and a second portion that is moveable relative to the first portion between a retracted position and a deployed position.

A trail sight for a vehicle, according to an exemplary aspect of the present disclosure includes, among other things, a body configured to extend in a longitudinal direction along a length of a vehicle, wherein the body comprises a first portion fixed to a vehicle body structure and a second portion that is moveable relative to the first portion between a retracted position and a deployed position.

The present invention relates to a system that is mounted on a mounting structure or chassis intended to protect the vehicles and their occupants. The system uses a main computer, high-precision radars, external airbag impellers, airbags that protect the vehicle and to some extent help its buoyancy, fluid sensors to detect the water limit that the vehicle can reach, and if these sensors are activated send a signal to the main computer that is responsible for activating air bag impellers, an inclinometer to detect the limit of inclination established in the vehicle and if the inclinometer detects an inclination that exceeds the limit established, this sends a signal to the main computer that is responsible for activating all the air bag impeller devices; and a monitor with signal transmitters to visualize in the state in which the system is located.

A vehicle safety barrier, for mounting on a vehicle, comprises a deployable barrier arm, wherein the barrier arm is configured for movement between a first, stowed position, and a second, operational position and wherein, in the second position, the barrier arm is arranged to project a predetermined distance from the vehicle to indicate a safe passing distance for another road user.

A vehicle safety barrier, for mounting on a vehicle, comprises a deployable barrier arm, wherein the barrier arm is configured for movement between a first, stowed position, and a second, operational position and wherein, in the second position, the barrier arm is arranged to project a predetermined distance from the vehicle to indicate a safe passing distance for another road user.

A front hood assembly for a vehicle including a front grille may include a sensory assembly, a bumper assembly positioned adjacent to the front grille, and an energy absorber structure. The bumper assembly may include a bumper reinforcement having a front face and a top face, which front face is disposed below and extends away from the top face. The energy absorber structure may be positioned adjacent to the top face of the bumper reinforcement. The energy absorber structure may be rearwardly compliant in an impact direction and disposed below and rearwardly of the sensory assembly such that an impact of the sensory assembly with the energy absorber structure in the impact direction collapses the energy absorber structure rearwardly.

A front hood assembly for a vehicle including a front grille may include a sensory assembly, a bumper assembly positioned adjacent to the front grille, and an energy absorber structure. The bumper assembly may include a bumper reinforcement having a front face and a top face, which front face is disposed below and extends away from the top face. The energy absorber structure may be positioned adjacent to the top face of the bumper reinforcement. The energy absorber structure may be rearwardly compliant in an impact direction and disposed below and rearwardly of the sensory assembly such that an impact of the sensory assembly with the energy absorber structure in the impact direction collapses the energy absorber structure rearwardly.

A pedestrian airbag device includes an airbag and an inflator that supplies an inflating gas to the airbag. In the airbag, an insertion opening portion for inserting the inflator into the airbag is disposed on the vehicle body side wall portion side. The insertion opening portion includes an insertion slit for inserting the main body portion of the inflator, and an insertion hole for causing the mounting bolt of the inflator to protrude. A guide tether for guiding when the inflator is inserted is disposed inside the airbag so that one end side is joined to the pedestrian side wall portion side, and the other end side is joined to a region on a side from the insertion hole in a peripheral edge of the insertion slit on the vehicle body side wall portion side.

A drive assembly, in particular for driving a flap (5), includes a hinge assembly (2), comprising a first hinge part (3) connectable to a vehicle body and a second hinge part (4) connectable to a vehicle flap (5), a joint assembly (7) comprising at least a first joint part (8) hingedly connecting said first hinge part (3) with said second hinge part (4) and a first actuator (10) for driving the second hinge part (4) to move between an opened and a closed position during a normal operation. The first actuator (10) has a first end (10a) coupleable to a vehicle body pivotally about a first pivot axis (P1) and a second end (10b). The drive assembly also includes a bearing element connected (16) to the first actuator (10) and a coupling assembly (14) for coupling the first actuator (10) to the hinge assembly (2), comprising a first coupling part (15) having a first end (15a) and a second end (15b). The first end (15a) of the first coupling part (15) is coupled to one of the second hinge part (4) and first joint part (8) pivotally about a second pivot axis (P2). The bearing element (16) of the first actuator (10) is coupled to the second end (15b) of the first coupling part (15) pivotally about a third pivot axis (P3) spaced apart from the second pivot axis (P2). The drive assembly provides a possibility to move a vehicle flap drivingly between a closed and an opened position and further provides a reliable pedestrian protection function.

Systems and methods are presented herein for providing a reinforcement structure to reduce a Head Impact Criteria value associated with an object impacting a hood assembly that comprises the reinforcement structure. The reinforcement structure is arranged between an outer hood structure and an inner hood structure. The reinforcements structure comprises a main reinforcement and a reinforcement extension configured to extend laterally away from the main reinforcement. The reinforcement extension comprises a rib structure configured to accommodate an upper profile of a rigid front fascia feature and a rear flange configured to extend rearward over the rigid front fascia feature. The reinforcement extension is structured to be stiff enough to deform in a manner that reduces the amount of time an impacting structure reaches a peak acceleration value while also reducing the achievable peak acceleration value.