A one-motor electric sunshade and sunroof structure may include glass sleds configured to open and close a sunroof glass by sliding in a front and rear direction along mechanism rails disposed at both sides of a roof panel for a vehicle, each having both ends to which a front sled and a rear sled are rotatably coupled, respectively, main cable devices which are connected with a drive motor by a cable, and movable along the mechanism rails, each having a cable protrusion that protrudes to be slidably accommodated in glass grooves formed in side surfaces of the front sled, the rear sled, and the glass sled, and sunshade sleds selectively coupled to the main cable devices and configured to open and close the sunshade by sliding, each having a first side at which a sunshade lever, which is selectively restricted with a corresponding mechanism rail, is mounted.

A vehicle body front portion structure includes a front pillar, a dash portion and a load transmission portion. The dash portion includes a dash panel. The load transmission portion includes a dash side structure portion that is fixed to a surface facing he vehicle rear side of a vehicle width direction outer side region of the dash portion, a pillar side structure portion that is fixed to a surface facing the vehicle width direction outer side of the pillar inner panel, and an intermediate structure portion that is connected to at least one of the dash side structure portion or the pillar side structure portion. The intermediate structure portion penetrates a hole portion and is set at a location at which a load that acts on the dash side structure portion when there is a frontal collision is transmitted to the pillar side structure portion.

A vehicle occupant safety system involves multiple sensors within a vehicle, a monitor aggregator, a processor, a vehicle electronic control system, and a decision engine which will compare sensor data against a set of sensor parameters to determine whether any of multiple potential danger conditions exists within the vehicle, and determine which of multiple control actions are to be automatically taken and modify operation of at least one vehicle component. If a further determination is made that either the specified danger condition is persisting or has exceeded at least one specified severity threshold, the decision engine will determine whether to further modify operation of any vehicle component or take a specified escalation action. The decision engine will continue to make determinations regarding the specified danger condition and decide whether to take further control actions until the specified danger condition no longer exists.

A vehicle occupant safety system involves multiple sensors within a vehicle, a monitor aggregator, a processor, a vehicle electronic control system, and a decision engine which will compare sensor data against a set of sensor parameters to determine whether any of multiple potential danger conditions exists within the vehicle, and determine which of multiple control actions are to be automatically taken and modify operation of at least one vehicle component. If a further determination is made that either the specified danger condition is persisting or has exceeded at least one specified severity threshold, the decision engine will determine whether to further modify operation of any vehicle component or take a specified escalation action. The decision engine will continue to make determinations regarding the specified danger condition and decide whether to take further control actions until the specified danger condition no longer exists.

A holding device for electrical components of a motor vehicle, preferably an electrical motor vehicle, includes a holding element that is designed to hold one or more electrical components of the vehicle. The holding element has a holding section for holding the one or more electrical components, and a strut section, which extends from the holding section. The holding element is designed such that when the holding element is attached to the motor vehicle as intended, the strut section extends in the vehicle front direction and vehicle transverse direction to a vehicle front section and is at a predefined angle to an axis oriented in the vehicle front direction.

A body of a vehicle may include: a floor panel including a panel consisting of a single plate; a pair of rockers extending along both of side edges of the floor panel, respectively; an indoor floor crossmember protruding upward from the floor panel and connecting the rockers to each other; an outdoor floor crossmember protruding downward from the floor panel, connecting the rockers to each other, and located rearward of the indoor floor crossmember; and a unit component located below the floor panel. The unit component may extend from a position located frontward of the indoor floor crossmember to a position that is located rearward of the indoor floor crossmember and frontward of the outdoor floor crossmember. A portion of the floor panel that is within a range surrounded by the pair of rockers, the indoor crossmember, and the outdoor crossmember may consist of the panel.

A vehicle front structure includes: a front side member disposed on a front of a vehicle; a bumper beam mounting bracket joined to a front end surface of the front side member; a subframe mounting bracket joined to a rear surface of the bumper beam mounting bracket, and having a seating surface to which a front end of a front subframe is joined; a heat exchanger support joined to the bumper beam mounting bracket; and a first reinforcing member joining the bumper beam mounting bracket and the heat exchanger support.

A front header structure of a vehicle body has an elongated shape in a lateral direction of the vehicle body and is attached to side structures of the vehicle body. In a longitudinal direction, the front header structure is arranged between a front section of a sunroof opening and an upper section of a windshield opening. The front header structure includes an upper part attached to an lower part and a rear part, where the rear part forms a front frame section of a sunroof frame encompassing the sunroof opening. The lower, upper and rear parts each have a rear lower section, a front upper section and an intermediate step section arranged between the rear lower section and the front upper section. The front header structure includes a first compartment formed between the lower and upper parts and a second compartment formed between the upper and rear parts.

A front header structure of a vehicle body has an elongated shape in a lateral direction of the vehicle body and is attached to side structures of the vehicle body. In a longitudinal direction, the front header structure is arranged between a front section of a sunroof opening and an upper section of a windshield opening. The front header structure includes an upper part attached to an lower part and a rear part, where the rear part forms a front frame section of a sunroof frame encompassing the sunroof opening. The lower, upper and rear parts each have a rear lower section, a front upper section and an intermediate step section arranged between the rear lower section and the front upper section. The front header structure includes a first compartment formed between the lower and upper parts and a second compartment formed between the upper and rear parts.

The invention relates to a crash box (3) comprising two generally U-shaped members (11, 12) having legs (11a, 12a) and provided at respective leg with at least two adjacent trigger means (13) and an intermediate portion (14) formed between said trigger means (13). The U-shaped members (11, 12) is welded together at areas along a trim edge (15) except for the trim edge (15) formed between respective legs of respective trigger means (13) so as to form a crash box (3) having aligned trigger means (13) and intermediate portion (14). The trigger means (13) are arranged normal to crash box (3), and the intermediate portion (14) of respective leg (11a, 12a) is welded together at the trim edge (15) thereof by a weld bead (20) having a length (L) which is longer that the shortest length (1) between two adjacent trigger means (13). The invention also relates to a method for producing such a crash box.