Instrument panel side parts are provided integrally with an instrument panel main body part. Vehicle-mounted components are housed in the instrument panel side parts. Thus, even in a vehicle in which an engine compartment is not provided on a vehicle front side in a vehicle cabin it is possible to ensure a housing space for these vehicle mounting parts. Further, the instrument panel side parts are provided integrally with the instrument panel main body part. Thus, compared to a case in which the instrument panel side parts are separated from the instrument panel main body part, a space around the driver's seat can be expanded by the reduced amount of dead space, and the comfortability of the driver can be ensured.

A structural component for a motor vehicle is configured to extend transversely to a direction of travel for the motor vehicle and is configured to separate a passenger compartment and a front compartment of the motor vehicle. The structural component includes: a dashboard; two A-pillars arranged in each case laterally with respect to the dashboard; and a transverse reinforcement running along an upper side of the dashboard. The structural component is one-part or a one-piece light-metal die casting.

A structural component for a motor vehicle is configured to extend transversely to a direction of travel for the motor vehicle and is configured to separate a passenger compartment and a front compartment of the motor vehicle. The structural component includes: a dashboard; two A-pillars arranged in each case laterally with respect to the dashboard; and a transverse reinforcement running along an upper side of the dashboard. The structural component is one-part or a one-piece light-metal die casting.

A vehicle air conditioner for supplementing and regulating the air volume discharged to front seats and rear seats through a door component that controls a passage, and enabling the length of a package in the direction of a heater core to be reduced. The vehicle air conditioner has an air passage comprising: a front seat air passage through which cold air or hot air is discharged toward the front seats of a vehicle; and a rear seat air passage through which cold air or hot air is discharged toward the rear seats of the vehicle, wherein the front seat air passage comprises a front seat cooling passage and a front seat heating passage, and the rear seat path comprises a rear seat cooling passage and a rear seat heating passage, and includes: a first mixing part in which the cold air of the front seat cooling passage and the hot air of the front seat heating passage are mixed; and a second mixing part in which the cold air of the rear seat cooling path and the hot air of the rear seat heating path are mixed.

A gutter member has a flow path portion that receives the water dripping from a front windshield and flows the received water in the vehicle width direction and a drain portion that drains the water to a drain member on the inner side in the vehicle width direction of the flow path portion, in which at least a part of the flow path portion overlaps with the drain path in vehicle plan view, the gutter member has guide portions that guide the water dripping from the drain portion to the drain path, and the guide portions, include a cushioning material that absorbs an impact load at least in the vertical direction.

An electric vehicle structure may include a floor panel; a center tunnel disposed at a center of the floor panel in a vehicle width direction, extending along a vehicle front-rear direction, and projecting upward from the floor panel; a dash panel disposed at front ends of the floor panel and the center tunnel; and a front reinforcement attached to an inner surface of a peripheral wall of the center tunnel and extending rearward from the dash panel through the center tunnel.

An electric vehicle structure may include a floor panel; a center tunnel disposed at a center of the floor panel in a vehicle width direction, extending along a vehicle front-rear direction, and projecting upward from the floor panel; a dash panel disposed at front ends of the floor panel and the center tunnel; and a front reinforcement attached to an inner surface of a peripheral wall of the center tunnel and extending rearward from the dash panel through the center tunnel.

A front vehicle-body structure which reduces third-order vibration of a windshield, and improves NVH performance in a vehicle cabin. A front windshield fixed to an edge portion of an opening formed in a vehicle body, a pair of left and right front suspension housings, a cowl forming a lower edge of the opening for the front windshield, and a tower bar coupling each of the left and right front suspension housings with a region around a vehicle-width-direction center portion of the cowl are provided. Node members, each of which locally improves bending rigidity of the cowl, are disposed in two positions in the cowl that divide a bonding surface to a windshield lower edge into generally three equal parts in the vehicle width direction, and the tower bar is fixed between respective positions of the two node members in the cowl.

A front vehicle-body structure which reduces third-order vibration of a windshield, and improves NVH performance in a vehicle cabin. A front windshield fixed to an edge portion of an opening formed in a vehicle body, a pair of left and right front suspension housings, a cowl forming a lower edge of the opening for the front windshield, and a tower bar coupling each of the left and right front suspension housings with a region around a vehicle-width-direction center portion of the cowl are provided. Node members, each of which locally improves bending rigidity of the cowl, are disposed in two positions in the cowl that divide a bonding surface to a windshield lower edge into generally three equal parts in the vehicle width direction, and the tower bar is fixed between respective positions of the two node members in the cowl.

An embodiment vehicle impact energy absorption system includes a dash panel, a pair of front side members extending toward a front of the dash panel, a front subframe disposed below the pair of front side members, and an electric motor mounted on the front subframe, wherein a front edge of the electric motor is pivotally connected to the front subframe, and a rear edge of the electric motor is pivotally connected to the dash panel.