A structural small overlap rigid barrier (SORB) joining bracket for a vehicle having an underbody hold-down assembly, a cowl side assembly, and a body mount assembly configured to connect a vehicle body to a vehicle frame includes a cowl side coupling first portion configured to couple to the cowl side assembly, and an underbody coupling second portion configured to couple to the underbody hold-down assembly and the body mount assembly. The SORB joining bracket couples and maintains structural integrity between the underbody hold-down assembly and the cowl side assembly, and couples with the body mount assembly to increase vehicle load capacity by providing a direct load path into the frame of the vehicle. A frame extension tube assembly creates additional strength and stiffness via stack-up with the SORB joining bracket.

A structural small overlap rigid barrier (SORB) joining bracket for a vehicle having an underbody hold-down assembly, a cowl side assembly, and a body mount assembly configured to connect a vehicle body to a vehicle frame includes a cowl side coupling first portion configured to couple to the cowl side assembly, and an underbody coupling second portion configured to couple to the underbody hold-down assembly and the body mount assembly. The SORB joining bracket couples and maintains structural integrity between the underbody hold-down assembly and the cowl side assembly, and couples with the body mount assembly to increase vehicle load capacity by providing a direct load path into the frame of the vehicle. A frame extension tube assembly creates additional strength and stiffness via stack-up with the SORB joining bracket.

A structural panel joining part for a vehicle having an underbody hold-down panel, a floor panel, a dash panel, and a cowl side panel includes an underbody coupling first portion configured to couple to at least one of the underbody hold-down panel and the floor panel, a dash panel coupling second portion configured to couple to the dash panel, and a cowl side coupling third portion configured to couple to the cowl side panel. The structural panel joining part maintains structural integrity between the underbody hold-down panel, the floor panel, the dash panel, and the cowl side panel to provide structural reinforcement during small overlap rigid barrier impacts to facilitate reducing structural intrusion into an occupant compartment of the vehicle.

A frame for a vehicle includes a first housing and a second housing. The first housing and the second housing each define an interior space. The first housing and the second housing each comprises a first side portion and an opposing second side portion. The first housing and the second housing each include a first pair of triangular members coupled to the first side portion and a second pair of triangular members coupled to the second side portion. The first and second pairs of triangular members each support a wheel. A support assembly couples the first housing and the second housing. The support assembly includes an external lattice structure and an internal lattice structure. The external lattice structure is coupled to the first housing and the second housing. The internal lattice structure is coupled to the external lattice structure, the first housing, and the second housing.

An electric or hybrid sport car comprising a vehicular frame and a floor formed by a fixed portion with the vehicular frame and a removable base and wherein a bottom part of the base consists of a so-called platform, which consists of a plate made of metal or high-resistance composite material, exposed to the outside so as to operatively face the ground on which the car rests. A rear part of the platform diverges from the ground proceeding towards a rear part of the car, and wherein said rear part of the platform supports a support frame of a rear battery pack, and wherein said support frame comprises a plurality of support layers for as many battery layers, which include columns operatively vertical and structures parallel to the rear portion of the platform.

An electric or hybrid sport car comprising a vehicular frame and a floor formed by a fixed portion with the vehicular frame and a removable base and wherein a bottom part of the base consists of a so-called platform, which consists of a plate made of metal or high-resistance composite material, exposed to the outside so as to operatively face the ground on which the car rests. A rear part of the platform diverges from the ground proceeding towards a rear part of the car, and wherein said rear part of the platform supports a support frame of a rear battery pack, and wherein said support frame comprises a plurality of support layers for as many battery layers, which include columns operatively vertical and structures parallel to the rear portion of the platform.

A vehicle includes a vehicle frame. The vehicle includes a subframe connected to the vehicle frame. The vehicle includes a tray supported by the vehicle frame. The vehicle includes a V-shaped member having an end at the tray and a pair of legs extending from the end in a vehicle-forward direction to the subframe.

A vehicle includes a vehicle frame. The vehicle includes a subframe connected to the vehicle frame. The vehicle includes a tray supported by the vehicle frame. The vehicle includes a V-shaped member having an end at the tray and a pair of legs extending from the end in a vehicle-forward direction to the subframe.

In the front part of the front sub-frame (5), provided are a sub-crash can attachment part (12) and a tension rod supporting part (14); a front vehicle body attachment part (13) is provided between the two parts; the sus-cross member (73) is provided in the front vehicle body attachment part (13) and the tension rod supporting part (14); the front-side vehicle body attaching portion (13) includes a sub crash can load transmitting member (30); and the upper face portion (21) of the front vehicle body attachment part (13) and the partition wall (33) of the sub-crash can load transferring member (30) are spaced apart in the vertical direction and extend in the longitudinal direction of the vehicle.

In the front part of the front sub-frame (5), provided are a sub-crash can attachment part (12) and a tension rod supporting part (14); a front vehicle body attachment part (13) is provided between the two parts; the sus-cross member (73) is provided in the front vehicle body attachment part (13) and the tension rod supporting part (14); the front-side vehicle body attaching portion (13) includes a sub crash can load transmitting member (30); and the upper face portion (21) of the front vehicle body attachment part (13) and the partition wall (33) of the sub-crash can load transferring member (30) are spaced apart in the vertical direction and extend in the longitudinal direction of the vehicle.