An embodiment vehicle body includes a rear cross member unit disposed in a vehicle width direction and coupled to front portions of a pair of rear side members disposed at a rear portion of the vehicle body, a pair of side seal units respectively coupled to end portions of the rear cross member unit in a vehicle length direction, a front cross member unit coupled to front portions of the pair of side seal units in the vehicle width direction, an upper cross member unit coupled to upper portions of the pair of side seal units in the vehicle width direction, and a rear floor panel assembly connected to the rear cross member unit, the pair of side seal units, the front cross member unit, and the upper cross member unit.

An electrified vehicle axle includes a first wheel assembly having a first electric machine configured to power a first wheel and a second wheel assembly having a second electric machine configured to power a second wheel. A beam has a first end connected to the first wheel assembly and second end connected to the second wheel assembly. An axle shaft is supported for rotation within a hollow center of the beam and is configured to transfer torque between the first and second electric machines. At least one clutch selectively couples at least one of the electric machines to the axle shaft.

An electrified vehicle axle includes a first wheel assembly having a first electric machine configured to power a first wheel and a second wheel assembly having a second electric machine configured to power a second wheel. A beam has a first end connected to the first wheel assembly and second end connected to the second wheel assembly. An axle shaft is supported for rotation within a hollow center of the beam and is configured to transfer torque between the first and second electric machines. At least one clutch selectively couples at least one of the electric machines to the axle shaft.

A battery pack support assembly includes a plurality of isolators disposed between an outer support frame of a battery pack and longitudinal rails of a vehicle frame. Each isolator includes a housing, an elastic body and a fastener. The housing defines a central opening and opposed flanges. The opposed flanges are secured to a respective longitudinal rail. The elastic body is disposed within the central opening of the housing. The fastener extends laterally through the central opening of the housing and secures the elastic body to the outer support frame of the battery pack.

A battery pack support assembly includes a plurality of isolators disposed between an outer support frame of a battery pack and longitudinal rails of a vehicle frame. Each isolator includes a housing, an elastic body and a fastener. The housing defines a central opening and opposed flanges. The opposed flanges are secured to a respective longitudinal rail. The elastic body is disposed within the central opening of the housing. The fastener extends laterally through the central opening of the housing and secures the elastic body to the outer support frame of the battery pack.

A floor structure of a rear vehicle body, in which at least one component including a high-voltage battery is mounted in a rear portion of a vehicle body, includes: a first cross member coupled to each front portion of first and second rear side members in a vehicle width direction; and a second cross member coupled to the first and second rear side members at a rear of the corresponding first cross member in the vehicle width direction, wherein a space in which the at least one component is mounted is formed between the first cross member and the second cross member.

A floor structure of a rear vehicle body, in which at least one component including a high-voltage battery is mounted in a rear portion of a vehicle body, includes: a first cross member coupled to each front portion of first and second rear side members in a vehicle width direction; and a second cross member coupled to the first and second rear side members at a rear of the corresponding first cross member in the vehicle width direction, wherein a space in which the at least one component is mounted is formed between the first cross member and the second cross member.

A battery tray and a vehicle include a frame structure including a plurality of frames sequentially connected end to end arranged to be connected to the vehicle, and a base plate structure including an inner base plate and a reinforcing beam, wherein the inner base plate is located on an inner side of the reinforcing beam and arranged for mounting a battery module. The battery tray further includes a reinforcing block, wherein the reinforcing block is connected to a corresponding frame and the reinforcing beam in a matching mode, so as to fixedly connect the reinforcing beam to the frame structure through the reinforcing block. In the battery tray, the strength of the battery tray can be enhanced and a total weight can be decreased only by using the reinforcing block to fixedly connect the reinforcing beam to the frame structure.

A battery tray and a vehicle include a frame structure including a plurality of frames sequentially connected end to end arranged to be connected to the vehicle, and a base plate structure including an inner base plate and a reinforcing beam, wherein the inner base plate is located on an inner side of the reinforcing beam and arranged for mounting a battery module. The battery tray further includes a reinforcing block, wherein the reinforcing block is connected to a corresponding frame and the reinforcing beam in a matching mode, so as to fixedly connect the reinforcing beam to the frame structure through the reinforcing block. In the battery tray, the strength of the battery tray can be enhanced and a total weight can be decreased only by using the reinforcing block to fixedly connect the reinforcing beam to the frame structure.

This disclosure details systems and methods for supporting and protecting vehicle underbody-mounted battery packs. An exemplary electrified vehicle may include a frame, a battery support structure mounted to the frame, and a battery pack. The battery pack is supported relative to the frame by the battery support structure but is not itself directly coupled to the frame. The battery support structure may be configured to provide an under-frame mounting configuration, cross member positioning, skid plate positioning for battery pack protection, weight optimized sub-components, unique shapes for ground clearances, etc.