A body structure for an automotive vehicle includes an enclosure for a power source, an upper shear structure assembly and a lower shear structure assembly. The enclosure includes a front cross-member, a rear cross-member, a left rocker and a right rocker. The upper and lower shear structure assemblies are disposed across the top and bottom of the enclosure, respectively, and are fastened to respective top and bottom surfaces of the cross-members and rockers. The upper and lower shear structure assemblies may include respective front and rear generally trapezoidal sections configured for attachment to respective front and rear box structures. Each of the shear structure assemblies is effective to dissipate in-plane a portion of an external load imposed upon the enclosure.

A body structure for an automotive vehicle includes an enclosure for a power source, an upper shear structure assembly and a lower shear structure assembly. The enclosure includes a front cross-member, a rear cross-member, a left rocker and a right rocker. The upper and lower shear structure assemblies are disposed across the top and bottom of the enclosure, respectively, and are fastened to respective top and bottom surfaces of the cross-members and rockers. The upper and lower shear structure assemblies may include respective front and rear generally trapezoidal sections configured for attachment to respective front and rear box structures. Each of the shear structure assemblies is effective to dissipate in-plane a portion of an external load imposed upon the enclosure.

An apparatus for sensing a forward collision may include: a front end module (FEM) upper side member having a first end combined with a FEM upper member and a second end formed to extend toward a fender; a FEM vertical member having a first end combined with a front side member combined along a length direction of a vehicle from a first end portion of the FEM upper member and a second end combined with the FEM upper member; and a front impact sensor (FIS) configured to sense an impact being applied from a front of the vehicle. In particular, the FEM upper side member and the FEM vertical member are combined to overlap the FEM upper member.

An apparatus for sensing a forward collision may include: a front end module (FEM) upper side member having a first end combined with a FEM upper member and a second end formed to extend toward a fender; a FEM vertical member having a first end combined with a front side member combined along a length direction of a vehicle from a first end portion of the FEM upper member and a second end combined with the FEM upper member; and a front impact sensor (FIS) configured to sense an impact being applied from a front of the vehicle. In particular, the FEM upper side member and the FEM vertical member are combined to overlap the FEM upper member.

This disclosure details integrated thermal management systems for thermally managing electrified vehicle components. Exemplary integrated thermal management systems may include a thermal module assembly that may be integrated into a front end structure of a flexible modular platform of the electrified vehicle. The integrated thermal management systems may be controlled in a plurality of distinct thermal control modes for thermal managing various subcomponents and for addressing various vehicle auxiliary loads (e.g., passenger cabin heating loads, passenger cabin cooling loads, etc.).

A structural module assembly with conductive reinforcements overmolded within the plastic and/or composite subassembly as a main power bus and a communication bus for electrical components assembled onto the module. Control signals are either transmitted between a main microcontroller and another microcontroller by way of the communication bus or wirelessly. The microcontrollers determine which electrical components to activate, and power is provided to the electrical components by way of the main power bus.

A structural module assembly with conductive reinforcements overmolded within the plastic and/or composite subassembly as a main power bus and a communication bus for electrical components assembled onto the module. Control signals are either transmitted between a main microcontroller and another microcontroller by way of the communication bus or wirelessly. The microcontrollers determine which electrical components to activate, and power is provided to the electrical components by way of the main power bus.

A vehicle chassis is provided. The vehicle chassis may comprise one or more vehicle chassis modules or chassis substructures that are formed from a plurality of customized chassis nodes and connecting tubes. The customized chassis nodes and connecting tubes may be formed of one or more metal and/or non-metal materials. The customized chassis nodes may be formed with connecting features to which additional vehicle panels or structures may be permanently or removeably attached. The vehicle chassis modules or chassis substructures may be interchangeably and removeably connected to provide a vehicle chassis having a set of predetermined chassis safety or performance characteristics.

A vehicle chassis is provided. The vehicle chassis may comprise one or more vehicle chassis modules or chassis substructures that are formed from a plurality of customized chassis nodes and connecting tubes. The customized chassis nodes and connecting tubes may be formed of one or more metal and/or non-metal materials. The customized chassis nodes may be formed with connecting features to which additional vehicle panels or structures may be permanently or removeably attached. The vehicle chassis modules or chassis substructures may be interchangeably and removeably connected to provide a vehicle chassis having a set of predetermined chassis safety or performance characteristics.

A container assembly for a vehicle, having a container which is arranged in a closed cavity of a vehicle body structure, and methods for producing a vehicle body structure having such a container assembly for a vehicle. At least one mechanical interface having a container-side first attachment part and a vehicle-side second attachment part is provided, which is embodied both for fastening the container on the vehicle body structure and also for filling and/or emptying the container.