A reinforcing unit is configured to be inserted into a side sill of a vehicle body. The reinforcing unit includes a center core formed so as to extend in a longitudinal direction of the vehicle body, and a pair of cover cores formed so as to extend in the longitudinal direction of the vehicle body and arranged so as to cover an upper portion and a lower portion of the center core.

A connector and a decking structure between a vehicle body and a battery including the same are provided. The connector includes a first connector assembly that has a downwardly protruding guide pin and a second connector assembly that is coupled to the first connector assembly in a lower portion of the first connector assembly and includes a guide aperture in which the guide pin is accommodated.

A system that includes a vehicle fuel-receiver comprising a port located on a vehicle surface; and an onboard computer programmed to: send a fuel delivery request to an unmanned aerial vehicle (UAV); actuate the port to permit the UAV to deliver fuel; and instruct a communication module to transmit a beacon signal to the UAV.

A driving device unit includes an electric motor configured to drive a vehicle, a drive device accommodating the electric motor, and an electric motor control device configured to control the electric motor. The drive device and the electric motor control device are arranged side by side in a horizontal direction, and an electrical connection portion electrically connecting the drive device and the electric motor control device is disposed at a joining portion between the drive device and the electric motor control device, and the drive device and the electric motor control device include a first fixing portion that directly fixes the drive device and the electric motor control device in the vicinity of the electrical connection portion, and a second fixing portion that fixes the drive device and the electric motor control device via a stiffener at a position away from the electrical connection portion.

A vehicle body for an electrically driven vehicle, having a vehicle frame for transmitting mechanical forces during the operation of the vehicle. The vehicle frame has a battery portion for receiving at least two battery modules, and the battery portion has at least one fastening interface for fastening the at least two battery modules in the received position.

An example battery assembly includes, among other things, at least one thermal exchange device. Each thermal exchange device has a plurality of liquid coolant channels, a first side that supports at least one battery array, and a second side. A plurality of fins extend from the second side. A skid plate is adjacent the plurality of fins to establish a plurality of air coolant channels between the second side and the skid plate. An example thermal management method includes moving air through a plurality of air coolant channels established between a skid plate and at least one thermal exchange device. The thermal exchange device supports at least one battery array. The thermal exchange device includes a plurality of liquid coolant channels that communicate a liquid coolant to exchange thermal energy with the at least one battery array.

A battery mounting structure, includes: a battery pack mounted below a floor pan of a vehicle cabin; a vehicle body framework member to which a vehicle horizontal direction end portion of the floor pan is joined; and a sealing member that has resilience and that plugs a gap between the battery pack and the vehicle body framework member.

A power system for an electric vehicle including a firewall positioned between an engine compartment and a passenger compartment of the vehicle. A floor structure of the vehicle is coupled with the firewall and defines an aperture between the firewall and a central support beam of the floor structure. A battery assembly is configured to mount with an underside of the floor structure having a battery and a battery connector housing to house a battery connector. The connector housing defines an electric connector to couple with an electric system of the vehicle. The connector housing is inserted within the aperture of the floor structure such that at least a portion of the battery connector housing extends above the floor structure. A rigid tunnel is coupled with the firewall, the floor structure, and the central support beam to cover the portion of the connector housing that extends above the floor structure.

This disclosure relates to an electrified vehicle with a vibration isolator within a frame of the vehicle and a corresponding method. An electrified vehicle according to this disclosure includes a frame with a rail, a vibration isolator within the rail, and a battery pack connected to the rail by way of the vibration isolator. Among other benefits, mounting the vibration isolator within the rail increases the amount of available packaging space.

In a battery case fixing structure, a case side wall, facing outward in a vehicle width direction, of a battery case includes at least two fixing portions that project outward in the vehicle width direction and are fixed to a vehicle body, and a linking wall that is formed as a planar shape opposing the case side wall and links the at least two fixing portions in a fore-and-aft direction, the fixing portions and the linking wall being formed integrally with the battery case. Accordingly, it is possible to enhance the side collision resistance performance by increasing the strength of a battery case of an electric vehicle.