A vehicle drive device includes an electric motor that is configured to drive a vehicle, a case that houses therein the electric motor and a lubricating oil storage unit that stores lubricating oil, and a soundproof material that covers one side portion of the case. The one side portion of the case has a through hole through which a shaft member is inserted. An outer surface of the soundproof material is covered with a cover member. The cover member includes a partition wall portion that blocks a space between an opening of the through hole and the soundproof material.

A truck bed of a vehicle includes a sheet metal panel defining a drain opening, a mass damper plug disposed within the opening and including a mass casting having a predefined mass configured to tune a frequency of a sound wave of the panel and plug into a predefined range, and defining bolt threads, and a bolt engaged with the bolt threads and configured to secure the plug with the panel.

A rotary electric machine unit includes a rotary electric machine, a case accommodating the rotary electric machine, a power control unit configured to control the rotary electric machine and mounted on the case by directly connecting a unit-side connector provided on a bottom surface of the power control unit to a case-side connector provided on an upper surface of the case; and a sound absorbing member provided between the upper surface of the case and the bottom surface of the power control unit.

There is provided a torque transmission joint configured to transmit torque between end portions of a driving shaft and a driven shaft arranged in series in an axial direction. An outer-diameter-side concave-convex portion is formed on an inner periphery of one shaft of the driving shaft and the driven shaft or a member fixed to the one shaft, an inner-diameter-side concave-convex portion is formed on an outer periphery of the other shaft or a member fixed to the other shaft, and the outer-diameter-side concave-convex portion and the inner-diameter-side concave-convex portion are engaged with a circumferential gap being interposed therebetween. An elastic member is provided between the end portion of the driving shaft and the end portion of the driven shaft either directly or via another member such that torque can be transmitted between the driving shaft and the driven shaft.

A control system and method for a vehicle having a powertrain comprising a torque generating system and an automatic transmission each utilize a pedal position sensor configured to measure a position of an accelerator pedal of the vehicle and a controller configured to, based on the accelerator pedal position, detect a pedal tip-in or tip-out event and, in response to detecting the pedal tip-in or tip-out event: (i) determine a desired output torque for the torque generating system corresponding to the pedal tip-in or tip-out event and (ii) command the torque generating system to gradually transition, over a period, from its current output torque to the desired output torque to mitigate clunk caused by abrupt contact between gear teeth of the torque generating system shaft and the automatic transmission shaft.

A vehicle door (1) has a door frame (2) and a door trim panel (3) connected to the door frame (2). The door trim panel (3) accommodates flexible spacers (4) that make contact with planar portions of the door frame (2). Each spacer (4) has a ribbed structure (11) in the region of contact with the door frame (2). The vehicle door (1) ensures satisfactory contact between the attached door trim panel (3) and the door frame (2), even when there are frame tolerances.

A vehicle control system to operate a vehicle autonomously with improved energy efficiency and ride quality is provided. A controller is configured to set a limit value of an operating point of an engine to reduce noises and vibrations. The operating point of the engine is restricted by the limit value within an acceptable region where an engine speed is higher than the limit value but an engine torque is lower than the limit value. The limit value is set to a first limit value when the vehicle is operated autonomously while carrying the passenger, and to a second limit value to expand the acceptable region when the vehicle is operated autonomously without carrying the passenger.

A toggle button assembly for a human-machine interface (HMI). The toggle button assembly includes a circuit board. A first switch and a second switch are mounted to the circuit board. A toggle body is rotatable about a toggle body rotation axis. A first switch actuator is between the toggle body and the first switch, and a second switch actuator is between the toggle body and the second switch. Upon actuation of the toggle body from a center position to a first position, the toggle body rotates about the toggle body rotation axis and presses the first switch actuator against the first switch to actuate the first switch. Upon actuation of the toggle body from the center position to a second position, the toggle body rotates about the toggle body rotation axis and presses the second switch actuator against the second switch to actuate the second switch.

A front vehicle body comprises a front frame having a closed cross-section, an apron reinforcement, a suspension housing, and first and second bulkheads arranged in the closed cross-section of the front frame. The suspension housing comprises first and second open cross-sections extending in a vehicle width direction and interconnecting the front frame and the apron reinforcement. The first and second open cross-sections include front ridgeline portions which are a high-rigidity portion extending in the vehicle width direction. The first and second bulkheads are arranged in the closed cross-section and located at or near positions which are continuous to lower ends of the front ridgeline portions.

Systems and methods are described for controlling a vehicle braking system. An electronic controller determines a target deceleration based at least in part on a detected displacement position of a brake pedal and determines an adjusted braking pressure to be applied to at least one wheel of the vehicle such that, regardless of the displacement position of the brake pedal and the target deceleration, the adjusted braking pressure is maintained outside of a defined range of braking pressures that corresponds to a NVH condition for the at least one wheel. The adjusted braking pressure is then applied to the at least one wheel of the vehicle.