A control element housing has a front face that receives at least one control element, a rear face lying opposite the front face, a first side face and a second side face lying opposite the first side face, the two side faces connecting the front face to the rear face, a base which interconnects the two side faces and the rear face, and an upper face lying opposite the base, the upper face connecting the front face, the first side face, the second side face and the rear face. The base and/or the upper face has or have at least one structural weakening that allows the control element housing to be deformed under mechanical stress. Also disclosed is a door interior trim having the control element housing.

An upper reinforcement for a door trim panel includes a reinforcement channel, and a rib extending across the reinforcement channel. More particularly, the rib includes a first end section that engages a first wall of the channel, a second end section that engages a third wall of the channel and an intermediate section that extends across a window in the second wall of the channel.

A motor vehicle includes a body that has a doorway. A side door is moveably held on the doorway and displaceable between a closed position and an open position. The side door has an inner door part, a reinforcement element, and a planking element. The reinforcement element has an upper deformation region and a lower deformation region. An impact damper that is a foam part is disposed inside the side door between the reinforcement element and the inner door part. The impact damper extends over at least a partial length of the reinforcement element and substantially completely fills a cavity delimited between the reinforcement element and the inner door part.

A vehicle door control device includes a swipe operation portion provided on a vehicle interior side of a door, a detection unit provided at least in the swipe operation portion and configured to detect a swipe operation, a door lock device configured to hold the door in a closed state, and a controller configured to release a closed state of the door by the door lock device when it is determined that the swipe operation is detected based on a detection result of the detection unit.

A wireless power transfer system for a vehicle door glass may include a power transmitter including a first converter converting DC power from a battery into AC power, a transmitting coil wirelessly transmitting the AC power received from the first converter, and a transmitter controller controlling a power level to be output from the first converter; and a power receiver including a receiving coil wirelessly receiving the AC power from the transmitting coil, a second converter and a third converter connected to the receiving coil, and a receiver controller controlling a power level to be output from the second converter and the third converter, wherein the power transmitter is mounted on a vehicle door, and the power receiver is mounted on a door glass.

A vehicle door for a motor vehicle, including a support structure, an inner shell fixed to the support structure, and an outer panelling fixed to the inner shell. The inner shell is formed and connected to the support structure in such a way that it is a load-bearing component, thereby increasing the overall rigidity of the vehicle door.

A personal automotive vehicle includes a door with a door panel that partly defines a reconfigurable passenger cabin. The door panel presents an abrasion-resistant portion to the interior of the passenger cabin at an upper section of the door panel below the window. A seat is mounted in the passenger cabin and can be rotated inwardly to increase the available range of movement of the seat occupant. The abrasion-resistant portion of the door panel is located to prevent scuff-related damage to the door panel when the seat occupant crosses his legs. The abrasion-resistant portion of the door panel can be selectively covered and uncovered by a moveable portion of the door panel, which may include an armrest.

A cabin-interior upright wall of a door inner panel is configured by a first panel member alone. An extension wall extends toward a door outer panel from an end of the cabin-interior upright wall. A lower portion of a front upright wall, which is part of the extension wall, is segmented in a door thickness direction. The extension wall is configured such that a first extension portion of a first panel member is joined to a second extension portion of a second panel member in a state overlapped with the second extension portion.

A utility vehicle includes a door. The door includes an inner door panel disposed close to a cabin, and an outer door panel attached to an outer end of the inner door panel. The outer door panel is attached to an outer end of an upper portion of the inner door panel to expose a lower portion of the inner door panel when viewed from outside the vehicle.

A carrier module for a motor vehicle door assembly having inner and outer panels defining a door panel structure with the inner panel having an opening for selective access to an internal door cavity between the inner and outer panels is provided. The carrier including an outer periphery configured for attachment to the inner panel to substantially close off the opening, and at least one reinforcement member fixed to the carrier, the at least one reinforcement member being formed of a material having a resistance to loading that is greater than a resistance to loading of a material of the carrier.