A vehicle interior component is disclosed. The component may comprise a base structure comprising a functional region configured to present a first form and a second form comprising a receptacle. The base structure may comprise an illuminated section at the functional region. The functional region may comprise a movable illuminated platform. The platform may move between an elevated state for a default form and a lowered state for the second form. The platform may be configured to be presented at a first or generally horizontal orientation and a second or generally tilted orientation. The illuminated section may comprise a perimeter of the functional region. The component may comprise an actuator configured to operate a mechanism for the functional region. The functional region may comprise wireless charging capability. The component may comprise at least one of a console; floor console; tunnel console; armrest; instrument panel; door; door panel.

A vehicle interior component is disclosed. The component may comprise a base and a support. The component may comprise an actuator to operate a mechanism to move the support between raised and lowered positions. The mechanism may comprise a bladder. The support and the base may provide a cavity when the support is lowered. The support may protrude from the base when the support is raised. The support may be configured for a tilted state. The bladder may expand and/or contract to move the support. The bladder may comprise a first and second air bladder. An outer surface of the support and an outer surface of the base may comprise a substantially continuous surface when the support is in the raised or lowered position. The component may comprise at least one of a console; a floor console; a tunnel console; an armrest; an instrument panel; a door; a door panel.

A vehicle interior component is disclosed. The component may comprise a base comprising a surface and a support comprising a surface and configured to move between raised and lowered positions. The surfaces of the support and base may comprise a substantially continuous surface when the support is in the raised position. The support may descend into the base to provide a cavity. The component may comprise a light source to illuminate a border around the support and walls of the cavity. The component may comprise a mechanism to move the support. The support may comprise a switch to send a signal to the mechanism to move the support. The mechanism may comprise an adaptive volume mechanism. The component may comprise a wireless charger configured to send a signal to a controller to move the support. The component may comprise at least one of a console; armrest; instrument panel; door.

An assist step assembly includes a linkage assembly including a first linkage member and a second linkage member, an assist step coupled to the linkage assembly and movable from a first assist step position to a second assist step position, an aerodynamic member coupled to the linkage assembly and movable from a first aerodynamic member position to a second aerodynamic member position, a movement mechanism coupled to the aerodynamic member and configured move the aerodynamic member from the first aerodynamic member position to the second aerodynamic member position, and a controller in electronic communication with the movement mechanism, the controller configured to determine an operating condition, determine a position of the assist step based on the operating condition, and generate one or more control signals to move the aerodynamic member from the first aerodynamic member position to the second aerodynamic member position.

A system and a method for controlling opening and closing of a charging door of a vehicle are provided. The system includes a switch sensor that is mounted at the charging door to receive a pressing signal when the charging door switch of the vehicle is pressed. A controller determines whether a door lock of the vehicle is in a locked state to operate the charging door switch of the vehicle. When the door lock of the vehicle is in an unlocked state and the charging door switch of the vehicle is continuously pressed for more than a predetermined time, the controller processes the received pressing signal to determine whether the received pressing signal received is caused by a user manipulation. The charging door is opened when the pressing signal is caused by the user manipulation.

A utility vehicle includes an electronic control unit configured to control electronically controlled suspension devices. The electronic control unit is disposed in an internal space formed between a front panel and a dash panel and is located at a higher level than a seat portion of a driver seat. In a vehicle width direction, the electronic control unit is located toward a driver seat region of the dash panel with respect to a center region of the dash panel.

A vehicle door apparatus includes: a first slide door and a second slide door that are slidably provided between a close position at which an opening part of a vehicle is closed and an open position at which the opening part is opened and that have door frame parts butted to each other in a state where the opening part is closed; and a door opening/closing switch that is provided on an inner side wall positioned on a side to which each slide door is opened among the door frame parts of the first slide door and the second slide door and that opens and closes each of the slide doors.

A multifunctional switch device for a vehicle includes a housing coupled to one side of the steering column, a lever switch protrudingly mounted on one side of the housing so as to be rotatably manipulated within a predetermined section range, a moving block disposed within the housing so as to be rotatably moved together with the lever switch, a retaining block being provided at one side of the moving block, a guide bush mounted at one side of the steering column so as to rotate together with the steering wheel, and a cancel cam configured to be operated by the guide bush depending on a manipulated state of the steering wheel to return the moving block that has been rotatably moved to its original position. The cancel cam includes a cam body rotatably coupled to the housing and a shock-absorbing rib elastically deformably disposed at the cam body.

A control panel for a vehicle includes a plurality of buttons disposed on the control panel, and at least one conductive rib disposed on the plurality of buttons. The control panel is made of a non-conductive material. The conductive rib is connected to an electrostatic protection circuit or a touch controller so that the electrostatic protection can be realized through the conductive rib or the conductive rib can serve as a touch button.

Methods, systems, and apparatuses may provide for technology to configure input control systems for an automobile. The technology may include one or more controllers to provide an input control signal for a function of an automobile, wherein each of the one or more controllers are to be situated at different locations that are accessible by a driver. The technology may also include a human machine interface to reconfigure a layout or function of at least one of the one or more controllers so that at least one of the one or more controllers is relocated to a different location or the at least one of the one or more controllers controls a different automobile function. Reconfiguring the location or function of the one or more controllers is to improve driver access, comfort and safety.