A component for a vehicle interior may comprise a housing; a cover structure comprising a cover surface; and a user interface at the cover surface comprising a light display. The light display may comprise a light guide comprising a projection. The cover structure may comprise a cover base and a cover layer. The cover layer may be molded on the cover base. The cover base may comprise the light guide. The cover layer may comprise an aperture. The projection may extend into the aperture. The cover base may comprise an aperture, recess, notch and/or indentation. The cover layer may comprise a generally opaque material preventing visibility of a recess in the cover base. The cover base may comprise a different color and/or softness than the cover layer. The cover structure may comprise apertures and/or recesses for the light guide.

A component for a vehicle interior may comprise a housing; a cover structure comprising a cover surface; and a user interface at the cover surface comprising a light display. The light display may comprise a light guide comprising a projection. The cover structure may comprise a cover base and a cover layer. The cover layer may be molded on the cover base. The cover base may comprise the light guide. The cover layer may comprise an aperture. The projection may extend into the aperture. The cover base may comprise an aperture, recess, notch and/or indentation. The cover layer may comprise a generally opaque material preventing visibility of a recess in the cover base. The cover base may comprise a different color and/or softness than the cover layer. The cover structure may comprise apertures and/or recesses for the light guide.

A surface of a vehicle component can be dynamically deformable surface. The dynamically deformable surface can be configured to undergo deformations to dynamically form a dynamic button or other user interface element on demand. The dynamically deformable surface can include one or more biosensors. When a user engages the dynamic button with a portion of the body, the one or more biosensors can acquire user biodata. The user biodata can be used by the vehicle as input for various purposes. For instance, the vehicle can operate as a health-monitoring and/or comfort monitoring system. As a result of these arrangements, buttons and other user interface elements can appear and disappear depending on the need and/or application, providing a cleaner vehicle cockpit interface and greatly expanding the possibilities of where such buttons can be located at and how many things can be controlled by the driver using physical interfaces.

A driver-side airbag device includes: a mounting plate; a cushion disposed inside the mounting plate and configured to be inflated by gas supplied thereto; a cover surrounding the cushion and having a movable lid to be cut and tilted by an inflation of the cushion; a decoration part disposed on a front surface of the movable lid and to be rotated together with the movable lid; and a connector having one side disposed between the cover and the decoration part and another side coupled to the mounting plate, the connector configured to restrain forward deployment of the cover when the cushion is inflated.

A driver-side airbag device includes: a mounting plate; a cushion disposed inside the mounting plate and configured to be inflated by gas supplied thereto; a cover surrounding the cushion and having a movable lid to be cut and tilted by an inflation of the cushion; a decoration part disposed on a front surface of the movable lid and to be rotated together with the movable lid; and a connector having one side disposed between the cover and the decoration part and another side coupled to the mounting plate, the connector configured to restrain forward deployment of the cover when the cushion is inflated.

A steering column assembly module having an operating device for setting an operating parameter of a motor vehicle comprises a static central element that annularly surrounds a steering axis, and a recess, and has an elongated rotary element with a longitudinal axis, and comprises a grip section, and a bearing section that is fixedly connected to the grip section. In this context, the bearing section of the rotary element is disposed in the recess of the central element at least sectionally, and is mounted in the central element rotatably about the longitudinal axis, wherein a rotation sensor is configured to detect a rotational position of the rotary element, and in dependence upon the detected rotational position, to generate a control signal for setting the operating parameter.

A steering column assembly module having an operating device for setting an operating parameter of a motor vehicle comprises a static central element that annularly surrounds a steering axis, and a recess, and has an elongated rotary element with a longitudinal axis, and comprises a grip section, and a bearing section that is fixedly connected to the grip section. In this context, the bearing section of the rotary element is disposed in the recess of the central element at least sectionally, and is mounted in the central element rotatably about the longitudinal axis, wherein a rotation sensor is configured to detect a rotational position of the rotary element, and in dependence upon the detected rotational position, to generate a control signal for setting the operating parameter.

A steering wheel assembly having a steering wheel base plate, a safety airbag and a cover and a housing, wherein the cover and the housing define a space for accommodating an airbag and a light-emitting mark. The light-emitting mark includes an electronic control element, a mark portion, and a flexible circuit board. The electronic control element is configured to be based on a rigid printed circuit board. The flexible circuit board is configured to have a first end connected to the electronic control element and a second end connected to the mark portion so that the electronic control element controls light emission of the mark portion by means of the flexible circuit board. The electronic control element is arranged in a first position in the steering wheel assembly. The mark portion is arranged in a second position in the steering wheel assembly. The second position is positioned at the cover.

A steering wheel assembly having a steering wheel base plate, a safety airbag and a cover and a housing, wherein the cover and the housing define a space for accommodating an airbag and a light-emitting mark. The light-emitting mark includes an electronic control element, a mark portion, and a flexible circuit board. The electronic control element is configured to be based on a rigid printed circuit board. The flexible circuit board is configured to have a first end connected to the electronic control element and a second end connected to the mark portion so that the electronic control element controls light emission of the mark portion by means of the flexible circuit board. The electronic control element is arranged in a first position in the steering wheel assembly. The mark portion is arranged in a second position in the steering wheel assembly. The second position is positioned at the cover.

A vehicle interior assembly, such as a vehicle seat or a steering wheel, includes a cover assembly covering a frame. The cover assembly includes a vinyl or non-woven textile cover and an electrically conductive coating layer (“ECCL”) within an A-surface of the cover. The ECCL may function as a heater, a capacitive touch control, or lighting. Another cover assembly includes first and second ECCLs within an A-surface of a cover. The first ECCL functions as a heater and the second ECL functions as a capacitive touch control. Another cover assembly includes an ECCL and a Positive Temperature Coefficient (PTC) coating layer within an A-surface of a cover. The ECCL functions as a heater dependent on current received from a power source via the PTC coating layer. The PTC coating layer regulates the current received by the ECCL from the power source dependent on a temperature of the PTC coating layer.