A vehicle air vent includes an illuminating device having an illuminating element, a light conductor optically coupled to the light source and the illuminating element, and a bearing having a first bearing segment and a second bearing segment mounted pivotably and/or rotatably on the first bearing segment. The first bearing segment has a light decoupling segment and the second bearing segment has a light coupling element. A wall of the outer air conducting element surrounds a wall of a roller-shaped inner air conducting element, and the inner air conducting element can be pivoted in relation to the outer air conducting element and the housing around a pivoting axis running transversely to the current direction predetermined by the channel. The pivoting axis runs perpendicularly to the pivoting axis of the outer air conducting element. A pivoting point and/or rotating point of the bearing coincide or coincides with an imaginary intersection of the pivoting axis of the air conducting element.

A ventilation outlet for a ventilation system of a motor vehicle for directionally supplying a passenger compartment of the motor vehicle with an air flow flowing in a flow direction, having a ventilation duct for passing the air flow, with a duct wall for circumferentially delimiting the ventilation duct and a ventilation duct outlet opening for discharging the air flow into the passenger compartment, and a first air guide louver arranged in the ventilation duct and having a louver head portion and a louver head portion for deflecting the air flow, wherein the first air guide louver is held pivotably relative to the ventilation duct about a pivot axis between a first position and a second position, wherein the pivot axis runs through the louver head portion and is arranged adjacent to the ventilation duct outlet opening.

An air-guiding device for an interior of a motor vehicle includes a housing forming a cavity, slats accommodated in the cavity, and an outlet opening. The slats are formed pivotably in a direction of a body transverse axis and configured to deflect an air flow in the direction of the body transverse axis. The outlet opening enables the air flow to flow into the interior of the motor vehicle. The slats are arranged upstream of the outlet opening and spaced apart, for non-visibility, from the outlet opening in a direction of a body longitudinal axis. A central web is arranged in the cavity. The central web is configured to deflect the air flow in a direction of a motor vehicle vertical axis, and the central web divides the cavity in the direction of the motor vehicle vertical axis into a first flow duct and a second flow duct.

A vehicle air vent system includes a duct defining an outlet that directs air into an interior compartment. An air register assembly is operably coupled to the duct proximate to the outlet. The air register assembly includes a frame. A vane is rotatably coupled to the frame. A variable resistor is operably coupled to the frame. A user interface has a display. A controller is communicatively coupled to the user interface and the variable resistor. The controller receives a signal from the variable resistor and determines a position of the air register assembly in response to the signal.

A vehicle air vent system includes a dashboard defining an air vent opening. An air register assembly is disposed within the air vent opening of the dashboard. The air register assembly includes a frame and a vane rotatably coupled to the frame. An imager is coupled to the dashboard. The imager captures data within a field of view. A controller is communicatively coupled to the imager and the air register assembly. The controller receives the data from the imager. The controller determines a position of an object within the field of view in response to the data.

A vehicle air vent manual control assembly can be equipped at a passenger compartment of an automobile. Example installations include at an instrument panel, at a B-pillar, and at a rear center console. The vehicle air vent manual control assembly includes a knob through which a user can manipulate a first set of air directive vanes, a second set of air directive vanes, and a shutoff flap. Pivotal movement of a shaft via the knob prompts movement of the first set of air directive vanes. Translational movement of the shaft via the knob prompts movement of the second set of air directive vanes. And rotational movement of the shaft prompts movement of the shutoff flap.

Disclosed herein is an air vent device, the air vent device including a garnish including an opening in which an air vent hole is located, a grille unit located between an outer surface of the air vent hole and an inner surface of the garnish, a first wing located at an outer side of the air vent hole in a lateral direction and configured to be pivoted based on one end of the grille unit, a deco part located on an outer surface of the garnish, and a knob configured to control a direction of a wind discharged from the air vent hole, wherein the knob is located to surround a portion of the deco part and configured to be capable of controlling a direction of a wind in a vertical direction by operating the first wing.

An operator element for an air vent of a vehicle, wherein the operator element is slidably or rotatably mounted relative to a carrier element, and wherein the operator element is associated with a friction brake having an elastically deformable friction body, which elastically springingly pushes against the operator element and/or the carrier element, such that the friction brake moves the operator element relative to the carrier via friction. The friction body is aligned at least in regions in the longitudinal direction of the movement path of the operator element and has at least in regions a cross-section with an at least substantially star-shaped, in particular X-shaped or Y-shaped, cross-sectional surface or a polygonal cross-sectional surface having at least three corners or a cross-sectional surface having circumferentially distributed tooth regions.

An air suspension apparatus for vehicle seats includes an air shutter connected to a supply port of a control valve configured to supply air so as to adjust the opening degree of an inner air channel through which air supplied to the control valve passes.

A vehicle air register assembly includes a barrel. An adjustment member extends between a first side and a second side of the barrel. The adjustment member includes a housing and an engagement feature. A plurality of vanes are pivotally coupled to the barrel, each vane extends perpendicular to the adjustment member. Each vane defines a recess. The engagement feature extends through each recess. A knob assembly is coupled to the housing. The knob assembly includes a knob, a connector, and a base. The connector and the base are disposed within the housing.