An air vent for a vehicle includes a housing having an air inlet region and an opposite air outlet region, an air stream splitter received at least regionally in the housing in such a way that, at least in the air outlet region of the housing, an air duct that is delimited or defined by the housing is split into a first air duct and a second air duct separated therefrom. For air deflection as needed in a vertical direction, the air vent has at least two air guiding elements, which are received in the first air duct and are opposite to one another and are pivotable about a common first axis of rotation, and including at least two air guiding elements, which are received in the second air duct and are at least regionally opposite to one another and are pivotable about a common second axis of rotation.

An air vent device for a vehicle includes a main vent and an auxiliary vent divided by a partition wall and combined in a single air duct, a plurality of horizontal wings mounted at positions behind the main vent and the auxiliary vent, and an air volume control wing included in the plurality of horizontal wings for distributing an air volume discharged into an interior of the vehicle through the main vent and an air volume discharged into the interior of the vehicle through the auxiliary vent. The air vent device is capable of securing an interior discharge air volume, adjusting a wind direction, securing an air duct installation space, and re-distributing a leakage amount of air.

A vehicle air vent apparatus according to one embodiment of the present invention is an apparatus which guides air introduced from a vehicle air conditioner into a vehicle using a direct wind mode or indirect wind mode. The vehicle air vent apparatus includes a duct part including an entrance and an exit of an air passage communicating with the vehicle air conditioner, a cover part configured to selectively close the exit of the duct part, a vent part configured to adjust a wind direction of air introduced into the vehicle through the exit of the duct part and including a rack disposed under a body of the vent part and extending in a longitudinal front-rear direction of the vehicle, and a driving part configured to change a position of the cover part and a position of the vent part according to a preset logic.

An instrument panel including a potentially large display panel which can be recessed away from mis-operations includes mounting surface and air outlet assembly. The display panel is mounted on the mounting surface. The air outlet assembly includes air intake and outlet. The air intake can connect to an air conditioning system. The air outlet is disposed on the mounting surface, and contains the display terminal. A size of the display assembly is freely adjustable, and the structure of the instrument panel reduces a risk of mis-operating the display terminal while driving. Heat generated by the display terminal can be taken away by the air outlet for increasing a lifetime of the display terminal. A vehicle with the instrument panel is also provided.

Disclosed herein is a system for controlling direct and indirect multifunctional air vents, which includes an air vent mounted inside a dashboard in an interior of a vehicle, and configured to guide air flowing from a vehicle air conditioner to the interior of the vehicle while switching to a direct wind mode or an indirect wind mode, a mode input module provided outside the vehicle such that a user selects one of the direct wind mode and the indirect wind mode, and a controller configured to control the air vent to switch the mode of the air vent in response to the mode selected by the user through the mode input module.

An outlet device for ventilating a vehicle interior is provided. The outlet device includes a housing with an inner housing surface, a first air-guide surface for a first partial volume flow, and a second air-guide surface for a second partial volume flow. The second air-guide surface lies contrary to the first air-guide surface and a rudder, which is disposed in the housing, and can be rotated around a rudder adjustment axis.

An air flow control system includes a plenum having an air inlet, a first air outlet, a second air outlet and a third air outlet, a vent door, an air guide, carried on the vent door, and an actuator. The actuator displaces the vent door between a first position closing the first air outlet and a second position opening the first air outlet. A climate control method for an autonomous vehicle is also provided.

A vent unit includes a bezel installed on a vehicle and formed in a ring shape with a flow hole at the center, and a spacer overlapping and coupled to the bezel and formed in a ring shape rotating relative to the bezel. The bezel has a plurality of first through-holes circumferentially spaced apart from one another, and the spacer has a plurality of second through-holes circumferentially spaced apart from one another such that conditioning air is discharged to an interior through the second through-holes and the first through-holes when the second through-holes are aligned with the first through-holes by circumferential rotation. The vent unit further includes a wing disposed in the flow hole of the bezel and coupled to the spacer through a hinge shaft. The wing controls discharge of conditioning air through the flow hole by axially rotating, and circumferentially relatively rotating together with the spacer.

An air vent for ventilating a passenger compartment of a motor vehicle. The air vent includes an air channel, which is divided, by an air splitter, into two partial air channels, which can be steplessly partially or completely blocked for air passing through, by blocking elements, which are pivotably mounted at the air splitter. The blocking elements may be displaced by way of a ram, which can be moved in the air splitter transversely to the air channel. Either one or the other blocking element can be selectively displaced by way of the ram. The respective other blocking element, in an open position, then rests against the outside of the air splitter.

An adjustable air vent adapted to guide an air stream flowing through the air vent includes an elongate housing extending in a length direction, one or more vertical vanes at least partly located in the housing, one or more horizontal vanes at least partly located in the housing, an air guide at least partly located in the housing and extending in the length direction, and an air adjustment actuator displaceable in relation to the housing to adjust a direction of the air stream. The air vent includes a first connection directly or indirectly connecting the air adjustment actuator to the horizontal vanes for vertical direction of the air stream and a second connection directly or indirectly connecting the air adjustment actuator to the vertical vanes for horizontal direction of the air stream. The air adjustment actuator surrounds the air guide and is displaceable relative thereto.