A moveable graphical user interface object is provided. The moveable graphical user interface object is moveable within a bounded graphical region. A current location of the moveable graphical user interface object in the bounded graphical region corresponds to an indicated direction of concentrated airflow. For example, the moveable graphical user interface object is used to control airflow direction of a HVAC air vent.

A vent device includes at least one stage ventilation assembly, each stage of the at least one stage ventilation assembly includes an inner layer element and an outer layer element. An air duct is formed between the outer layer element and the inner layer element, and the air duct has an air duct outlet. Each stage of the at least one stage ventilation assembly has an air duct open position and closed position. The outer layer element and the inner layer element are configured to be able to move along the first direction relative to each other between the air duct open position and closed position. In the air duct closed position, the inner layer element closes the air duct outlet, and in the air duct open position, the inner layer element opens the air duct outlet.

An air vent for a vehicle includes a housing with an air inlet, an air outlet, and an air channel between the air inlet and the air outlet; a rigid air directing body arranged within the air channel and pivotably arranged within the housing by being affixed to a first axis; an actuator arranged within the housing in order to act on the rigid air-directing body to determine a direction of an air stream exiting the air outlet, the actuator comprising a transmission element affixed to a second axis and pivotable around the second axis.

A fluid delivery module includes a housing defining a fluid flow path between an inlet and an outlet. The housing includes a top surface portion and a bottom surface portion that are movable to vary a flow direction of a fluid flow along the fluid flow path. The fluid delivery module includes an outlet treatment movable to vary a flow rate of the fluid flow exiting the outlet and a control unit configured to send commands to move at least one of the top surface portion, the bottom surface portion, or the outlet treatment according to a fluid delivery profile that dictates a flow pattern of the fluid flow.

A low sound emission flow diffuser includes a diffuser housing, which limits or forms an installation space, through which a flow path for an air flow of air extends, starting at an inlet opening, which is limited or formed by the diffuser housing on its inflow side, to an outlet opening, which is limited or formed by the diffuser housing on its outflow side. The flow diffuser has a multi-piece, optionally three-piece, flow manipulator, which extends along the flow path between the inlet opening and the outlet opening, for absorbing airborne sound. The disclosure additionally relates to an air conditioning system of a motor vehicle including at least one such low sound emission flow diffuser.

An apparatus, system and method for controlling airflow is described. The apparatus comprises a wall which delimits a flared bore. The apparatus further comprises at least one air guide member which retractably protrudes into the flared bore from the wall. The flared bore widens to an outlet, thereby to permit a diverging airflow to be expelled therefrom when each of the at least one air guide member is retracted. When the at least one air guide member protrudes into the flared bore, air flowing in the flared bore is guided by a surface, e.g. a concave surface, of the respective air guide member away from the wall and towards the outlet. The retractable air guide member thus enables the direction and/or degree of convergence of the air flowing out of the outlet to be controlled.

An air vent for a vehicle includes a housing with an air inlet, an air outlet, and an air channel between the air inlet and the air outlet; at least one rigid air directing body arranged within the air channel; and an actuator arranged within the housing in order to act on the rigid air-directing body to determine a direction of an air stream exiting the air outlet, where the actuator includes a shape memory alloy element, and the rigid air-directing body is pivotably arranged within the housing by being affixed to a first axis which runs parallel to a second axis to which the actuator is affixed to be pivotably arranged within the housing.

The invention relates to an air vent including a housing; plural louvers extending horizontally or vertically, pivotably arranged in the housing and aligned relative to an air outlet opening arranged in the housing, wherein the plural louvers are controllable jointly with an identical orientation by a pivot movement from a starting position into a pivot position by an adjustment device for changing an air outflow direction from the air outlet opening, wherein the plural louvers are controllable by at least one actuation element made from a shape memory alloy to adjust a diffuse air flow independently from a control by the adjustment device.

A moveable graphical user interface object is provided. The moveable graphical user interface object is moveable within a bounded graphical region. A current location of the moveable graphical user interface object in the bounded graphical region corresponds to an indicated direction of concentrated airflow. For example, the moveable graphical user interface object is used to control airflow direction of a HVAC air vent.

An air discharger for discharging an air stream, in particular in a vehicle interior, includes at least one air guide channel and at least one air routing element disposed therein. The routing element being designed as a vane wheel having at least one vane, wherein each of the vanes is formed from at least two segments disposed in succession axially. The segments being able to move at least relative to one another angularly between a position that brings about a “diffuse” mode and a position that brings about a “total air” mode by way of an axially adjustable variable flow cross section of the air guide channel.