An air conditioning system for a vehicle including an air curtain assembly. The air curtain assembly includes an outer blower configured to generate an air curtain, and an inner blower configured to generate comfort airflow within the air curtain. The air conditioning system is configured to condition the comfort airflow with respect to at least one of the following: temperature, humidity, odor, particulate matter content, biological matter content, germ content, and infectious agent content.

A motor vehicle ventilation system configured to ventilate a cabin of the vehicle. The ventilation system comprises a duct extending about a perimeter of the vehicle cabin, at least one air flow inducer configured to induce a flow of air through the duct, the duct comprising an air inlet to receive a bulk flow of air from the flow inducer, and a first opening that extends about the perimeter of the vehicle cabin and that receives air from the duct. The first opening is configured to expel air into the vehicle cabin. The ventilation system further comprises a second opening that extends about the perimeter of the vehicle cabin and that draws air in from the vehicle cabin into a passage extending about the perimeter of the vehicle cabin, wherein a flow through the first opening entrains a flow from the second opening.

An on-vehicle air conditioner includes a suction port disposed on a ceiling of a vehicle cabin to suction air within the vehicle cabin, a door discharge port disposed at an upper end of a door opening portion located on a wall face of the vehicle to discharge air downward, and an upper duct configured to guide to the door discharge port the air suctioned by the suction port.

A component system for ventilating a trunk compartment area and a motor vehicle for the purpose of cooling at least one unit located in the trunk compartment area and a motor vehicle, in particular a passenger motor vehicle. The component system has a loading floor for storing objects, the trunk compartment area can be arranged below the loading floor, and a first component which delimits the trunk compartment area in sections, in particular a bodyshell component. Between the loading floor and the first component, at least one passage is arranged for guiding an air flow into the trunk compartment area.

The invention relates to an air cooling device (1) for a vehicle, notably a motor vehicle, comprising:at least a reserve (3) of liquid, a device (5) for nebulizing the liquid, at least two air outlets (7) for diffusing at least an air flow (F1, F2) intended for the interior of the said vehicle, andat least two nebulizing ducts (9) respectively intended to have passing through them an air flow (F1) laden with droplets of nebulized liquid, each nebulizing duct (9) being arranged in fluidic communication with the reserve (3) of liquid and with an associated air outlet (7). According to the invention, the air cooling device (1) comprises at least one nebulizing regulating member (19) to regulate the flow rate of the air flow (F1) laden with droplets of nebulized liquid passing along a nebulizing duct (9) and to be diffused through the air outlet (7) associated with this nebulizing duct (9).

A climate control system includes a plurality of vent registers, an HVAC unit delivering conditioned air to the plurality of vent registers, a side door status monitoring device and a controller configured to control opening and closing of the plurality of vent registers in response to side door status data provided by the side door status monitoring device. A related climate control method is also provided.

A ventilation device for the inside of a motor vehicle, having at least one air outflow element and at least one associated directional element. The at least one air outflow element is provided in a functional arrangement with an air channel element. The air channel element represents the connection to a supply device as part of an air conditioning system. At least one light element is also provided. The arrangement of the at least one directional element and the at least one air outflow element work together so that the ventilation device can be continuously adjusted at least between two inside ventilation conditions. The at least two ventilation conditions respectively differ at least by means of a direction of outflowing air directed directly into the inside and directed indirectly along a roof liner designed for this reason in relation to a seat region of the motor vehicle.

A vehicle dashboard includes a trim panel defining an airflow opening. At least one register duct defines a register opening. The at least one register duct is disposed adjacent to the trim panel and the register opening aligns with the airflow opening. At least one demister duct defines a demister opening. The at least one demister duct is disposed adjacent to the trim panel and the demister opening aligns with the airflow opening. A first air deflector slidably engaged with the at least one register duct. A second air deflector slidably engaged with the at least one register duct.

A climate control system includes a plurality of vent registers, an HVAC unit delivering conditioned air to the plurality of vent registers, a side door status monitoring device and a controller configured to control opening and closing of the plurality of vent registers in response to side door status data provided by the side door status monitoring device. A related climate control method is also provided.

An air vent structure may include spacers mounted at sides of an outlet of an air duct; a single horizontal wing, and an upper and lower horizontal wings that have hinge grooves to which hinge pins of the spacer are inserted and formed in front side portions of the horizontal wings and positioned in horizontally in the outlet, the upper and lower horizontal wings being disposed above and below the single horizontal wing; a main link having a front end portion which a first hinge end portion hinged to a rear portion of both side surfaces of the respective horizontal wings and a rear end portion in which a second hinge end portion is formed at upper and lower portions in the rear end portion; an auxiliary wing connected to the slot of the spacer and the second hinge end portion of the main link; and a dummy wing covering the spacer.