An HVAC case configured to heat airflow for a vehicle HVAC system. The HVAC case has a defrost outlet, a primary demist outlet, a secondary demist outlet, and an airflow control door. The airflow control door is configured to control airflow through each one of the defrost outlet, the primary demist outlet, and the secondary demist outlet.

An HVAC air distribution device to promote temperature stratification within a larger volume. The device comprised of a front side coupled to a back side defining a cavity for directing a flow of air. The front side comprised of a pliable material and configured for the distribution of the flow of air within the channel. Accordingly, the front side comprises an air permeable portion to release flow from the channel to provide a low velocity of uniform air flow across a length of the device. This low velocity uniform air flow encourages temperature stratification within a distinct area of the larger volume to increase comfort of an occupant and promote efficiency of HVAC systems.

An air vent for introducing air into a motor vehicle interior includes an inlet opening, through which an incoming air flow enters the air vent, an outlet opening, through which an air flow exits the air vent, and an adjuster, which is fluidically and operatively connected to the inlet opening and the outlet opening. The adjuster has at least one entry, which is fluidically and operatively connected to the inlet opening. The adjuster has at least two exits, which are spaced apart from each other and from each of which an open air stream exits into the outlet opening. The adjuster is designed to align the open air streams to a focal point and the adjuster is designed to be located outside of a field of view of the motor vehicle interior.

The invention relates to a surface temperature-controlling device, in particular for use in vehicles, comprising a first air-distributing layer which has multiple air inlets extending through the first air-distributing layer and multiple air outlets extending through the first air-distributing layer, and a second air-distributing layer which fluidically connects air inlets and air outlets of the first air-distributing layer, wherein the air inlets are designed to introduce pre-heated or pre-cooled air into the second air-distributing layer, and the air outlets are designed to discharge air out of the second air-distributing layer.

A passenger cabin air distribution system includes a ventilation system and an ejector-diffuser. The ventilation system is operable to provide a conditioned air. The ejector-diffuser is positioned to receive a flow of the conditioned air from the ventilation system. The ejector-diffuser includes an induction unit and a diffuser section. The induction unit includes a secondary inlet in communication with a cabin air from a passenger cabin and is configured to mix the flow of the conditioned air with an induced flow of the cabin air into a mixed air. The diffuser section includes a discharge to eject the mixed air to the passenger cabin. The diffuser section is shaped to provide for efficient mixing with low backpressure in order to maintain the low motive pressure in the nozzle.

Apparatus and methods for providing a desired volumetric conditioned airflow rate and for reducing noise level, airflow recirculation and airflow separation are disclosed. An example apparatus includes a nozzle housing having a pair of opposing sidewalls and a front and back wall that define an airflow passage. The airflow passage has a centerline extending between the inlet and the outlet and has a plurality of cross-sections taken perpendicular to the centerline that collectively define a smooth contour along a length of the airflow passage. The cross-sections each have a thickness between the front and back wall that is greater at side edges than at the centerline. The thickness of the cross-sections decreases along a length of at least a first portion of the nozzle housing. A width of each of the cross-sections between the sidewalls increases along the length of at least the first portion of the nozzle housing.

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.

Aspects presented herein provide a solution to the problem of conditioned air blown into the passenger compartment in a concentrated direction and the discomfort that users may experience from the concentrated conditioned air. The apparatus includes a plate portion having a central flat surface and angled side surfaces, and a ball joint extending from a rear surface of the plate portion. The apparatus includes a stem portion having a socket and a plurality of legs. The stem portion may be removably coupled to the plate portion at a rear surface of the central flat surface. The ball joint of the plate portion may be received within the socket such that the positioning of the plate portion may be adjustable.

A heat exchanger device for a motor vehicle includes a main body, through which a temperature-control medium can flow, and a media-conveying device which passes through the main body and by which a medium to be temperature-controlled can be conveyed through the main body. As a result, the temperature of the medium to be temperature-controlled can be controlled by heat exchange with the temperature-control medium. The main body is produced in an integral injection molding process, as a result of which the main body is closed on the periphery and open-pored in the interior.

An air outlet of a side defroster is disposed on a front pillar of a vehicle, and includes upper vertical fins configured to direct a flow of air toward a side window, and lower vertical fins configured to direct a flow of air toward a fixed window disposed forward with respect to the side window.