The invention relates to a headliner system for a motor vehicle, said headliner system comprising at least one air supply connection for connecting the headliner system to an air conditioning and ventilation system of the motor vehicle, and at least one outflow device which is fluidically connected to the at least one air supply connection, wherein at least one outflow device has at least two outflow segments, wherein one outflow segment is designed to deliver a designated air volume flow to the passenger compartment, wherein a first outflow segment surrounds a second outflow segment at least in part, and wherein at least one outflow device is designed such that it can be displaced in at least one axis of the outflow device.

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.

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.

A method and system for a responsive climate control interface are disclosed. The climate control interface includes an interactive element further comprised of a climate settings map and a climate setting selector. The climate setting selector can be moved to different locations on the climate settings map in order to select a climate setting with a particular temperature and fan speed. The appearance of both the climate settings map and the climate setting selector can be changed as the climate change selector is moved in order to visually indicate temperature and fan speed settings. The system also includes a haptic feedback module that can convert climate settings into haptic feedback levels.

A vehicle instrument panel structure is provided including a blower outlet and a guide member. The blower outlet is provided between a meter section on an instrument panel provided at a front section of a vehicle cabin and an interior member of a vehicle door, and is capable of blowing an airflow substantially toward a vehicle rear side. The guide member is provided at the vehicle rear side of the blower outlet so as to block the blower outlet from view of an occupant sitting in a vehicle seat provided inside the vehicle cabin, and extends at an angle toward the vehicle rear side on progression from a location corresponding to the blower outlet toward a vehicle width direction outer side.

An autonomous driving device module mounting structure includes: a floor panel that constitutes a part of a vehicle body and extends in a front to rear direction of a vehicle and a width direction of the vehicle; a rear seat that is disposed on a vehicle upper side of the floor panel such that a gap is formed with respect to the floor panel; and an autonomous driving device module that is equipped with a plurality of devices and is disposed on the vehicle upper side of the floor panel and a vehicle lower side of the rear seat.

A pop-up roof, for multi-purpose vehicles such as camper vans and similar, includes components for increasing the climatic comfort of the additional interior compartment of the vehicle when the rigid top of the pop-up roof is in a raised operating position. A fixed frame following the shape of the opening of the vehicle roof includes a hollow structure defining an air duct with annular development. At least one air inlet in the duct connects with an air supply channel of the air conditioning system provided in the vehicle and a plurality of air diffusion vents distributed along the air duct, sending air towards the additional internal compartment.

A system for ventilating a vehicle cabin includes a powered vent, such as a window or sunroof, for opening and closing to selectively ventilate the vehicle cabin. A controller may be provided for: (1) opening the powered vent based on a pre-determined opening time; (2) controlling the powered vent to activate based on a pre-determined parking location; and/or (3) controlling the powered vent to activate based on a sunlight intensity.

A roof assembly for a work vehicle includes a roof panel having a vertical peak positioned longitudinally between a forward end and a rearward end of the roof panel. In addition, the roof panel includes a forward surface extending from the vertical peak to the forward end of the roof panel, and the roof panel includes a rearward surface extending from the vertical peak to the rearward end of the roof panel. The roof panel also includes a ridge extending around a periphery of the roof panel. The ridge has a first gap positioned at the rearward end of the roof panel, a second gap positioned at the forward end of the roof panel, and a third gap positioned at a first lateral end of the roof panel. In addition, the roof panel does not include a channel extending along the roof panel.

A charger cooling air source selection method includes cooling a vehicle battery charger by opening an outside air vent door in a vehicle and drawing outside air through the outside air vent door; determining whether the outside air vent door will close; and if the outside air vent door will not close, establishing and maintaining positive air pressure in a cabin of the vehicle by ensuring an open configuration of a recirculation door in the vehicle.