A diffusing vent assembly may include a diffuser base and a diffusing head. The diffuser base may include a mounting flange, a collar extending from the mounting flange, and a ductwork fixation channel. The collar may span an infra-ceiling space of a vehicle. The diffusing head may include a diffuser vane configuration, a rotational flange surrounding the diffuser vane configuration, and an air blade. The diffuser base and the diffusing head further comprise complementary rotational securement members that permit rotation of the diffusing head relative to the diffuser base. The air blade may extend through the collar of the diffuser base. Installing the diffusing vent assembly may include engaging the ductwork fixation channel with a supply duct, inserting the diffusing head into the diffuser base, and securing the diffusing head and the diffuser base using the complimentary rotational securement members.

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.

Disclosed is a cover accessory device that is configured for being threaded onto a flexible cover designed to cover vehicles (e.g., boats, cars, etc.) or structures (e.g., tents). The cover accessory device may provide any one or all of a venting function, supporting function, and a bling function.

A headliner trim for a motor vehicle includes a main body, at least one air channel formed in the main body for conducting an air flow through the main body, and at least one air outlet opening formed in the main body, through which air outlet opening the air flow conducted in the air channel can flow into the interior of the motor vehicle. The main body is formed from a particle foam, such as expanded polypropylene (EPP) or expanded polyethylene (EPE).

An air circulator for a vehicle is provided. The air circulator includes a blower case and a connection duct that is connected to an outlet of the blower case. The connector duct includes a first path and a second path that are divided by a separation plate. Additionally, a filter is mounted in the outlet of the blower case and an inlet door is mounted in the blower case to selectively allow air to be blown into the first path and/or the second path.

Aspects of the disclosure relate cleaning systems for cleaning cabin air and interior surfaces of a vehicle. For instance, a cleaning system may include a surface cleaning device including a UVC light source. In addition, a request for confirmation that the vehicle may not be occupied may be sent to a remote computing device. In response to the request, a signal indicating whether or not the vehicle is occupied may be received. The surface cleaning device may then be activated based on the signal.

A vehicle cabin airflow forming device includes an airflow forming unit. The airflow forming unit is configured to form airflows circulating around seating space of a seat and form, as part of the airflows, an ascending airflow on one lateral side of the seating space, and a descending airflow on the other lateral side of the seating space. The seat is provided inside a vehicle cabin, and the airflows circulate around the seating space as viewed from a front side of the seat.

An air filtration system for a vehicle includes a first inlet assembly. A second inlet assembly is in fluid communication with the first inlet assembly. A first fan is disposed within a housing and is in fluid communication with the first inlet assembly. A second fan is disposed within the housing and is in fluid communication with the second inlet assembly. A light source is disposed within the housing proximate the first and second fans. The light source emits ultraviolet light. A filter is disposed within the housing proximate the first and second fans. An outlet is in fluid communication with the first and second inlet assemblies. Air is drawn into the housing by the first and second fans, subjected to the ultraviolet light, and expelled via the outlet.

The present disclosure provides an air conditioning device for a vehicle. The air conditioning device includes an air conditioning unit disposed in at least one of front or rear of the vehicle. The air conditioning device further includes a duct unit blowing air of the air conditioning unit into an interior and extending inside of at least one of a front pillar or a rear pillar. The air conditioning device further includes a vent unit communicating with the duct unit through a connecting duct and selectively opening and closing a discharge path of at least one of a main path, a first path, or a second path so as to discharge the blown air to a side of a roof frame.

A refrigeration duct system configured for use in a transportation vehicle having a cargo space and a refrigerator unit, the cargo space having a ceiling and cargo doors at a rear end thereof. The refrigeration duct system includes an elongated refrigeration duct disposed adjacent to the ceiling of the cargo space having a proximal end and a distal end, the refrigeration duct including a plurality of cold air outlets arranged along the length of the duct in which each of the cold air outlets has a downstream edge transverse to the refrigeration duct. The duct also includes a plurality of curved flaps operably connected respectively to at least some of the plurality of cold air outlets at the downstream edge of the cold air outlets in which the curved flaps are configured to direct cold air from the refrigerator unit in a downward direction.