The present invention relates to a roof air vent for a vehicle and, more specifically, to a roof air vent which permits a passenger onboard the vehicle to conveniently control, as needed, a wide distribution of air being supplied into the vehicle through the roof air vent. The roof air vent comprises: an outer bezel (110) which has an air flow hole (111) penetrated in the central portion thereof and has a mounting hole (112) penetrated in an outer region of the air flow hole (111); a spacer ring (160) which is mounted in the air flow hole (111); a plurality of vanes (140), each of which has both lateral ends rotatably coupled to a hinge shaft (161) formed on the inner surface of the spacer ring (160); a link (150) which connects one vane (140) to another vane (140) so as to allow the plurality of vanes (140) to simultaneously rotate about the hinge shaft (161); an inner bezel (120) which is mounted so as to be able to vertically enter and exit the mounting hole (112) formed in the outer region of the air flow hole (111); and a cover (170) which is mounted on the upper part of the outer bezel (110) so as to prevent the inner bezel (120) and the spacer ring (160) from being separated from the air flow hole (111) and the mounting hole (112), respectively.

An inflator bracket includes an elongate body having a first end and a second end. The elongate body defines an aperture proximate to the first end. A hook extends from the first end. An absorption feature has a proximal end coupled to the elongate body proximate to the aperture. The absorption feature defines a curve between the proximal end and a distal end. The distal end is spaced from the elongate body and the aperture.

A riding vehicle is provided with a downdraft fan assembly mounted on a vehicle roll bar for providing a flow of ambient air over the vehicle operator and a canopy carried by the fan assembly and providing solar and precipitation protection for the operator.

The present disclosure relates to a mounting assembly for attaching a ventilation device to a structure. The structure comprises an inner surface, an outer surface, and a first opening extending therebetween. The mounting assembly comprises an outer protective member configured to have a top side and a bottom side, a plurality of sealing members, at least one gasket, a bottom mounting member, and a plurality of bolts. The mounting assembly of the present disclosure enables a watertight seal and weatherproof installation of the ventilation device to the structure and prevents theft of the ventilation device. Moreover, the mounting assembly enables easy installation of the ventilation device using one or more components of the mounting assembly, consumes less time, enables easy removal, and is reusable with other ventilation devices. The mounting assembly is cost effective.

The present embodiments relate to an air distribution apparatus for distributing conditioned airflow from a roof mounted air conditioner to the inside of a vehicle, which includes an inlet port adapted to receive the conditioned airflow from the roof mounted air conditioner. An outlet port, which is disposed adjacent to each longitudinal end of the apparatus, delivers conditioned airflow to the vehicle. An internal supply duct is adapted to evenly split the conditioned airflow to the outlet ports.

A vent for mobile living quarters has a base and a cover coupled to the base. The cover is connected to the base and pivots about a hinge by a mechanism that is coupled to a moving bar. The moving bar is attached to the cover by fasteners on one end and an alignment tab on the opposite end. The cover is user-replaceable from the top side without having to move or disconnect the mechanism. To replace the cover, fasteners are removed and the cover is pivoted away from the moving bar, where the alignment tab disengages from the cover. The cover is then slidable along the hinge to completely remove the cover from the base. A new replacement cover is slid along the hinge and the alignment tab is engaged with the replacement cover. The cover is pivoted down to a closed position and the fasteners are reinstalled.

The present embodiments relate to an air distribution apparatus for distributing conditioned airflow from a roof mounted air conditioner to the inside of a vehicle, which includes an inlet port adapted to receive the conditioned airflow from the roof mounted air conditioner. An outlet port, which is disposed adjacent to each longitudinal end of the apparatus, delivers conditioned airflow to the vehicle. An internal supply duct is adapted to evenly split the conditioned airflow to the outlet ports.

A motor vehicle has a body with has a frontseat region and a backseat region, and has at least one installation part or fixture between the frontseat region and the backseat region. The at least one installation part or fixture is provided with a fan which is fluidically connected to at least one flow duct which opens towards the backseat region.

An air purification apparatus for a vehicle includes a main body, and a solar module covering at least a portion of the main body and providing power to the main body. The main body is assembled on a sunroof of the vehicle, and includes a first passage connected with the sunroof of the vehicle. A cover plate is slidably assembled with the main body and capable of sliding along the main body to open or close the first passage. The main body further includes a purification module, an air inlet module having an air inlet passage capable of receiving air from outside the vehicle for the purification module to purify the received air, and an air outlet module having an air outlet passage configured to discharge air from inside the vehicle to outside the vehicle.

The present embodiments relate to an air distribution apparatus for distributing conditioned airflow from a roof mounted air conditioner to the inside of a vehicle, which includes an inlet port adapted to receive the conditioned airflow from the roof mounted air conditioner. An outlet port, which is disposed adjacent to each longitudinal end of the apparatus, delivers conditioned airflow to the vehicle. An internal supply duct is adapted to evenly split the conditioned airflow to the outlet ports.