A vehicle seat includes a seat frame including a pan frame (12), a blower, and a bracket (50) configured to attach the blower to the pan frame (12). The bracket (50) is provided with a first engagement portion (110) protruding toward the pan frame (12), and the pan frame (12) is provided with a first engagement hole (12A) in which the first engagement portion (110) is engageable. The first engagement portion (110) includes a first stopper portion (112) configured to be locked to the pan frame (12) when the first engagement portion (110) is engaged in the first engagement hole (12A), and a first elastically deformable portion (113) configured to deform elastically to allow the first stopper portion (112) to pass through the first engagement hole (12A) when the first engagement portion (110) is inserted into the first engagement hole (12A).

A table apparatus for a vehicle including: a table having a substantially horizontal upper surface in a region directly above a seating surface of a vehicle seat; a heat source provided to the table and configured to perform heat radiation from a lower surface side of the table; and a table moving mechanism configured to move the table so as to change a position of the table with respect to the vehicle seat, wherein a position of the heat source with respect to the vehicle seat is changed by moving the table by the table moving mechanism.

A temperature management system for an occupant supporting device comprising an air-circulating circuit is provided, the air-circulating circuit comprising: an air distributing device; a main power device for circulating the air in the air-circulating circuit; and a temperature adjusting device for adjusting the temperature of the air in the air-circulating circuit, wherein an airflow, which has been temperature adjusted by the temperature adjusting device, out of the main power device comprises at least a first portion which flows into the air distributing device and a second portion which returns back to the main power device after circulating within the air-circulating circuit, and wherein the airflow which returns back to the main power device will be adjusted by the temperature adjusting device and circulated in the air-circulating circuit again. A seat cushion and a seat backrest comprising the temperature management system, and an occupant supporting device comprising the seat cushion and the seat backrest are also provided. The occupant supporting device can be a seat or a bed.

The present invention relates to an aircraft seat having a seat base, a seat unit, and a floor attachment assembly, where a first side of the seat base is configured to be fastened to the seat unit, and a second side of the seat base is configured to be fastened to the floor attachment assembly, and the floor attachment assembly is configured to be mechanically connected to a floor structure of an aircraft in order to fasten the aircraft seat to the aircraft, where the seat base is formed by at least one flexurally rigid shell component, where the shell component has a cavity for receiving at least one functional element, with the cavity being closed. A first heat-transfer element having an inner portion and an outer portion is provided, with the inner portion being assigned to the cavity and being in contact with the functional element in order to absorb thermal energy generated by the functional element, and the outer portion being assigned to an external environment of the shell component in order to dissipate the thermal energy absorbed from the functional element to the environment.

An air distribution coupling interface is configured to removably secure to a floor of an internal cabin of a vehicle. The air distribution coupling interface includes a main tube extending between an air inlet port and an air outlet port. The air inlet port is configured to couple to one or more conduits that are in fluid communication with an air distribution system. A securing flange is configured to removably secure the air distribution coupling interface to the floor of the internal cabin. The air outlet port is configured to deliver airflow provided by the air distribution system.

An infection preventing device includes air barrier forming units that include an air inlet for taking in air from a rear in a front-rear direction, an air purification mechanism for creating clean air by purifying the air taken in from the air inlet, and an air outlet for blowing the clean air toward the front in the front-rear direction, and are capable of blowing out the clean air from the air outlet in the form of layer perpendicular to the left-right direction. The air barrier forming units provided on the seats adjacent in the front-rear direction face in the front-rear direction, and it is configured that air including clean air blown out of the air outlet of the rear air barrier forming unit can be taken in by the air inlet of the front air barrier forming unit.

A system and method according to which goods and services are provided during vehicular travel. In an exemplary embodiment, the vehicle is an airplane operated by a commercial airline.

An aircraft occupant seat for providing health, safety, and comfort management to aircraft occupants is disclosed. In one embodiment, an aircraft occupant, seated in an aircraft occupant seat in an aircraft, is monitored for health, safety and comfort information using at least one sensor disposed in the aircraft occupant seat. Further, background auditory, electrical noise, temperature and mechanical vibration associated with the aircraft occupant seat is measured using the at least one sensor. The health, safety and comfort information associated with the aircraft occupant is then obtained using the monitored health safety and comfort information and the measured background electrical noise and mechanical vibration. Health, safety and comfort of the aircraft occupant are then managed based on the obtained health, safety and comfort information.

An aircraft occupant health, safety, and comfort management is disclosed. In one embodiment, an aircraft occupant, seated in an aircraft occupant seat in an aircraft, substantially around the aircraft occupant seat is monitored for health, safety and comfort information using at least one sensor disposed in the aircraft occupant seat and/or substantially around the aircraft occupant seat. Further, background auditory, electrical noise, temperature and mechanical vibration associated with the aircraft occupant seat is measured using the at least one sensor. The health, safety and comfort information associated with the aircraft occupant is then obtained using the monitored health safety and comfort information and the measured background electrical noise and mechanical vibration. Health, safety and comfort of the aircraft occupant are then managed based on the obtained health, safety and comfort information.

A table apparatus for a vehicle including: a table having a substantially horizontal upper surface in a region directly above a seating surface of a vehicle seat; a heat source provided to the table and configured to perform heat radiation from a lower surface side of the table; and a table moving mechanism configured to move the table so as to change a position of the table with respect to the vehicle seat, wherein a position of the heat source with respect to the vehicle seat is changed by moving the table by the table moving mechanism.