A thermoelectric fabric may include a plurality of first threads and second threads. The first threads may be alternately formed by p-doped and n-doped thread portions and electrically conductive first thread portions and second thread portions arranged in between. The first thread portions may form a hot side of the fabric, and the second thread portions may form a cold side. The first threads may form one of warp threads or weft threads of the fabric, and the second threads may form the other of the warp threads or weft threads. On at least one of the first thread portions of at least one of the plurality of first threads, a temperature control structure with at least one temperature control element for cooling the hot side may be present.

An easy entrance/exit system for a vehicle includes a vehicle seat, a pad, a pad-side magnetic device, and a seat-side magnet. The vehicle seat includes a seat base. The pad is supported atop the seat base for swiveling about a pivot point. The pad-side magnetic device is coupled to the pad at the pivot point. The seat-side magnet is within the seat base at the pivot point. The seat-side magnet is configured to apply a magnetic field to the pad-side magnetic device to govern swiveling of the pad about the pivot point.

The present invention relates to a temperature-controlled child support and transfer device for cooling and warming a child positioned in the seat. More specifically, the seat has a Peltier unit for controlling temperature of air blowing onto the seat and has a fan unit for blowing air. The seat has a power source, a temperature control to control temperature and a fan control to control speed of the fan. In another embodiment, the seat has heating grids for providing heat to the seat and a fan unit coupled to a conduit for blowing cool air onto the seat. The seat can be used with vehicle, stroller, swing, crib, or bassinet.

Disclose are is method of manufacturing a ventilation sheet for a vehicle. The ventilation sheet for a vehicle is manufactured by performing anti-fouling finishing treatment using an anti-fouling coating agent including an anti-fouling composition. The anti-fouling properties can be improved to prevent the sheet from being fouled, and flame-retardant treatment is performed through a flame-retardant aqueous solution including flame-retardant PET fiber and flame retardant in bath so that the deterioration of flame retardancy caused by the improved anti-fouling properties can be prevented through the flame-retardant treatment while ventilation properties are maintained.

A vehicular air conditioner includes a first outlet that blows a conditioned air frontward to flow past a neck part of an occupant on a seat, and a second outlet that is provided below the first outlet and blows the conditioned air upward to flow past an armpit part of the occupant. The second outlet blows the conditioned air to merge with the conditioned air blown from the first outlet. The second outlet blows the conditioned air with an airflow volume larger than an airflow volume of the conditioned air from the first outlet such that the conditioned air blown from the second outlet guides the conditioned air blown from the first outlet to flow along a face of the occupant.

A vehicle cockpit component (10, 12, 14, 16, 18) with a heating device that comprises a polyurethane-based foam charged and/or impregnated with an electrically conductive filler (1) which is directly connected to means for generating a potential difference (7a, 7b; 11a, 11b; 13a, 13b) for generating heat by Joule effect is provided. The polyurethane-based foam charged and/or impregnated with an electrically conductive filler (1) is used for manufacturing the padding or the upholstery of the vehicle cockpit component (10, 12, 14, 16, 18) or one or more portions of the padding or upholstery. The heating device is intrinsic to the vehicle cockpit component and does not require the provision of additional, separate components.

A vehicle cockpit component (10, 12, 14, 16, 18) with a heating device that comprises a polyurethane-based foam charged and/or impregnated with an electrically conductive filler (1) which is directly connected to means for generating a potential difference (7a, 7b; 11a, 11b; 13a, 13b) for generating heat by Joule effect is provided. The polyurethane-based foam charged and/or impregnated with an electrically conductive filler (1) is used for manufacturing the padding or the upholstery of the vehicle cockpit component (10, 12, 14, 16, 18) or one or more portions of the padding or upholstery. The heating device is intrinsic to the vehicle cockpit component and does not require the provision of additional, separate components.

An automobile with a construct and components with an appearance of an airplane. The back seats, and optionally the front seats, are bench style, with armrests that may be rotated out of position and located at opposing sides of the seat when the seat is a two-person bench. For a three-person bench, there are intermediate armrests. The airplane-type seats include headrests integrated into the seat rather than being extendible from the top of the seat. The bench seat is removably affixed to an underlying support substrate, which may be substantially hollow and arranged to enable access to storage within the support substrate. The interior of the automobile of the present invention includes controllable lighting and air located above the passenger's head, either directly or to the side above a window. An instrument and control panel that supplies the driver with information and control expected for an automobile is configured with the appearance and content of an instrument and control panel a pilot would expect to see in an airplane. Controls are positioned sufficiently close to the driver to be accessed and employed as needed. Wheels of the automobile of the present invention are designed to give the appearance of the stators or rotors of an airplane jet engine.

An automobile with a construct and components with an appearance of an airplane. The back seats, and optionally the front seats, are bench style, with armrests that may be rotated out of position and located at opposing sides of the seat when the seat is a two-person bench. For a three-person bench, there are intermediate armrests. The airplane-type seats include headrests integrated into the seat rather than being extendible from the top of the seat. The bench seat is removably affixed to an underlying support substrate, which may be substantially hollow and arranged to enable access to storage within the support substrate. The interior of the automobile of the present invention includes controllable lighting and air located above the passenger's head, either directly or to the side above a window. An instrument and control panel that supplies the driver with information and control expected for an automobile is configured with the appearance and content of an instrument and control panel a pilot would expect to see in an airplane. Controls are positioned sufficiently close to the driver to be accessed and employed as needed. Wheels of the automobile of the present invention are designed to give the appearance of the stators or rotors of an airplane jet engine.

A temperature control method for vehicle seat heating includes: when turning on or switching to a heating level, determining a heating period at present according to a temperature value corresponding to a current Negative Temperature Coefficient (NTC) sensor, the heating period including an initial heating stage, an approaching stage and a steady stage; and segmentally controlling the on-off of a seat heating apparatus according to a heating strategy corresponding to each heating period, so that the seat surface temperature reaches to and stabilizes at an expected target temperature of the level. Further disclosed are a corresponding temperature control apparatus for the vehicle seat heating and a temperature control system for the vehicle seat heating. By adopting the temperature control method for the vehicle seat heating, the seat surface temperature can quickly reach to and stabilize at the expected temperature value, and thus the use experience of a user is improved.