A temperature control layer, for example for an interior trim of a vehicle or a vehicle part is disclosed. The temperature control layer includes an areal thermoelectrical temperature control arrangement with at least one thermoelectrical element and an air extraction arrangement with at least one air extraction duct. The at least one air extraction duct leads from an outside of the temperature control layer through the temperature control arrangement to an inside of the temperature control layer.

A radiant panel (3) intended to be installed inside a passenger compartment (1) of a vehicle (2), a motor vehicle for example, is disclosed. The radiant panel (3) includes a dissipative region (10) arranged to generate heat by Joule heating and at least one functional component (17) arranged to perform at least one function other than generating heat by Joule heating in the dissipative region (10).

An interior trim of a motor vehicle. The interior trim includes a substrate with an outer side which faces an interior of the motor vehicle, a heating film with an outer surface which faces the interior of the motor vehicle, and a decorative layer. The heating film is attached to the outer surface of the substrate. The decorative layer is attached to the outer surface of the heating film. The heating film has no conducting paths and generates heat through an ohmic resistance of the heating film.

A heater panel includes a face layer. A heater/dielectric layer includes a heater layer between a pair of dielectric layers. The face layer is bonded to a first one of the dielectric layers. A ballistic structure is bonded to a second one of the dielectric layers. The face layer can be bonded directly to the first one of the dielectric layers with a film adhesive. The ballistic structure can be bonded directly to the second one of the dielectric layers with a film adhesive. The ballistic structure can be configured to withstand at least a 5.56 mm bullet impact.

A method (7) for controlling the temperature of a heating surface (5) of a heating panel (1) suitable for being installed inside a passenger compartment of a vehicle, for example a motor vehicle, this surface (5) being likely to be touched by a passenger in said passenger compartment, the method (7) involving controlling the temperature of said heating surface (5) as a function of at least one item of data representative of the profile of a passenger accommodated in the passenger compartment and/or at least one item of data representative of the heating surface (5) of the heating panel (1). The invention also relates to a corresponding control device (15).

Provided is a novel heating system for an electric vehicle.

A heating system for a vehicle compartment includes: a heat source storage chamber disposed below a vehicle compartment floor of an electric vehicle and configured to store at least one heat source element unit selected from an automotive battery, a motor, a converter, and an inverter; and a connection chamber configured to connect between the heat source storage chamber and the vehicle compartment. A heat exchange medium flows in the heat source storage chamber and the connection chamber. The heat source element unit and air in the vehicle compartment exchange heat with each other through the heat exchange medium.

A thermoelectric module includes a first thermoelectric material, a second thermoelectric material spaced apart from the first thermoelectric material, and a stretching element selectively connected between the first thermoelectric material and the second thermoelectric material, wherein the stretching element is stretchable.

A heat generator using a Carbon Nano Tube (CNT) composite material includes: an outer electrode part; an inner electrode part which faces the outer electrode part and is spaced apart from the outer electrode part at a predetermined distance; a connection part which connects the outer electrode part with the inner electrode part; and a bracket part which is disposed in the outer electrode part and the inner electrode part including the connection part to shield the outer electrode part, the inner electrode part and the connection part from each other. A surface of the connection part does not face directly the outer electrode part and the inner electrode part. The outer electrode part and the inner electrode part include electrodes having polarities different from each other.

A temperature control method, including periodically sensing an air temperature of a space, and periodically sensing a surface temperature of each of a plurality of interior surfaces; in response to the air temperature and the surface temperatures being less than a target temperature, calculating an air heating duration of an air conditioner and a surface heating duration of each of a plurality of heater devices arranged in an array according to the target temperature, the air temperature and the surface temperatures; performing an air heating operation according to the air heating duration and performing surface heating operations according to the surface heating durations; and in response to the air temperature currently sensed and the surface temperatures currently sensed reaching the target temperature, instructing the air conditioner to stop performing the air heating operation.

There is provided a passenger compartment structure that can save power while ensuring thermal comfort of an occupant. The passenger compartment structure allows control of thermal comfort of the occupant in a posture seated on a seat. The passenger compartment structure includes a layered structure constituting at least part of an interior member disposed at a position where the interior member is able to face a lower leg of the occupant. The layered structure disposed in each of a front middle portion, a front lower portion, a frontal lower portion, and a right surface front upper portion having a high geometric factor for the lower leg includes a surface layer, a structural parent layer, and a temperature control mechanism layer interposed between the surface layer and the structural parent layer.