A vehicle temperature control system, for electric motor-powered vehicles or hybrid vehicles, includes a heater (18), which can be operated electrically or/and with fuel, with a first heat exchanger device (16) for transferring heat provided in the heater (18) to a first heat carrier medium provided in a first heat carrier medium circuit (12). An operating material tank (20) holds a liquid operating material (24). A second heat exchanger device (26) provides heat transfer between the first heat carrier medium provided in the first heat carrier medium circuit (12) and energy storage material (36) contained in the operating material tank (20). A third heat exchanger device (38) provides heat transfer between the first heat carrier medium provided in the first heat carrier medium circuit (12) and a second heat carrier medium provided in a second heat carrier medium circuit (40).

A radiant heater for a vehicle may include a heat generation device which is coupled to a first surface of a steering column cover through a hinge, has one or more heat generators generating radiant heat, and can rotate with respect to the first surface of the steering column cover by the hinge so that the distance between the heat generators and a heat reception portion can be adjusted.

An auxiliary heater with a casing enclosing internal components which components include a heat exchanger separate from and outside the coolant tank and wherein two coolant loops each have their own coolant pumps and wherein a potable water loop exchanges heat with coolant within the heat exchanger. A control circuit provides enhanced coolant flow through the heat exchanger when the call for hot water is significant without significantly reducing the temperature of the hot water being used. A level switch within the coolant tank prevents coolant pumps from running without pump coolant and a filling and air purging operation improves the initial filling operation of the auxiliary heater with coolant and also prevents the coolant pump from running dry. A user switch may dedicate the hot coolant from the coolant tank to either the production of hot potable water or it may share both hot water and space heating.

Automotive trim part with an integrated heating device comprising at least an air permeable fibrous layer, a facing layer and a heating element, whereby the heating element is between the facing layer and the air permeable layer and materially connected to the adjacent layers, and further comprising means-for-connecting the heating element to a power supply, characterized in that at least part of the means-for-connecting and at least part of the material of the adjacent layer or layers are engulfed by a resin such that the means-for-connecting are at least partly encapsulated in the thermoplastic resin and materially connected to the adjacent layers.

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).

A motor-vehicle conduit component encompassing an inherently rigid conduit structure having a conduit wall that surrounds a fluid-carrying volume embodied for the passage of a fluid along a virtual conduit path; the virtual conduit path notionally penetrating centrally through the fluid-carrying volume; a plurality of electrical conductors being arranged on and/or in the conduit wall, each electrical conductor of which is electrically conductively contactable from outside the conduit component at least at a first contact location and at a second contact location arranged with a spacing along the conduit path from the first contact location; the conduit structure being inherently rigid, and the plurality of electrical conductors having a first conductor group constituting a power conductor group and having a lower length-related resistance, and a second conductor group constituting a signal conductor group and having a higher length-related resistance.

An overhead automatic Heating, Ventilation, and Air Conditioning (HVAC) apparatus can be installed in an overhead surface within various types of vehicles, structures, and buildings, in order to maintain comfortable temperature inside of the respective environment. The overhead automatic HVAC apparatus can be installed in the roof of an automobile, allowing the driver to return to a comfortable temperature. Also this provides safety, preventing a child left inside of the automobile from being harmed due to extreme temperatures. The overhead automatic HVAC apparatus can be installed in a roof of a military vehicle, such as an High Mobility Multipurpose Wheeled Vehicle (HMMWV), or the ceiling of an office inside of a commercial building. The overhead automatic HVAC apparatus can be self-powered, including a battery and a solar-powered generator which allows the overhead automatic HVAC apparatus to run when conventional AC units are off, reduces costs, and power consumption.

The invention relates to a multi-zone air conditioning system for vehicles (1) with several air conditioning zones (2), in particular for buses, characterized thereby that an air temperature control unit (3) is implemented to generate simultaneously warm air and cold air, wherein the cold air across a cold air duct (5) and the warm air across a warm air duct (6) extend separated from one another as a double conduit over the length of the vehicle (1) and that decentralized air mixing units (4) with at least one air outlet (20) are disposed along the double conduit and that the air outlets (20) are assigned to the air conditioning zones (2) of the vehicle (1).

An air deflector bar extends parallel to an upper edge of a front windscreen of a motor vehicle. The air deflector bar includes an air deflection channel that extends along its length. The air deflection channel is concavely delimited in cross section by means of a first side that butts against the front windscreen and a second side that is connected to the first side and is at a distance from the first side. The inner surface of the second side of the air deflector bar is oriented toward an edge of a dashboard of the motor vehicle, which edge delimits the dashboard toward a passenger interior.

A heater unit emits radiation heat caused by heat generated with a heat generation unit when energized. The heater device includes a contact detection unit having a contact detection region overlying the heater unit to detect a contact by an object on the contact detection region. The heater device includes a determination unit to determine, when a contact by the object on the contact detection region is detected by the contact detection unit, whether the contact is for a predetermined switching operation. A control unit stops energization of the heat generation unit when the determination unit determines that the contact is not for the predetermined switching operation. The control unit switches between a start and a stop of energization of the heat generation unit when the determination unit determines that the contact is for the switching operation.