A conductor in composite is disclosed. In various embodiments, an electrically conductive structure, such as an electrically conductive metal, is sandwiched between insulating material and two or more layers of fiber reinforced composite material, to form a stack that is used to form a composite structure that includes the electrically conductive layer. The layer may comprise an electrical line, trace, bus, etc. to conduct electricity from one location to another within the composite structure, such as to connect a battery or other power source at one location to an electrical load at another location.

The present disclosure relates to an induction range of an upper and lower heating type having an advantage of simply cooking a cooking object such as instant food packaged in a food packaging box in a short time, making food taste good by alternately heating upper and lower parts of the cooking object, preventing an electric control device from being burned out by applying an alternating heating type for excluding mutual induction interference between an upper heating unit and a lower heating unit for heating the cooking object, and preventing a burn occurring at the time of gripping the heated cooking object and promoting cleanliness by installing a separate cooling device used for cooling the cooking object or for deodorizing the cooking object.

An induction coil assembly includes an annular member extending from a first end to a second end, and extending about a longitudinal axis; a first leg extending from the first end of the annular member, and including a first electrical connection portion and a first axial portion; and a second leg extending from the second end of the annular member, and including a second electrical connection portion and a second axial portion. An internal surface of the annular member defines a first fluid passage through the annular member. An internal surface of the first leg defines a second fluid passage through the first leg. An internal surface of the second leg defines a third fluid passage through the second leg. The second fluid passage is in fluid communication with the third fluid passage via the first fluid passage.

A structure for wireless communication having a plurality of conductor layers, an insulator layer separating each of the conductor layers, and at least one connector connecting two of the conductor layers wherein an electrical resistance is reduced when an electrical signal is induced in the resonator at a predetermined frequency. The structure is capable of transmitting or receiving electrical energy and/or data at various near and far field magnetic coupling frequencies.

Disclosed is an induction coil arrangement for use with an apparatus for heating smokable material to volatilize at least one component of the smokable material. The induction coil arrangement includes a plate having opposite first and second sides, a first flat spiral coil of electrically-conductive material mounted on the first side of the plate, and a second flat spiral coil of electrically-conductive material mounted on the second side of the plate.

A cooking device includes a heating coil having at least two windings. A fixing device is provided to fix the heating coil at least partially mechanically in an assembled state. The fixing device includes a support unit and a retaining unit, which in the assembled state fixes each of the at least two windings separately on the support unit.

A heating coil includes a pair of linear lead portions adapted to be connected to a power supply, and a ring-shaped or coil-shaped head portion having end portions connected to the lead portions respectively. A flow path through which a cooling medium flows is formed inside the lead portions and the head portion. An outer circumferential surface of the head portion has a circular or elliptical cross section and is configured to face a heating target portion of an inner circumferential surface of a work extending, the heating target portion extending in a circumferential direction of the work. Each of the lead portions has a straight side portion in a plane intersecting a longitudinal direction of the lead portions, the straight side portions of the lead portions being arranged in proximity to each other.

A cooking appliance, in particular an induction oven appliance, includes a cavity having a wall, at least one induction heating element, and at least one electrically conductive screening element for screening an electric and/or magnetic field generated by the induction heating element. The induction heating element can be arranged on the wall of the cavity.

Aspects and embodiments of inductively heated tank cars are described. In one embodiment, an inductive heating system includes an inductive heating module with a radially-curved pancake coil. The heating module can be positioned by an actuator assembly to inductively heat the contents of a tank car. In one example, the actuator assembly includes an assembly base including at least one base pole, an extension channel, and an extension actuator. The actuator assembly also includes an extension arm to retract into and extend out from the extension channel based on the extension actuator, an inductive heating module pivotally secured about an end of the extension arm, and a heating module lift actuator to lift the inductive heating module about the pivot at the end of the extension arm. By lifting and/or pivoting the inductive heating module, it can be positioned proximate to the tank car for inductive heat transfer.

A method for manufacturing an induction coil assembly is disclosed. The method includes preparing a Computer Aided Design (CAD) model of an induction coil. The method further includes communicating the CAD model of the induction coil with a Three Dimensional (3D) printing machine The method further includes operating the 3D printing machine to deposit a plurality of layers of copper material one above other to manufacture the induction coil corresponding to the CAD model. The method further includes forming at least one hole in an annular member of the induction coil to receive a coolant and at least one hole in a first leg and a second leg to discharge the coolant.