An induction heating device as claimed in claim 1 wherein said electrically insulating and thermoconductive material is a composite material comprised of synthetic resins and aluminum powder.ħ.
An induction heating device as claimed in claim 1 wherein said electrically insulating and thermoconductive material is a composite material comprised of synthetic resins and copper powder.Ħ. An induction heating device as claimed in claim 1 wherein said housing is a rectangular housing having a bottom induction surface shaped according to the geometry of the heated workpiece surface, and a metal shield in at least a top wall and two sidewalls of said housing to electromagnetically shield said inductor.ĥ. An induction heating device as claimed in claim 1 wherein said housing material is a composite moulded material comprising ceramic powder and fiberglass, said housing being covered with non-electrically conducting and heat-reflecting paint to reduce heat transfer by external radiation back to said induction surface.Ĥ. An induction heating device as claimed in claim 1 wherein said core is a E-shaped core of ferrite material having a high magnetic permeability, said core having opposed arms the ends of which constitutes said opposed poles and a central leg about which said Litz coil is wound.ģ. An induction heating device for heating electroconductive and mainly ferromagnetic material surfaces to temperatures up to 300° C., said device comprising an open core of ferrite material, a coil of Litz wire wound around said core, a power source connected across said coil to produce an excitation current in said coil within a frequency range of 12 to 25 kHz to generate a magnetic field when energized, magnetic flux concentrator tubes of electrically highly conductive material are disposed between magnetic poles of said core in order to repel and concentrate the magnetic flux lines outside said poles by means of induced eddy currents in said concentrator tubes, said concentrator tubes being placed adjacent to said coil, said concentrator tubes and coil being set into a housing of thermo-conductive, electrically-insulating material and having a cooling fluid circulating through said concentrator tubes for cooling said core and said coil, said magnetic flux lines being able to generate powerful superficial eddy currents and heat in electrically conducting surfaces placed in front of said poles.Ģ.
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