초록 ▼

A composite cooking apparatus having a body, a heating unit, and an induction heating unit. The heating unit is positioned in the body to generate heat used to heat food. The induction heating unit is positioned adjacent to the heating unit to generate a magnetic field to cook the food by induction

A composite cooking apparatus having a body, a heating unit, and an induction heating unit. The heating unit is positioned in the body to generate heat used to heat food. The induction heating unit is positioned adjacent to the heating unit to generate a magnetic field to cook the food by induction heating. The induction heating unit has at least one wire, a coating of which is exposed to an electron beam to strengthen a heat resistance thereof.

대표청구항 ▼

What is claimed is: 1. A composite cooking apparatus, comprising: a body; a heating unit positioned in the body to generate heat used to heat food, the heating unit including a fiber fabric having finely particulated ceramic materials and conductive carbon particles uniformly distributed thereon; a

What is claimed is: 1. A composite cooking apparatus, comprising: a body; a heating unit positioned in the body to generate heat used to heat food, the heating unit including a fiber fabric having finely particulated ceramic materials and conductive carbon particles uniformly distributed thereon; and an induction heating unit positioned adjacent to the heating unit to generate a magnetic field to cook the food by induction heating, the induction heating unit having at least one coated wire, wherein a coating of the wire has been exposed to an electron beam that changes a molecular structure of the coating, to strengthen a heat resistance thereof. 2. The composite cooking apparatus according to claim 1, wherein the molecular structure of the coating is changed from an initial linear structure to a mesh structure after the coating is exposed to the electron beam. 3. The composite cooking apparatus according to claim 1, wherein the induction heating unit is wound in a spiral. 4. The composite cooking apparatus according to claim 1, wherein the at least one wire comprises a magnetic viscosity layer. 5. A composite cooking apparatus, comprising: a body; a planar heating element comprising a fiber fabric having finely particulated ceramic materials and conductive carbon particles uniformly distributed thereon, the planar heating element being placed in the body to generate heat used to heat food; and a work coil placed below the heating element to generate a magnetic field to cook the food by induction heating, the work coil being provided with a coating, wherein the coating has been exposed to an electron beam that changes a molecular structure of the coating, to strengthen a heat resistance thereof. 6. The composite cooking apparatus according to claim 5, wherein the molecular structure of the coating is changed from an initial linear structure to a mesh structure after the coating is exposed to the electron beam. 7. The composite cooking apparatus according to claim 5, wherein the work coil is wound in a spiral. 8. A composite cooking apparatus, comprising: a first heating unit generating heat transferred to a cooking container; and a second heating unit, comprising a wire with a coating exposed to an electron beam to strengthen a heat resistance of the coating, and selectively generating a magnetic field, magnetic force lines of which pass through a bottom of the cooking container, wherein the first heating unit comprises a planar heating element including a fiber fabric having finely particulated ceramic materials and conductive carbon particles uniformly distributed thereon. 9. The composite cooking apparatus according to claim 8, wherein: the second heating unit is adjacent to the first heating unit and separated from the first heating unit by a predetermined space; and the composite cooking apparatus further comprises a fan moving air through the predetermined space. 10. The composite cooking apparatus according to claim 9, further comprising: a body having an inlet and an outlet, wherein an air moving path is defined between inlet and the outlet to guide air moved by the fan, and includes the predetermined space. 11. The composite cooking apparatus according to claim 8, wherein when the coating is exposed to the electron beam, linearly bound atoms of the coating form covalent bonds therebetween. 12. The composite cooking apparatus according to claim 8, wherein the induction heating unit comprises a Litz wire wound in a spiral. 13. A composite cooking apparatus, comprising: a body having a cooking surface and air inlets and outlets defining respective ends of an air moving path; a heat resisting plate disposed on the cooking surface; a planar heating element, contacting the heat resisting plate, and comprising a fiber fabric having finely particulated ceramic materials and conductive carbon particles uniformly distributed thereon; an induction heating unit adjacent to the planar heating element and separated from the heating element by a predetermined space, the induction unit comprising a wire with a coating exposed to an electron beam to strengthen a heat resistance thereof; and a fan forcing air through the air moving path, the predetermined space being included in the air moving path.