▎ 摘　　要

NOVELTY - The shoe has a first heating element which is configured between a midsole and an insole of the shoe to generate heat from the bottom surface. A second heating element is configured on one side of an upper (110) of the shoe to generate heat in the heel portion. A power supply unit is configured on one side of the shoe to supply power to the first and second heating elements. A front upper (111) and a rear upper (112) have inner caps (111a,112a) for maintaining shape. The heat insulation layers (111c,112c) are mounted on the outside of the cap portions so as not to be released into the heat insulating layers and the finishing layers (111b,112b) which are formed of leather. A graphene-coated carbon fiber heating element comprises a silicone coating layer surrounding a heating wire, and a graphene coating layer is formed of graphene and polypropylene and surrounds the silicone coating layer. USE - Heating shoe. ADVANTAGE - The cold protection effect is improved by distributing heat evenly throughout the interior of the shoe and preventing the heat generated from the heating element from being discharged to the outside. The problem such as disconnection is prevented. The deterioration of the battery function due to moisture is prevented even when moving in the snow for a long time. DESCRIPTION OF DRAWING(S) - The drawing shows an exploded perspective view of a portion of a heating shoe. Upper (110) Front upper (111) Inner caps (111a,112a) Finishing layers (111b,112b) Heat insulation layers (111c,112c) Rear upper (112)