▎ 摘 要
NOVELTY - The heater has a box body (1) fixed to a lower part of an air inlet (8) and an air outlet (4). The box body is formed as a cylindrical structure and vertically fixed in a hollow structure of a heat radiating pipe (5). An outer wall of the heat radiating pipe is formed with a graphene heating layer (6) that is formed on an outer side of a packaging layer (7). The graphene heating layer is formed on a power supply by a lead. The heat radiating pipe is provided with a radiator (3) and filled with superconducting liquid. An end of the radiator passes through the graphene heating layer and extended to an outer side of the packaging layer. A far infrared reflecting layer (2) is a far infrared reflecting film. The heat radiating pipe and the packaging layer are made of ceramic material. USE - Graphene far infrared electric heater. ADVANTAGE - The heater occupies less heating area through an encapsulation layer and the radiator to fully contact with air to improve heating efficiency and uniformity. DESCRIPTION OF DRAWING(S) - The drawing shows a front view of a graphene far infrared electric heater. Box body (1) Far infrared reflecting layer (2) Radiator (3) Air outlet (4) Heat radiating pipe (5) Graphene heating layer (6) Packaging layer (7) Air inlet (8)