▎ 摘　　要

NOVELTY - The backpack has a backpack main body and a backpack front cover that are connected with each other. The backpack front cover is formed with a nylon inner layer, a plastic interlayer and a Shimoene solar power generation module. A back surface of the backpack main body is provided with a graphene far infrared electrothermal film. A side surface of the backpack main body is provided with a handbag i.e. nylon fabric and an electricity storage element. The graphene far infrared electrothermal film is provided with a graphene far infrared conductive paste coating layer. Insulating layers are arranged on outer surfaces of two surfaces of the graphene far infrared conductive paste coating layer. A USB interface is connected with electronic product. USE - Graphene solar power generation based graphene far infrared electrothermal film backpack. ADVANTAGE - The backpack can absorb solar energy, charge electronic products and serve as a warm handbag and a back cushion. DESCRIPTION OF DRAWING(S) - The drawing shows a perspective view of a graphene solar power generation based graphene far infrared electrothermal film backpack.