▎ 摘　　要

NOVELTY - The plate has a water pipe (3), an energy storage unit (2) and a graphite unit (1). The graphite unit and the energy storage unit are evenly cross-combined, and the two together constitute the plate frame. The water pipe penetrates the plate frame. The graphite unit is a graphite film layer or a graphene layer, and the energy storage unit is an adhesive layer. The plate frame is composed of a graphite film layer or a graphene layer and an adhesive layer at intervals The graphite unit is a thin strip of graphite film or graphene, and the energy storage unit is composed of an adhesive material. The thin strip-shaped graphite film or graphene is uniformly mixed with the adhesive material in a messy shape. The adhesive is gypsum, cement or resin. USE - Fast heat exchange graphite plate. ADVANTAGE - The graphite unit and the energy storage unit are uniformly crossed and combined, so that the graphite has better heat conducting performance. The heat is quickly transmitted in the horizontal and vertical directions of the graphite plate. The heat is uniformly distributed in the graphite plate using better heat-homogenizing performance of the graphite. The heat storage function of the energy storage unit stores the heat caused by graphite, and slowly radiates, thus making the indoor temperature to be comfortable. The graphite has better toughness, which can increase the strength of the whole plate and the performance of the lifting plate. DETAILED DESCRIPTION - An INDEPENDENT CLAIM is included for a manufacturing method of rapid heat exchange graphite plate. DESCRIPTION OF DRAWING(S) - The drawing shows a perspective view of the fast heat exchange graphite plate. Graphite unit (1) Energy storage unit (2) Water pipe (3)