▎ 摘 要
NOVELTY - The embedded graphene radiating tower has a heat conducting aluminum plate (1) provided with an aluminum substrate and a graphene heat conducting film. The heat graphene film is adhered to an outer side of the aluminum substrate through a high-temperature resistant heat conducting glue. The heat-conducting aluminum plate is penetrated with four heat conducting pipes (3). A bottom side of each heat conducting pipe is provided with a fixing base (4). USE - Embedded graphene radiating tower for radiating heat by high power consumption radiator. ADVANTAGE - The aluminum structure not only provides great heat capacity, but also connected with the hierarchical structure of the graphene, to greatly improve the heat conducting ability of graphene in the Z-axis direction. The staggered layer installation of graphene sheet also makes heat conducting path is greatly optimized, the heat is effectively diffused by the radiating path of the design, it realizes the greatly improving the efficiency of the radiator, and improves the stable operation of the processor. DETAILED DESCRIPTION - An INDEPENDENT CLAIM is included for a manufacturing method for embedded graphene radiating tower radiating heat by high power consumption radiator. DESCRIPTION OF DRAWING(S) - The drawing shows an exploded perspective view of embedded graphene radiating tower for radiating heat by high power consumption radiator. 1Heat conducting aluminum plate 3Heat conducting pipes 4Fixing base