▎ 摘　　要

NOVELTY - The case has a radiating guide groove formed at a side of a shell. A periphery of an edge of a plate-shaped heating component is surrounded with a reinforcing frame (8). The plate-shaped heating component is connected with the shell through the reinforcing frame. The reinforcing frame is tightly adhered in a groove of the radiating guide groove. An energy storage heat conducting component (302) is tightly attached on the reinforcing frame. The plate-shaped heating component is adhered on a graphene copper foil adhesive tape (402). The graphene copper foil adhesive tape is extended to the reinforcing frame and/or energy storage heat conducting component. USE - Electronic radiating case for use in an aviation electronic technical field. ADVANTAGE - The case improves radiating effect by 25% compared with original sealing machine case design efficiency through a fast transmission mode for radiating. The case has flexible structure combination, solves radiating problem of a sealing case, and improves case radiating efficiency. DESCRIPTION OF DRAWING(S) - The drawing shows a perspective view of an electronic radiating case for use in an aviation electronic technical field. 8Reinforcing frame 72Closing plate 302Energy storage heat conducting component 303Flexible heat conducting pad 401Interface board module 402Graphene copper foil adhesive tape 403Heating chip