▎ 摘 要
NOVELTY - Graphene heat dissipation assembly comprises e.g. graphene heat dissipation assembly (4) comprises two collective boxes (41) arranged on the left and right sides, and at least one heat sink (42) are arranged between the two collective boxes. The left and right end of each radiating plate is respectively sealedly and is connected to different collective boxes and the two collective boxes are connected through the radiating plates. The assembly box is provided with a partition (411) to separate its internal cavity into a water storage cavity (412) and a sealed cavity, where two ends of each heat sink respectively pass through the sealed cavities on both sides, and respectively extends into the water storage cavities on both sides. The front or back side walls of the sealed cavity are provided with injection holes spaced apart which is used to feed into the sealed cavity above or below each heat sink to inject sealing material into the area. USE - Used as graphene heat dissipation assembly. ADVANTAGE - The assembly: has a simple structure, low manufacturing cost, and high processing efficacy, heat dissipation efficacy, good heat dissipation effect, and good sealing effect; is recyclable, economical, easy to install and use; and does not cause water leakage during use. DETAILED DESCRIPTION - Graphene heat dissipation assembly comprises graphene heat dissipation assembly (4) comprises two collective boxes (41) arranged on the left and right sides, and at least one heat sink (42) are arranged between the two collective boxes. The left and right end of each radiating plate is respectively sealedly and is connected to different collective boxes and the two collective boxes are connected through the radiating plates. The assembly box is provided with a partition (411) to separate its internal cavity into a water storage cavity (412) and a sealed cavity, where two ends of each heat sink respectively pass through the sealed cavities on both sides, and respectively extends into the water storage cavities on both sides. The front or back side walls of the sealed cavity are provided with injection holes spaced apart which is used to feed into the sealed cavity above or below each heat sink to inject sealing material into the area. The each heat dissipation plate is provided with a multiple of through holes and the two assembly boxes are provided with water inlet/outlet. An INDEPENDENT CLAIM is also included for a water-cooled radiator comprises graphene heat dissipation component comprising a connecting plate, a fixing buckle, a fixing bolt, a wind box, a fixing ring and an air outlet, the fixing buckle is installed on the surface of the connecting plate by a buckle, and the fixing bolt connects the fixing buckle and the graphene heat dissipation component and the graphene heat dissipation component passes the fixing bolt is installed inside the fixing buckle, the bellows is installed on the surface of the connecting plate by bolts, the fixing ring is bonded between the graphene heat dissipation component and the air box and the air outlet is opened inside the fixing ring. DESCRIPTION OF DRAWING(S) - The drawing shows the schematic representation of front view of graphene heat dissipation assembly. Graphene heat dissipation assembly (4) Two collective boxes (41) Heat sink (42) Partition (411) Water storage cavity (412)