▎ 摘　　要

NOVELTY - The saddle has a damping module provided with a rubber layer (3) and paved between a lower connecting plate (1) and an upper connecting plate(2). A graphene layer (4) comprises an upper graphene layer (41) and a lower graphene layer(42). The upper graphene layer is adhered on an upper surface of the rubber layer. The lower graphene layer is adhered on a lower surface of the rubber layer. The upper graphene layer and the lower graphene layer are connected with each other to dissipate friction energy. The rubber layer and the graphene layer are covered with an outer covering. The outer covering and the graphene layer are provided with a box structure. USE - Graphene-based shock isolation support saddle. ADVANTAGE - The upper and lower graphene layer are rubbed to realize vibration energy consumption. The outer graphene layer improves tensile property of anti-lateral bending ability and recovery performance. The rubber layer and the graphene layer provide reliable vertical bearing force to ensure safety and reliability of an upper structure. The saddle can effectively resist vertical stretching to reduce aging of the rubber layer. DETAILED DESCRIPTION - An INDEPENDENT CLAIM is included for a graphene-based shock isolation support saddle constructing method. DESCRIPTION OF DRAWING(S) - The drawing shows a front view of a graphene-based shock isolation support saddle. Lower connecting plate (1) Upper connecting plate (2) Rubber layer (3) Graphene layer (4) Upper graphene layer (41) Lower graphene layer (42)