▎ 摘　　要

NOVELTY - The battery has a limiting block set in a limiting sliding groove. A bottom part of a side sliding groove is fixedly connected with an extruding column. An upper side of an extruding spring is in contact with a bottom part of a side sliding block. An end of a surrounding spring baffle close to a middle sliding block is fixedly connected with an arc inserting column. Two ends of the middle sliding block are fixedly connected with an arc connecting column. A bottom part of a protective tube is fixedly connected with a bottom connecting screw ring. An upper side of a pressing plate is fixedly connected with an upper connecting screw ring. USE - Shock-absorbing graphene battery. ADVANTAGE - The pressing device generates the transverse movement when the vibration occurs, so that the position of the spring to the middle sliding block is stable, and the pressing device can be stably fixed in the external protection device of the graphene. The battery solves the problem that the graphene battery is easy to fall off from the device for fixing the graphene battery, thus ensuring better use of the graphene battery when the violent shaking is encountered. DETAILED DESCRIPTION - An INDEPENDENT CLAIM is also included for a shock-absorbing graphene battery damping method. DESCRIPTION OF DRAWING(S) - The drawing shows a perspective view of a shock-absorbing graphene battery. 331Plate contact 332Hinge block 333Locating connecting column 334Locating inserting column 335Locating spring 336Lower supporting plate 337Upper supporting plate 338Hinged frame 339Locating spring baffle