Patent ID: 7926780

Claim:
A vibration dampening structure for absorbing vibrations generated by an electronic device, comprising: a screw comprising a head, a shank extending from the head, and a retaining slot defined in the shank; and a dampening element placed around the screw, the dampening element comprising a resilient shock-absorbing member fittingly surrounding the shank of the screw, at least one resilient hook protruding from a first end of the resilient shock-absorbing member and engaging in the retaining slot of the screw, a plurality of shock-absorbing pads protruding from a second end of the resilient shock-absorbing member opposite to the first end, the shock-absorbing pads being configured for abutting on the electronic device; wherein the dampening element further comprises an enclosure enclosing the resilient shock-absorbing member, the resilient shock-absorbing member has a top wall, the enclosure having an end portion embedded in the top wall of the resilient shock-absorbing member for being integrally formed with the resilient shock-absorbing member; the resilient shock-absorbing member is tube-shaped with a through hole running therethrough, the shock-absorbing pads are located around the through hole to be exposed outside of the enclosure away from the top wall of the resilient shock-absorbing member; each shock-absorbing pad has a protruding block at an end thereof, the protruding blocks extending in an axial direction with respect to the shank and surrounding the shank; the shank comprises a connecting portion connected to the head, a threaded portion and a shaft portion located between the connecting portion and the threaded portion, a diameter of the connecting portion is less than diameters of the head and the shaft portion, the retaining slot is ring-shaped and formed between the head and the shaft portion; the at least one resilient hook comprises a plurality of resilient hooks, each resilient hook comprises a supporting portion extending perpendicularly from the top wall of the resilient shock-absorbing member and a clasp bending perpendicularly from a free end of the supporting portion, the clasps of the resilient hooks are respectively engaged in the retaining slot of the screw; and the width of each clasp is equal to the vertical distance between outer surfaces of the shaft portion and the connecting portion of the screw, and the height of each clasp is equal to a distance from the head to the shaft portion of the screw.