Abstract: A vibration control pad (5) comprises a gel elastic body (7) made of an elastic-viscous material and heavy-object support members (8) embedded in the gel elastic body (7). A protrusion (11) is formed only on either the top or bottom surface of the gel elastic body (7) or formed on each of the top and bottom surfaces of the gel elastic body (7) in such a manner as to cover part of the support bodies (8). The protrusion (11) securely contains the support bodies (8) in the gel elastic body (7) to prevent the support bodies (8) from being detached or separated from the gel elastic body (7) when the vibration control pad (5) is taken out of its packaging member for use.
Abstract: A vibration control pad (5) comprises a gel elastic body (7) made of an elastic-viscous material and heavy-object support members (8) embedded in the gel elastic body (7). A protrusion (11) is formed only on either the top or bottom surface of the gel elastic body (7) or formed on each of the top and bottom surfaces of the gel elastic body (7) in such a manner as to cover part of the support bodies (8). The protrusion (11) securely contains the support bodies (8) in the gel elastic body (7) to prevent the support bodies (8) from being detached or separated from the gel elastic body (7) when the vibration control pad (5) is taken out of its packaging member for use.
Abstract: Plastically deformable support bodies (16) are embedded in a gel-like elastic body (15). A bottom-surface adhesive layer (15b) of the gel-like elastic body (15) is bonded to a floor surface (F), and a pressurizing plate (13) is kept on a top-surface adhesive layer (15a). A leg section (2) of equipment (1) is restrained from moving laterally with a bolt (22) provided on the pressurizing plate (13). A load of the equipment (1) is used to apply pressure to a vibration-damping pad (12) via the pressurizing plate (13). A restraint wall (18) is disposed around the vibration-damping pad (12) and a caulking compound (20) is packed in the opening between the pressurizing plate (13) and the floor surface (F). The caulking compound (20) is blocked by the restraint wall (18), and the gel-like elastic body (15) is allowed to deform due to a gap (19) formed between the restraint wall (18) and the vibration-damping pad (12).