A vibration isolator includes a housing having a top surface, an opposing bottom surface, and a hollow interior and an open-ended sleeve having a hollow interior and an extending flange, the extending flange having a top surface and a bottom surface. A resilient core, having a hollow interior, is positioned between and fixedly coupled to the bottom surface of the housing and the top surface of the flange of the sleeve. The resilient core is disposed within a portion of the hollow interior of the open-ended sleeve. A first bushing is disposed within the interior of the sleeve. The first bushing has a flange including a bottom surface that overlays a top surface of the resilient core. A second bushing is disposed within the first bushing.

The present invention relates to an elastic support for a load, with at least one elastomer body; the at least one elastomer body has at least one spring section and at least two receiving openings for receiving fastening elements; the spring section has at least one reinforcement; at least one of the two receiving openings is positioned outside of the reinforcement of the at least one spring section; and at least one of the two receiving openings is associated with at least one reinforcement that surrounds the respective receiving opening and is connected to the reinforcement of the spring section.

A vibration isolator includes a housing having a top surface, an opposing bottom surface, and a hollow interior and an open-ended sleeve having a hollow interior and an extending flange, the extending flange having a top surface and a bottom surface. A resilient core, having a hollow interior, is positioned between and fixedly coupled to the bottom surface of the housing and the top surface of the flange of the sleeve. The resilient core is disposed within a portion of the hollow interior of the open-ended sleeve. A first bushing is disposed within the interior of the sleeve. The first bushing has a flange including a bottom surface that overlays a top surface of the resilient core. A second bushing is disposed within the first bushing.

An adaptive bearing energy absorber has at least one core post, two supporting boards, multiple first material layers, and multiple second material layers. Each one of the at least one core post is composed of at least one sliding unit. At least one of the at least one sliding unit of each one of the at least one core post is a sliding assembly. Each one of the at least one sliding assembly has two ends, at least one sliding block, and at least one sliding cover. The at least one sliding cover is slidable relative to the sliding block, and each one of the at least one sliding cover has at least one limiting flange protruding from the sliding cover to limit the sliding range of the at least one sliding block relative to the sliding cover.