A suspension component (730), including: an elastomeric component top member (832); an elastomeric component bottom member (830); and a plurality of elastomeric zig-zag columnar elements (800). The elastomeric zig-zag columnar elements connect the elastomeric component top member to the elastomeric component bottom member and are separated from each other by a gap (806).

An elastic bearing, in particular for the suspension of a load, is provide that comprises at least one elastic body that has at least two bending beams and at least two receiving openings for receiving coupling elements, wherein at least one of the at least two bending beams is connected to at least one articulated section, and at least one reinforcement that is embedded in the at least one elastic body. The reinforcement extends at least into the at least two bending beams, wherein the reinforcement extends at least essentially linearly into the at least two bending beams in at least one predetermined section of the particular bending beam. The at least two bending beams each have at least one supporting point that ensures the at least essentially linear course of the reinforcement in the predetermined section.

An elastic bearing, in particular for the suspension of a load, is provide that comprises at least one elastic body that has at least two bending beams and at least two receiving openings for receiving coupling elements, wherein at least one of the at least two bending beams is connected to at least one articulated section, and at least one reinforcement that is embedded in the at least one elastic body. The reinforcement extends at least into the at least two bending beams, wherein the reinforcement extends at least essentially linearly into the at least two bending beams in at least one predetermined section of the particular bending beam. The at least two bending beams each have at least one supporting point that ensures the at least essentially linear course of the reinforcement in the predetermined section.

A magnetorheological apparatus includes a flexible body formed of an elastomer material, a plurality of cell cavities defined by the flexible body, a magnetorheological (MR) fluid disposed within each cell cavity of the plurality of cell cavities, and a magnetic field inductor positioned adjacent to at least one of the cell cavities. Each cell cavity of the plurality of cell cavities is fluidly encapsulated within the flexible body. The magnetic field inductor is selectively operable to vary a magnetic field, and the MR fluid within the at least one cell cavity is configured to vary a stiffness of the at least one cell cavity in response to the magnetic field.

An elastic link comprising a first sleeve and a second sleeve. The first sleeve comprises a first elastic body, a first inner armature surrounded by the first elastic body, and a first outer armature surrounding the first elastic body. The second sleeve comprises a second elastic body, a second inner armature surrounded by the second elastic body, and a second outer armature surrounding the second elastic body. The first elastic body and the second elastic body presenting different elastic behaviors. This constitutes an improved elastic link.

An elastic link comprising a first sleeve and a second sleeve. The first sleeve comprises a first elastic body, a first inner armature surrounded by the first elastic body, and a first outer armature surrounding the first elastic body. The second sleeve comprises a second elastic body, a second inner armature surrounded by the second elastic body, and a second outer armature surrounding the second elastic body. The first elastic body and the second elastic body presenting different elastic behaviors. This constitutes an improved elastic link.

A vibration control element includes a nanovoided polymer layer having a first damping coefficient and a first resonance frequency in a first state and a second damping coefficient and a second resonance frequency in a second state, where the first damping coefficient is different from the second damping coefficient and the first resonance frequency is different from the second resonance frequency.

A vehicle door mirror is provided in which a base member is mounted on a side door while having a plurality of mounting holes and a plurality of insertion holes coaxially communicating with the mounting holes, a mirror housing is pivotably supported on a support shaft which has a plurality of bosses having a tubular portion and a rib extending along an axis of the tubular portion and being plurally projectingly provided on the tubular portion, and a screw member inserted through the insertion hole is screwed into the tubular portion of the boss inserted into the mounting hole so that the rib abuts against the mounting hole, wherein the rib is projectingly provided on the outer peripheral face, at least on a base part side, of the tubular portion. Such arrangement suppresses vibration of the mirror even when the support shaft is made of a synthetic resin.

A cab mount (1A) includes an upper mount elastic body (2) and a lower mount elastic body (3) that are configured to sandwich a frame (10) of a vehicle. The upper mount elastic body (2) has recesses (4) in an inner peripheral surface (f21) of the upper mount elastic body (2). The recesses (4) extend in a circumferential direction. Each of the recesses (4) has an upper contact surface (f1) and a lower contact surface (f2) that are in contact with each other in a steady state.

A dispensing pump (1000) includes a polymer compression spring (1048), base vents (1060) and a flow baffle (1092). The dispensing pump includes a pump base (1002), and a dispensing head (1004) having a piston stem (1034). The polymer compression spring assembly includes a slotted tubular spring element (1048) and first and second loading cones received at opposing ends of the slotted tubular spring element. The venting ports allow air to escape when capping the container after filling and the flow baffle reduces or prevents the product from being pulled into the pump accumulator before residual air (headspace) has been evacuated from the container during the initial priming strokes.