A vibration isolating mount 17 accommodates an elastic member 20 in the interior of a housing 18 fixed to a vehicle body 16 and a bracket 22 one end of which is fixed to the driving source 11. The other end of the bracket 22 is engaged in a bracket connecting part 21 provided in the elastic member 20. A space β in the longitudinal direction between a rear wall 21d of the bracket connecting part 21 and a rear stopper surface 18e of the housing 18 is set to be smaller than a space α in the longitudinal direction between the front wall 21c of the bracket connecting part 21 and a front stopper surface 18d of the housing 18, so that the rearward displacement of the driving source 11 may be effectively suppressed.

A composite bumper for the dampening of impact forces applied to a structure to be protected. The composite bumper comprises a first element of a rigid material; a second element resistant to impacts and mechanical abrasions and made of at least one of a first vulcanized rubber and a rigid material; and a third element having the ability to undergo reversible elastic deformations and made of a second vulcanized rubber. The third element is at least in part positioned between the first and the second element. The third element is bound to the first element and the second element because of the vulcanization of unvulcanized rubber composition(s). The first element is provided with means adapted to cooperate with means for the fastening of the composite bumper to the structure to be protected. A use thereof, and a method for the manufacture of the composite bumper.

A drive assembly for a motor vehicle includes a drive, a transmission that can be driven by the drive, a drive housing, a transmission housing, and a fastening device. The drive is arranged in the drive housing, and the transmission is arranged in the transmission housing. The drive housing or the transmission housing can be fastened on a carrier by way of the fastening device. The fastening device includes a plurality of vibration dampers and sleeve elements. The sleeve elements surround the vibration dampers.

A compressor mounting device can be used for mounting a compressor to a vehicle body frame. The compressor mounting device includes a main body to be mounted to the vehicle body frame through first and second frame mounting units integrally formed to one end and the other end and including first and second compressor mounting units formed to be protruded upwardly between the first and second frame mounting units so as to be mounted to first and second lugs formed in the compressor. A main bush unit is mounted to the first and second compressor mounting units and connects the compressor and the first and second compressor mounting units through the first and second lugs to lessen vibration generated from the compressor from being transmitted to the vehicle body frame through the main body.

A suspension interconnection assembly comprises first and second saddle brackets and a fastener. Each saddle bracket comprises a base, a pair of arms spaced apart and have the base disposed therebetween, and a pair of shoulders. Each shoulder is disposed between the base and a respective arm. Each shoulder has a first beveled surface. The pair of shoulders cooperates with the base and the pair of arms to at least partially define a U-shaped pocket. The U-shaped pockets of each saddle bracket are sized to partially receive an axle housing. The fastener interconnects the saddle brackets to couple the saddle brackets and a spring to the axle housing. The beveled surfaces of each saddle bracket are adapted to operatively engage the peripheral wall. The pairs of arms of each saddle bracket are adapted to operatively engage one another after the beveled surfaces operatively engage the peripheral wall.

A tubular vibration-damping device including: an inner shaft member; an outer tube member; a main rubber elastic body elastically connecting the inner shaft member and the outer tube member, the main rubber elastic body being penetrated by a through hole in an axial direction; and a stopper rubber separated from the main rubber elastic body, the stopper rubber including an insert that is inserted in the through hole. A gap is provided in an axially middle portion of the insert, and the insert includes axially opposed faces that are opposed to each other in the axial direction with the gap in between.

A mounting for acoustically insulating a first building component from a second building component, said mounting having a first insulating portion extending around a fastener, a second insulating portion extending around said fastener, a neck insulating portion extending between said first insulating portion and said second insulating portion, such that a shaft of the fastener is covered by one or more of the insulating portions between the first building component and the second building component.

An exemplary multi-position mount system for a powertrain component includes a mount assembly including a mount housing having a first mount edge defining a rectangular mount opening with at least two mount notch openings on each side of the rectangular mount opening, a sleeve insert having at least two insert tabs extending from each side of the insert, the insert having an insert opening with at least two insert notch openings on each side of the insert opening, a damping assembly including an alignment tab extending from each side of the damper body, and a T-bracket including a T-bracket sleeve having an edge defining an offset opening in the T-bracket sleeve. The sleeve insert interfaces with the mount housing and is rotatable within the mount opening, the damping assembly is rotatable within the insert opening, and the insert opening is spaced apart from the mount opening.

A compressor mounting device can be used for mounting a compressor to a vehicle body frame. The compressor mounting device includes a main body to be mounted to the vehicle body frame through first and second frame mounting units integrally formed to one end and the other end and including first and second compressor mounting units formed to be protruded upwardly between the first and second frame mounting units so as to be mounted to first and second lugs formed in the compressor. A main bush unit is mounted to the first and second compressor mounting units and connects the compressor and the first and second compressor mounting units through the first and second lugs to lessen vibration generated from the compressor from being transmitted to the vehicle body frame through the main body.

A vibration isolation system for compactly mounting a vibrating component, such as an air compressor, to an object, such as an air tank, is described. The system may include a rod and bumper system to isolate the vibrations generated by the air compressor from the vehicle or object that it is mounted to. A primary isolation subsystem may include a rod suspension design which consumes significantly less space than existing solutions. The rod is able to achieve equal spring rates in any direction.