Hydraulically damping bush bearing

The invention claimed is: 1. A hydraulically damping bush bearing, comprising: an elongated inner part; an outer bush; an elastomeric damping member arranged between the outer bush and the inner part; a pair of axial offset chambers defined in the bush bearing, the axial offset chambers being offset from one another in an axial direction of the inner part and communicating with one another via at least one axial channel; a pair of radial chambers defined in the bush bearing, the radial chambers communicating via at least one radial channel, the radial chambers being disposed between the pair of axial offset chambers and offset from each other in a circumferential direction of the inner part; at least one fluid-free damping chamber disposed between the pair of axial offset chambers; an intermediate diaphragm element positioned on the elastomeric damping member; and wherein the at least one fluid-free damping chamber is delimited in part by the elastomeric damping member and in part by walls of the intermediate diaphragm element. 2. A hydraulically damping bush bearing according to claim 1 , wherein the at least one fluid-free damping chamber extends continuously in a circumferential direction. 3. A hydraulically damping bush bearing according to claim 1 , wherein the intermediate diaphragm element has an annular chamber segment forming an annular chamber of the fluid-free damping chamber, the intermediate diaphragm element further having a damping segment attached to the elastomeric damping member in a sealing manner. 4. A hydraulically damping bush bearing according to claim 3 , wherein the intermediate diaphragm element is configured such that an inner annular wall section of the annular chamber segment is pushed onto the inner part and is fixed in an axial direction relative to the inner part such that, in an untensioned state, the damping segment projects in an offset manner relative to a front end of the annular wall section, the front end of the annular wall section being toward the elastomeric damping member. 5. A hydraulically damping bush bearing according to claim 3 , wherein the elastomeric damping member is reinforced in an attachment region of a sealing surface of the damping segment with at least one reinforcing element extending substantially in an axial direction. 6. A hydraulically damping bush bearing according to claim 1 , further comprising at least one stop element connected to the intermediate diaphragm element so as to interact with the elastomeric damping member. 7. A hydraulically damping bush bearing according to claim 6 , wherein the stop element is produced as a separate component and is connected to an annular disc of the intermediate diaphragm element. 8. A hydraulically damping bush bearing, comprising: an elongated inner part; an outer bush; an elastomeric damping member arranged between the outer bush and the inner part; a pair of axial offset chambers defined in the bush bearing, the axial offset chambers being offset from one another in an axial direction of the inner part and communicating with one another via at least one axial channel; a pair of radial chambers defined in the bush bearing, the radial chambers communicating via at least one radial channel, the radial chambers being disposed between the pair of axial offset chambers and offset from each other in a circumferential direction of the inner part; at least one fluid-free damping chamber disposed between the pair of axial offset chambers; wherein one of the pair of axial chambers has at least two separated first axial chambers spaced at a distance from one another in the circumferential direction; wherein the at least two separated axial offset chambers are separated from one another by a partition formed on the elastomeric damping member; a counter diaphragm that delimits the first axial chambers and rests on the partition of the elastomeric damping member.