Hydraulically damping rubber bearing

The invention claimed is: 1. A hydraulically damping rubber bearing, comprising: a substantially hollow-cylindrical inner portion; an outer portion disposed with a predetermined spacing relative to the inner portion; a resilient connection portion disposed between the inner portion and the outer portion and connecting the outer portion to the inner portion, the resilient connection portion having a first hydraulic damping circuit with at least two first fluid chambers which are in fluid communication with each other via a first flow connection, the first hydraulic damping circuit having a damping action in a predetermined direction; and a second hydraulic damping circuit providing a damping action in the same predetermined direction as the first hydraulic damping circuit; wherein the second hydraulic damping circuit has at least two second fluid chambers which are in fluid communication via a second flow connection; wherein each of the at least two second fluid chambers is defined in an outer face of the rubber bearing between two of the at least two first fluid chambers. 2. A hydraulically damping rubber bearing according to claim 1 , wherein the outer portion has an outer surface and the first hydraulic damping circuit is defined radially outward from the outer surface. 3. A hydraulically damping rubber bearing according to claim 2 , wherein the second hydraulic damping circuit is defined radially outward from the outer surface. 4. A hydraulically damping rubber bearing according to claim 1 , wherein at least one of the first and second hydraulic damping circuits are switchable such that the other of the first and second hydraulic damping circuits remains substantially uninfluenced in terms of its damping action. 5. A hydraulically damping rubber bearing according to claim 4 , wherein the second hydraulic damping circuit is switchable. 6. A hydraulically damping rubber bearing according to claim 1 , wherein the first hydraulic damping circuit and the second hydraulic damping circuit have different frequency dependencies of the damping action. 7. A hydraulically damping rubber bearing according to claim 1 , wherein the second damping circuit has a switchable valve disposed therein, the switchable valve selectively blocking the second flow connection in order to selectively increase overall rigidity of the rubber bearing. 8. A hydraulically damping rubber bearing according to claim 1 , wherein the at least two second fluid chambers and the at least two first fluid chambers are each constructed with a U-shaped cross-section. 9. A hydraulically damping rubber bearing according to claim 1 , wherein the first damping circuit and the second damping circuit differ in a characteristic selected from the group of differences consisting of different fluid resistances, different lengths, different cross-section values, and different cross-section shapes. 10. A hydraulically damping rubber bearing according to claim 1 , wherein the inner portion has a hollow-cylindrical core of metal surrounded by a rubber layer. 11. A hydraulically damping rubber bearing according to claim 1 , wherein the outer portion has a cage of metal surrounded by a rubber layer. 12. A hydraulically damping rubber bearing according to claim 1 , wherein the inner portion has a hollow-cylindrical core of metal surrounded by a rubber layer; the outer portion has a cage of metal surrounded by a rubber layer; and the rubber layers form the connection portion. 13. A hydraulically damping rubber bearing according to claim 12 , wherein individual elements of the cage form metal reinforcements for the fluid chambers. 14. A hydraulically damping rubber bearing according to claim 12 , wherein the cage is constructed in one piece. 15. A hydraulically damping rubber bearing, comprising: a substantially hollow-cylindrical inner portion having a longitudinal axis in an axial direction; an outer portion disposed with a predetermined spacing relative to the inner portion; a resilient connection portion disposed between the inner portion and the outer portion and connecting the outer portion to the inner portion, the resilient connection portion having a first hydraulic damping circuit with at least two first fluid chambers which are separated from one another along the longitudinal axis in the axial direction of the inner portion and in fluid communication with each other via a first flow connection, the first hydraulic damping circuit having a damping action in a predetermined direction; and a second hydraulic damping circuit providing a damping action in the same predetermined direction as the first hydraulic damping circuit. 16. A hydraulically damping rubber bearing according to claim 1 , wherein the first hydraulic damping circuit has the damping action in a radial direction, and the second hydraulic damping circuit provides the damping action in the same radial direction as the first hydraulic damping circuit. 17. A hydraulically damping rubber bearing according to claim 16 , wherein each of the at least two second fluid chambers is defined in the outer face of the rubber bearing axially between two of the at least two first fluid chambers on each axial end of the bearing. 18. A hydraulically damping rubber bearing according to claim 17 , wherein the first hydraulic damping circuit comprises four first fluid chambers. 19. A hydraulically damping rubber bearing according to claim 16 , wherein each of the at least two second fluid chambers is defined in the outer face of the rubber bearing aligned axially with and between the two of the at least two first fluid chambers.