Running gear for a rail vehicle and associated rail vehicle

The invention claimed is: 1. A running gear for a rail vehicle, comprising: one or more wheel sets, each having a revolution axis and being guided by a pair of transversally spaced axle boxes; a running gear frame; a primary suspension assembly between each of the axle boxes and the running gear frame; and a secondary suspension stage for supporting a vehicle superstructure of the rail vehicle on the running gear frame, wherein each primary suspension assembly comprises at least a main spring assembly having a vertical stiffness and a horizontal stiffness that is identical in a transverse direction of the running gear frame and in a longitudinal direction of the running gear frame perpendicular to the transverse direction, wherein the primary suspension assembly further comprises an anisotropic interface assembly in series with the main spring assembly between the running gear frame and the axle box, wherein the anisotropic interface assembly is such that the primary suspension assembly has a transverse stiffness and a longitudinal stiffness, wherein the transverse stiffness is different from the longitudinal stiffness, wherein the anisotropic interface assembly comprises an intermediate spring seat for receiving an end of the main spring assembly, wherein the anisotropic interface assembly comprises a guiding structure and a guiding means for limiting or suppressing at least two degrees of freedom of motion of the intermediate spring seat relative to the guiding structure, comprising at least one degree of freedom of translation in a longitudinal or transversal direction and at least one degree of freedom of rotation about a longitudinal or transversal axis, wherein the anisotropic interface assembly has a torsional stiffness about a pitch axis parallel to the transverse direction, and wherein the pitch axis is located above an upper end of the main spring assembly or below a lower end of the main spring assembly. 2. The running gear of claim 1 , wherein the guiding means are such as to limit or suppress at least one degree of freedom of translation in the transversal direction and at least one degree of freedom of rotation about an axis parallel to the longitudinal axis. 3. The running gear of claim 1 , wherein the anisotropic interface comprises at least one resilient element between the guiding structure and the intermediate spring seat. 4. The running gear of claim 1 , wherein the guiding means are such that the intermediate spring seat has only one degree of freedom of rotation relative to the guiding structure about a transverse axis of rotation. 5. The running gear of claim 1 , wherein the guiding means are such that the intermediate spring seat has only one degree of freedom of translation relative to the guiding structure parallel to a longitudinal direction of the running gear. 6. The running gear of claim 1 , wherein the main spring assembly consists of one or more helical springs. 7. The running gear of claim 6 , wherein the anisotropic interface assembly is at least partially received in an inner volume axially and radially confined within the one or more helical springs of the main spring assembly. 8. The running gear of claim 1 , wherein the longitudinal stiffness of the primary suspension assembly is such that the one or more wheel sets is able to pivot about a vertical axis of the running gear. 9. A rail vehicle provided with at least one running gear according to claim 1 . 10. A running gear for a rail vehicle, comprising: one or more wheel sets, each having a revolution axis and being guided by a pair of transversally spaced axle boxes; a running gear frame; a primary suspension assembly between each of the axle boxes and the running gear frame; and a secondary suspension stage for supporting a vehicle superstructure of the rail vehicle on the running gear frame, wherein each primary suspension assembly comprises at least a main spring assembly having a vertical stiffness and a horizontal stiffness that is identical in a transverse direction of the running gear frame and in a longitudinal direction of the running gear frame perpendicular to the transverse direction, wherein the primary suspension assembly further comprises an anisotropic interface assembly in series with the main spring assembly between the running gear frame and the axle box, wherein the anisotropic interface assembly is such that the primary suspension assembly has a transverse stiffness and a longitudinal stiffness, wherein the transverse stiffness is different from the longitudinal stiffness, wherein the anisotropic interface assembly comprises an intermediate spring seat for receiving an end of the main spring assembly, wherein the anisotropic interface assembly comprises a guiding structure and a guiding means for limiting or suppressing at least two degrees of freedom of motion of the intermediate spring seat relative to the guiding structure, comprising at least one degree of freedom of translation in a longitudinal or transversal direction and at least one degree of freedom of rotation about a longitudinal or transversal axis, and wherein the guiding means are such that the intermediate spring seat has only one degree of freedom of rotation relative to the guiding structure about a transverse axis of rotation. 11. A running gear for a rail vehicle, comprising: one or more wheel sets, each having a revolution axis and being guided by a pair of transversally spaced axle boxes; a running gear frame; a primary suspension assembly between each of the axle boxes and the running gear frame; and a secondary suspension stage for supporting a vehicle superstructure of the rail vehicle on the running gear frame, wherein each primary suspension assembly comprises at least a main spring assembly having a vertical stiffness and a horizontal stiffness that is identical in a transverse direction of the running gear frame and in a longitudinal direction of the running gear frame perpendicular to the transverse direction, wherein the primary suspension assembly further comprises an anisotropic interface assembly in series with the main spring assembly between the running gear frame and the axle box, wherein the anisotropic interface assembly is such that the primary suspension assembly has a transverse stiffness and a longitudinal stiffness, wherein the transverse stiffness is different from the longitudinal stiffness, wherein the anisotropic interface assembly comprises an intermediate spring seat for receiving an end of the main spring assembly, wherein the anisotropic interface assembly comprises a guiding structure and a guiding means for limiting or suppressing at least two degrees of freedom of motion of the intermediate spring seat relative to the guiding structure, comprising at least one degree of freedom of translation in a longitudinal or transversal direction and at least one degree of freedom of rotation about a longitudinal or transversal axis, and wherein the guiding means are such that the intermediate spring seat has only one degree of freedom of translation relative to the guiding structure parallel to a longitudinal direction of the running gear.