Valve arrangement for a vibration damper

What is claimed is: 1. A valve arrangement for a vibration damper, having a valve housing having an annular valve seat and provided to receive damping fluid, and having a valve piston which is arranged in an axially displaceable manner relative to the valve seat in an inner space of the valve housing, and the valve piston has a main valve which has a flexible circular valve contact disc which can be brought into removable contact with a contact surface side on the valve seat, and further comprising: the valve contact disc is arranged on the valve piston by means of a guide pin whereby the valve contact disc is movable axially relative to the guide pin and is guided radially; an electromagnet having an armature for acting on a pilot valve; and a support disc, arranged on a bearing surface side of the valve contact disc facing away from a contact surface side of the valve contact disc, on which support disc the valve contact disc abuts along a partial peripheral region extending in a peripheral direction of the valve contact disc, the support disc comprising: a first region circular in plan view with a first diameter smaller than an outer diameter of the valve contact disc; and at least one second region, with a second diameter, extending radially outwards from an outer periphery of the first region, the second region extending along a partial region of the periphery of the support disc in the peripheral direction of the support disc; wherein the support disc has at least one clearance in the peripheral direction, at which the valve contact disc is free from support by the support disc, and the valve contact disc deflects more strongly in a region of the clearance than in a region of the support disc without a clearance when pressure is applied in the direction of the support disc. 2. The valve arrangement according to claim 1 , wherein the support disc comprises at least two radially outwardly extending, mutually opposite projections which, viewed from the center of the support disc, have a radial extent smaller than or equal to the outer diameter of the valve contact disc. 3. The valve arrangement according to claim 1 , wherein the valve arrangement comprises at least one bearing disc on which the support disc abuts with its side facing away from the valve contact disc. 4. The valve arrangement according to claim 1 , wherein the valve arrangement comprises a tubular sleeve body having, along a partial region of its longitudinal extension, a slot defined in the wall of the sleeve body having mutually opposite recesses, and cylindrical tube segments formed adjacent to the recesses, extending away from a base of the sleeve body and running in the longitudinal direction of the sleeve body. 5. The valve arrangement according to claim 4 , further comprising two recesses defined within the outer periphery of the valve contact disc or of the support disc, between which recesses a central web is provided, and wherein the recesses are penetrated by the tube segments. 6. The valve arrangement according to claim 1 , wherein the pilot valve has a sealing body with an outer cone, and is contactable with an annular valve seat of a drain valve by a spring means. 7. The valve arrangement according to claim 1 , wherein the pilot valve has a valve disc which, when the electromagnet is de-energized, allows a fluid flow from a pre-control chamber of the pilot valve via the valve housing. 8. The valve arrangement according to claim 1 , wherein the valve contact disc defines an inner recess having a larger diameter than the support disc arranged below it in a vertical axis direction of the valve arrangement, and an edge region of the inner recess lifts off from the support disc, in the direction out of the inner space of the valve housing, when pressurized with damping fluid. 9. The valve arrangement according to claim 8 , wherein the valve contact disc comprises an edge region arranged on the outer diameter which lifts off from the valve seat, in a direction into the inner space, when pressurized with damping fluid in the direction of the inner space. 10. A vibration damper having a tube and a piston rod, wherein the tube has an inner space adapted to receive damping fluid, and characterized by: a valve arrangement according to claim 1 ; and a pressure stage chamber and a rebound chamber; wherein the pressure stage chamber and the rebound chamber each has a respective inner space, physically separated from the valve arrangement, and the chambers are fluidically connected. 11. A vehicle having a front wheel and a rear wheel, characterized by a vibration damper according to claim 10 . 12. A valve arrangement for a vibration damper, having a valve housing having an annular valve seat and provided to receive damping fluid, and having a valve piston which is arranged in an axially displaceable manner relative to the valve seat in an inner space of the valve housing, and the valve piston has a main valve which has a flexible circular valve contact disc which can be brought into removable contact with a contact surface side on the valve seat, and further comprising: the valve contact disc is arranged on the valve piston by means of a guide pin whereby the valve contact disc is movable axially relative to the guide pin and is guided radially; an electromagnet having an armature for acting on a pilot valve; a support disc, arranged on a bearing surface side of the valve contact disc facing away from a contact surface side of the valve contact disc, on which support disc the valve contact disc abuts along a partial peripheral region extending in a peripheral direction of the valve contact disc; and a tubular sleeve body having, along a partial region of its longitudinal extension, a slot defined in the wall of the sleeve body having mutually opposite recesses, and cylindrical tube segments formed adjacent to the recesses, extending away from a base of the sleeve body and running in the longitudinal direction of the sleeve body; wherein: the support disc has at least one clearance in the peripheral direction, at which the valve contact disc is free from support by the support disc; and the valve contact disc deflects more strongly in a region of the clearance than in a region of the support disc without a clearance when pressure is applied in the direction of the support disc. 13. The valve arrangement according to claim 12 wherein the support disc comprises: a first region circular in plan view with a first diameter smaller than an outer diameter of the valve contact disc; and at least one second region, with a second diameter, extending radially outwards from an outer periphery of the first region, the second region extending along a partial region of the periphery of the support disc in the peripheral direction of the support disc. 14. The valve arrangement according to claim 12 , wherein the support disc comprises at least two radially outwardly extending, mutually opposite projections which, viewed from the center of the support disc, have a radial extent smaller than or equal to the outer diameter of the valve contact disc. 15. The valve arrangement according to claim 12 comprising at least one bearing disc on which the support disc abuts with its side facing away from the valve contact disc. 16. The valve arrangement according to claim 12 , further comprising two recesses defined within the outer periphery of the valve contact disc or of the support disc, between which recesses a central web is provided, and wherein the recesses are penetrated by the tube segments. 17. Th