Vibration damper with a hydraulic end stop

The invention claimed is: 1. A vibration damper ( 1 ) with a hydraulic end stop ( 2 ) comprising: a cylinder ( 3 ) radially limiting a cylinder space ( 31 ) filled with damping medium; a piston rod guide ( 51 ) axially limiting the cylinder space ( 31 ) on at least one side; a piston rod ( 4 ) having a supporting surface ( 42 ) and axially guided within the cylinder space ( 31 ) and penetrating the piston rod guide ( 51 ), the piston rod ( 4 ) connected to a piston ( 6 ) which divides the cylinder space ( 31 ) into a first working space ( 31 a) arranged between the piston ( 6 ) and the piston rod guide ( 51 ) and a second working space ( 31 b) arranged on the opposite side of the piston ( 6 ); a control space ( 71 ) formed at one end of the cylinder ( 3 ), the control space being bounded by an inner wall; wherein the hydraulic end stop ( 2 ) comprises an end stop ring ( 8 ), axially secured to the piston rod ( 4 ) and engaging radially around the piston rod ( 4 ), and wherein the hydraulic end stop ( 2 ) penetrates into the control space ( 71 ) in the end stroke region of the piston and axially limits the control space ( 71 ) on one side such that a control chamber ( 71 a ) is formed inside the control space ( 71 ), the control chamber ( 71 a ) having a volume and being axially limited by the closure element ( 5 ) on the one side and by the hydraulic end stop ( 2 ) on the other side; the volume of the control chamber ( 71 a ) being alterable depending on the axial position of the hydraulic end stop ( 2 ) in the control space ( 71 ); the hydraulic end stop ( 2 ) further comprising a sealing ring ( 9 ) that is arranged between the end stop ring ( 8 ) and the piston rod guide ( 51 ), that is supported axially on one side at the end stop ring ( 8 ), that engages radially around the piston rod ( 4 ), that is mounted in a sliding manner at the piston rod ( 4 ), wherein the sealing ring has an outer circumferential surface ( 91 ) radially contacting the inner wall of the control space ( 71 ); wherein the sealing ring ( 9 ) comprises at least one radial throttle groove ( 92 ) which ensures a defined flow of damping medium between the control chamber ( 71 a) and the first working space ( 31 a ) when the hydraulic end stop ( 2 ) with the sealing ring ( 9 ) moves into the control space ( 71 ); and wherein the sealing ring ( 9 ) comprises a plurality of spring tongues ( 93 ) which are supported at the supporting surface ( 42 ) of the piston rod. 2. The vibration damper ( 1 ) with a hydraulic end stop ( 2 ) according to claim 1 , wherein the sealing ring ( 9 ) has at least one cutout ( 94 ) formed at the radially inner surface thereof, and wherein the cutout ( 94 ) is dimensioned so as to extend axially over the entire height of the sealing ring ( 9 ). 3. The vibration damper ( 1 ) with a hydraulic end stop ( 2 ) according claim 1 , wherein the sealing ring ( 9 ) comprises a throttle groove ( 92 ) and wherein the cutout ( 94 ) is connected to the throttle groove ( 92 ). 4. The vibration damper ( 1 ) with a hydraulic end stop ( 2 ) according to claim 1 , wherein the supporting surface ( 42 ) is constructed as an annular groove ( 43 ). 5. The vibration damper ( 1 ) with a hydraulic end stop ( 2 ) according to claim 4 , wherein the spring tongues ( 93 ) have a height and the annular groove ( 43 ) has an axial extension, and wherein the axial extension of the annular groove ( 43 ) is greater than the height of the spring tongues ( 93 ). 6. The vibration damper ( 1 ) with a hydraulic end stop ( 2 ) according to claim 1 , wherein the sealing ring ( 9 ) has at least one outer bevel ( 95 ). 7. The vibration damper ( 1 ) with a hydraulic end stop ( 2 ) according to claim 6 , wherein the outer bevel ( 95 ) of the sealing ring ( 9 ) is formed at the side remote of the end stop ring ( 8 ) in the installed condition. 8. The vibration damper ( 1 ) with a hydraulic end stop ( 2 ) according to claim 1 , wherein the sealing ring ( 9 ) comprises an engagement formation ( 100 ) with locking tongues ( 101 ; 102 ) formed thereon. 9. The vibration damper ( 1 ) with a hydraulic end stop ( 2 ) according to claim 1 , wherein the sealing ring ( 9 ) is formed from a plastic having resilient characteristics. 10. The vibration damper ( 1 ) with a hydraulic end stop ( 2 ) according to claim 1 , additionally comprising a control tube ( 7 ), and wherein the control space ( 71 ) is limited radially by the control tube ( 7 ). 11. The vibration damper ( 1 ) with a hydraulic end stop ( 2 ) according to claim 10 , wherein the control tube ( 7 ) comprises a fastening portion ( 72 ) at the end of the control tube ( 7 ) facing the piston rod guide ( 5 ) in the installed position. 12. The vibration damper ( 1 ) with a hydraulic end stop ( 2 ) according to claim 11 , wherein the fastening portion ( 72 ) has a greater diameter than the diameter of the rest of the control tube ( 7 ). 13. The vibration damper ( 1 ) with a hydraulic end stop ( 2 ) according claim 11 , wherein the fastening portion ( 72 ) comprises locking notches ( 103 ). 14. The vibration damper ( 1 ) with a hydraulic end stop ( 2 ) according to claim 13 , wherein the control tube ( 7 ) further comprises a fastening portion ( 72 ) and locking notches ( 103 ) constructed to enter into a locking formation ( 104 ) with a further structural component part of the vibration damper ( 1 ) in the fastening portion ( 72 ) of the control tube ( 7 ). 15. The vibration damper ( 1 ) with a hydraulic end stop ( 2 ) according claim 10 , wherein the control tube ( 7 ) has an inner bevel ( 73 ) at its end remote of the fastening portion ( 72 ). 16. The vibration damper ( 1 ) with a hydraulic end stop ( 2 ) according claim 10 , wherein the control tube ( 7 ) comprises at least one axial bypass groove ( 74 ).