Vibration damper and vehicle

The invention claimed is: 1. A vibration damper ( 1 ) for a motor vehicle comprising: tube elements ( 2 , 3 ); a hydraulic unit ( 9 ); and two valves constructed ( 7 , 8 ) for controlling a volume flow to the hydraulic unit ( 9 ) during one of a compression stroke and a rebound stroke; and wherein the two valves ( 7 , 8 ) and the hydraulic unit ( 9 ) are arranged in series outside of the tube elements ( 2 , 3 ) of the vibration damper ( 1 ) so that a fluid flow path proceeds through one of the two valves through the hydraulic unit and through the other of the two valves and vice versa; and wherein each of the two valves comprises a bypass path which can be at least partially released through a respective valve ( 7 , 8 ) and wherein a bypass path ( 24 , 30 ) of one valve ( 8 , 7 ) at least partially overlaps with the bypass path ( 30 , 24 ) of the other valve ( 8 , 7 ). 2. The vibration damper according to claim 1 , wherein each valve ( 7 , 8 ) comprises a valve housing ( 28 ) and a valve slide ( 20 ) which is movable in the valve housing ( 28 ) during one of the compression stroke and the rebound stroke for at least partially closing at least one flow path ( 24 , 30 , 38 ) of a fluid flowing through the valves ( 7 , 8 ). 3. The vibration damper according to claim 2 , wherein the valve slides ( 20 ) of each valve comprises pressure-impingement surface areas and wherein each of the valves ( 7 , 8 ) has an input side ( 18 , 44 ) and an output side ( 26 , 47 ); the pressure-impingement surface areas ( 65 , 66 ) of the valve slide ( 20 ) being substantially equally dimensioned for an opening pressure and a closing pressure; and the valve slide comprising a restriction ( 52 ) constructed for generating a pressure difference between an opening pressure and a closing pressure. 4. The vibration damper according to claim 3 , additionally comprising at least one channel ( 50 ) extending through the valve slide and constructed for connecting an inside space of the valve slides ( 20 ) with an outside space of the valve slides ( 20 ). 5. The vibration damper according to claim 2 , additionally comprising at least one channel ( 50 ) constructed for connecting an inside space of the valve slides ( 20 ) with an outside space of the valve slides ( 20 ). 6. The vibration damper according to claim 2 , wherein the bypass path ( 24 , 30 ) can be closed by the valve slide ( 20 ) and is fluidically connected as a flow path to an input side ( 18 , 44 ) of the valves ( 7 , 8 ). 7. The vibration damper according to claim 1 , additionally comprising a housing ( 6 ) fastened to the vibration damper ( 1 ); and wherein the valves ( 7 , 8 ) and the hydraulic unit ( 9 ) are arranged in the housing ( 6 ). 8. The vibration damper according to claim 7 , wherein the hydraulic unit ( 9 ) is configured as a hydraulic pump. 9. The vibration damper according to claim 1 , wherein the bypass paths ( 24 , 30 ) comprise an output and a check valve ( 34 , 42 ) at the output. 10. The vibration damper according to claim 9 , wherein the check valve ( 34 , 42 ) comprises a corrugated spring. 11. The vibration damper according to claim 1 , wherein the hydraulic unit ( 9 ) is configured as a hydraulic pump. 12. The vibration damper according to claim 1 , additionally comprising a main flow path ( 38 ) which can be at least partially closed by the valve slide ( 20 ) and is fluidically connected as a flow path to an output side ( 26 , 47 ) of the valves ( 7 , 8 ). 13. The vibration damper according to claim 1 , wherein the two valves ( 7 , 8 ) each have an input side ( 18 , 44 ) and wherein the input sides ( 18 , 44 ) of the valves ( 7 , 8 ) both face toward a tube element ( 2 , 3 ) of the vibration damper ( 1 ). 14. The vibration damper according to claim 1 , wherein the vibration damper ( 1 ) comprises a working cylinder ( 2 ) and a reservoir tube ( 3 ) surrounding the working cylinder ( 2 ). 15. A motor vehicle comprising at least one vibration damper ( 1 ) constructed according to claim 1 . 16. A vibration damper ( 1 ) for a motor vehicle comprising: tube elements ( 2 , 3 ); a hydraulic unit ( 9 ); and two valves constructed ( 7 , 8 ) for controlling a volume flow to the hydraulic unit ( 9 ) during one of a compression stroke and a rebound stroke; and wherein the two valves ( 7 , 8 ) and the hydraulic unit ( 9 ) are arranged in series outside of the tube elements ( 2 , 3 ) of the vibration damper ( 1 ) so that a fluid flow path proceeds through one of the two valves through the hydraulic unit and through the other of the two valves and vice versa; wherein each valve ( 7 , 8 ) comprises a valve housing ( 28 ) and a valve slide ( 20 ) which is movable in the valve housing ( 28 ) during one of the compression stroke and the rebound stroke for at least partially closing at least one flow path ( 24 , 30 , 38 ) of a fluid flowing through the valves ( 7 , 8 ); and wherein the valve slides ( 20 ) of each valve comprises pressure-impingement surface areas and wherein each of the valves ( 7 , 8 ) has an input side ( 18 , 44 ) and an output side ( 26 , 47 ); the pressure-impingement surface areas ( 65 , 66 ) of the valve slide ( 20 ) being substantially equally dimensioned for an opening pressure and a closing pressure; and the valve slide comprising a restriction ( 52 ) constructed for generating a pressure difference between an opening pressure and a closing pressure. 17. A vibration damper ( 1 ) for a motor vehicle comprising: tube elements ( 2 , 3 ); a hydraulic unit ( 9 ); and two valves constructed ( 7 , 8 ) for controlling a volume flow to the hydraulic unit ( 9 ) during one of a compression stroke and a rebound stroke; and wherein the two valves ( 7 , 8 ) and the hydraulic unit ( 9 ) are arranged in series outside of the tube elements ( 2 , 3 ) of the vibration damper ( 1 ) so that a fluid flow path proceeds through one of the two valves through the hydraulic unit and through the other of the two valves and vice versa; wherein each valve ( 7 , 8 ) comprises a valve housing ( 28 ) and a valve slide ( 20 ) which is movable in the valve housing ( 28 ) during one of the compression stroke and the rebound stroke for at least partially closing at least one flow path ( 24 , 30 , 38 ) of a fluid flowing through the valves ( 7 , 8 ); and additionally comprising a bypass path ( 24 , 30 ) which can be closed by the valve slide ( 20 ) and is fluidically connected as a flow path to an input side ( 18 , 44 ) of the valves ( 7 , 8 ).