Vibration damper for a motor vehicle

We claim: 1. A vibration damper ( 1 ) for a motor vehicle, comprising: a support spring ( 2 ) a damper tube ( 3 ) having a piston rod ( 16 ) and a longitudinal extension axis (A); a spring disk ( 4 ) having a substantially tubular spring disk collar ( 5 ) surrounding the damper tube ( 3 ) in circumferential direction, and a contact portion ( 6 ) spaced apart axially from the spring disk collar ( 5 ), the contact portion ( 6 ) having a surface ( 11 ) and a substantially plate-shaped radial extension ( 7 ) wherein the contact portion ( 6 ) axially supports the support spring ( 2 ) by the substantially plate-shaped radial extension ( 7 ) of the contact portion ( 6 ); a protective insert ( 9 ) comprising a substantially disk-shaped portion ( 10 ) which at least partially covers the surface ( 11 ) of the contact portion ( 6 ) of the spring disk ( 4 ) facing the support spring ( 2 ), the protective insert ( 9 ) having a further, substantially tubular portion ( 12 ) which at least partially covers the spring disk collar ( 5 ); a protective accordion boot ( 13 ) comprising a first end portion ( 14 ) and a second end portion ( 15 ), the protective accordion boot ( 13 ) being secured at least indirectly to the piston rod ( 16 ) by the first end portion ( 14 ), and the protective accordion boot ( 13 ) enclosing the damper tube ( 3 ) in circumferential direction by its second end portion ( 15 ), the protective insert ( 9 ) having at least one radially outwardly extending supporting portion ( 17 ), wherein the protective accordion boot ( 13 ) is axially supported by the second end portion ( 15 ) thereof at the supporting portion ( 17 ) of the protective insert ( 9 ) accompanied by a defined axial pre-loading, and wherein, with respect to the longitudinal extension axis (A) of the damper tube ( 3 ), the supporting portion ( 17 ) extends radially beyond an inner diameter (d) of an end coil ( 18 ) of the support spring ( 2 ) supported at the spring disk ( 4 ). 2. The vibration damper ( 1 ) according to claim 1 , wherein at least the supporting portion ( 17 ) of the protective insert ( 9 ) is formed of a material having elastic properties and is reversibly deformable. 3. The vibration damper according to claim 1 , wherein the supporting portion ( 17 ) is formed at the tubular portion ( 12 ) of the protective insert ( 9 ). 4. The vibration damper according to claim 1 , wherein the tubular portion ( 12 ) of the protective insert ( 9 ) has at least one recess ( 19 ) extending a defined distance radially and axially. 5. The vibration damper according to claim 1 , wherein the supporting portion ( 17 ) and the protective insert ( 9 ) are formed integrally, as one component part. 6. The vibration damper according to claim 1 , wherein the protective insert ( 9 ) has a sealing lip ( 22 ) which sealingly contacts the damper tube ( 3 ) on the outer side in circumferential direction. 7. The vibration damper according to claim 1 , wherein the supporting portion ( 17 ) comprises a plurality of segments ( 20 ; 21 ). 8. The vibration damper according to claim 1 , wherein at least one of the protective insert ( 9 ) and spring disk ( 4 ) comprise an anti-torsion arrangement ( 8 ) which fixes the support spring ( 2 ) with respect to rotational torsion relative to the spring disk ( 4 ). 9. The vibration damper according to claim 1 , wherein the protective accordion boot ( 13 ) comprises an axially operative retaining element ( 23 ) secured to protective insert ( 9 ) for opposing an axial displacement of the protective accordion boot ( 13 ) relative to the protective insert ( 9 ).