Spring element for a vehicle shock absorber, and vehicle shock absorber and vehicle having same

The invention claimed is: 1. A spring element for a vehicle shock absorber, comprising: a longitudinal axis; and a basic body which extends along the longitudinal axis and is resiliently deformable between an uncompressed basic state and a state compressed in a direction of the longitudinal axis, and including an end side including a contact surface configured for contact against a damper cap of the vehicle shock absorber; wherein the end side of the basic body includes an encircling end edge in the basic state, and wherein the contact surface is partially or completely structured with a structuring that extends radially outside and inside the end edge with respect to the longitudinal axis and provides increased adhesion capacity outside and inside the end edge, wherein the basic body is configured as a hollow body and includes a cavity in the direction of the longitudinal axis, or coaxially with respect to the longitudinal axis, wherein the cavity includes at least one cross-sectional tapering, wherein the structured contact surface extends at least as far as the cross-sectional tapering, wherein the cross-sectional tapering is longitudinally spaced from the end edge, and wherein the structuring of the contact surface comprises graining, simple grooving, crosswise grooving, and/or pimpling outside and inside the end edge. 2. The spring element according to claim 1 , wherein the structuring includes a multiplicity of structural elevations and structural depressions, wherein the structural elevations are separated from one another by the structural depressions, and wherein the structuring has an average peak to valley height RZ within a range of 25 to 500 μm. 3. The spring element according to claim 1 , wherein the basic body includes at least one encircling groove spaced apart from the end side, wherein the structured contact surface extends as far as the groove. 4. The spring element according to claim 1 , wherein the basic body is partially or completely composed of an elastomer. 5. A vehicle shock absorber comprising: a spring element configured according to claim 1 . 6. The spring element according to claim 1 , wherein the cavity includes at least a first cross-sectional tapering and a second cross-sectional tapering, wherein the first cross-sectional tapering and the second cross-sectional tapering are each longitudinally spaced from the end edge, and wherein the first cross-sectional tapering is longitudinally spaced from the second cross-sectional tapering. 7. The spring element according to claim 6 , wherein the second cross-sectional tapering is longitudinally spaced from a region of the structured contact surface which extends radially inside the end edge. 8. The spring element according to claim 1 , wherein a plurality of depressions are provided in the end side of the basic body and, in the end edge, define a number of spaced-apart projections in the direction of the longitudinal axis, the projections projecting by 2 mm or more in the direction of the longitudinal axis. 9. The spring element according to claim 8 , wherein a total of three projections are formed on the end side of the basic body, the projections defining a surface, which is reduced to three partial surfaces, for contacting the damper cap. 10. The spring element according to claim 8 , wherein a surface of each of the plurality of depressions is partially or completely structured. 11. The spring element according to claim 8 , wherein the depressions run at an angle of 20° to 150° to the longitudinal axis. 12. A vehicle shock absorber, comprising: a damper bearing; a damper cap mounted movably relative to the damper bearing in a direction of a longitudinal axis; and a spring element including: a basic body which extends along the longitudinal axis and is resiliently deformable between an uncompressed basic state and a state compressed in the direction of the longitudinal axis, and which includes an end side including a contact surface configured for contact against the damper cap of the vehicle shock absorber, wherein the end side of the basic body includes an encircling end edge in the basic state, wherein the contact surface is partially or completely structured with a structuring that extends radially outside and inside the end edge with respect to the longitudinal axis and provides increased adhesion capacity outside and inside the end edge, wherein the basic body is configured as a hollow body and includes a cavity in the direction of the longitudinal axis, or coaxially with respect to the longitudinal axis, wherein the cavity includes at least one cross-sectional tapering, wherein the structured contact surface extends at least as far as the cross-sectional tapering, wherein the cross-sectional tapering is longitudinally spaced from the end edge, and wherein the structuring of the contact surface comprises graining, simple grooving, crosswise grooving. and/or pimpling outside and inside the end edge. 13. A vehicle, comprising a number of vehicle shock absorbers, wherein at least one or all of the vehicle shock absorbers are configured according to claim 12 . 14. A spring element as a main shock absorber or as an additional spring in a vehicle shock absorber, the spring element configured according to claim 12 . 15. A spring element for a vehicle shock absorber, comprising: a longitudinal axis; and a basic body which extends along the longitudinal axis and is resiliently deformable between an uncompressed basic state and a state compressed in a direction of the longitudinal axis, and including an end side including a contact surface configured for contact against a damper cap of the vehicle shock absorber; wherein the end side of the basic body includes an encircling end edge in the basic state, and wherein the contact surface is partially or completely structured with a structuring that extends radially outside and inside the end edge with respect to the longitudinal axis, wherein the basic body is configured as a hollow body and includes a cavity in the direction of the longitudinal axis, or coaxially with respect to the longitudinal axis, wherein the cavity includes tapering, consisting of One or more inward cross-sectional tapering regions, wherein the structured contact surface extends at least as far as the cross-sectional tapering, wherein the cross-sectional tapering is longitudinally spaced from the end edge, and wherein the structuring of the contact surface comprises ,graining, simple grooving, crosswise grooving, and/or pimpling outside and inside the end edge. 16. The spring element according to claim 15 , wherein the structuring of the contact surface provides increased adhesion capacity outside and inside the end edge.