Height-adjustable support device for semi-trailers or the like

The invention claimed is: 1. A support device for commercial vehicles comprising: an inner support tube and an outer support tube moveable relative to one another along a longitudinal axis in a retraction direction and an extension direction; a spindle rotated via a gear section and arranged such that the spindle is stationary relative to the outer support tube; and a spindle nut mounted on the spindle, wherein the spindle nut is fixed on a mounting region of the inner support tube, the mounting region is configured as a support edge facing the longitudinal axis, the support edge includes a support edge sided support surface, the support edge sided support surface includes a convex curve facing the gear section, the inner support tube and the spindle nut are displaceable relative to one another transverse to the longitudinal axis as the inner support tube and the outer support tube move relative to one another in the retraction and extension directions, and wherein a clearance between the inner support tube and the outer support tube is smaller than a maximum path of displacement transverse to the longitudinal axis between the spindle nut and one of the inner support tube and the outer support tube. 2. The support device of claim 1 , wherein the curvature of the support edge sided support surface faces the gear section, and wherein at least a certain area of the curvature comprises a spherical arch. 3. The support device of claim 2 , wherein the spindle nut includes a support flange for transmitting a load to the inner support tube, the support flange arranged above the support edge sided support surface. 4. The support device of claim 3 , wherein the support edge is arranged between the support flange and at least one interlocking section of the spindle nut, the interlocking section extending transversely from the longitudinal axis. 5. The support device of claim 3 , wherein the support flange includes a flange-sided support surface, and wherein at least a certain area of the flange-sided support surface is congruent in shape to the support edge sided support surface. 6. The support device of claim 5 , wherein the outer support tube and the spindle nut are displaceable relative to each other transverse to the longitudinal axis. 7. The support device of claim 6 , wherein the support edge comprises an integral part of the inner support tube, and wherein the support edge comprises upper wall portions of the inner support tube. 8. The support device of claim 6 , wherein the support edge is a separate element from the inner support tube. 9. The support device of claim 7 , wherein the support edge comprises an opening forming a support edge contour, the opening being configured to at least partially accommodate the spindle, and wherein a radial distance between the support edge contour and the longitudinal axis is not constant. 10. The support device of claim 9 , wherein the support edge is at least partially inclined in relation to the longitudinal axis at an inclination of between 60° and 89°. 11. The support device of claim 10 , wherein the support edge is at least partially inclined in relation to the longitudinal axis at an angle of between 70° and 88°. 12. The support device of claim 1 , wherein the spindle nut includes a support flange for transmitting a load to the inner support tube, the support flange arranged above the support edge sided support surface. 13. The support device of claim 1 , wherein the support edge is arranged between a support flange and at least one interlocking section of the spindle nut, the at least one interlocking section extending transversely from the longitudinal axis. 14. The support device of claim 12 , wherein the support flange includes a flange-sided support surface, and wherein at least a certain area of the flange-sided support surface is congruent in shape to the support edge sided support surface. 15. The support device of claim 1 , wherein the outer support tube and the spindle nut are displaceable relative to each other transverse to the longitudinal axis. 16. The support device of claim 1 , wherein a clearance between the inner support tube and the outer support tube is smaller than a maximum path of displacement transverse to the longitudinal axis between the spindle nut and one of the inner support tube and the outer support tube. 17. The support device of claim 1 , wherein the support edge comprises an integral part of the inner support tube, and wherein the support edge comprises upper wall portions of the inner support tube. 18. The support device of claim 1 , wherein the support edge is a separate element from the inner support tube. 19. The support device of claim 1 , wherein the spindle extends at least partially through the support edge, and wherein a radial distance between a support edge contour and the longitudinal axis is not constant. 20. The support device of claim 1 , wherein the support edge is at least partially inclined in relation to the longitudinal axis at an inclination of between 60° and 89°. 21. The support device of claim 20 , wherein the support edge is at least partially inclined in relation to the longitudinal axis at an angle of between 70° and 88°. 22. A method for manufacturing a support device for commercial vehicles, the method comprising the steps of: providing an inner support tube and an outer support tube moveable relative to one another along a longitudinal axis in a retraction direction and an extension direction, wherein the inner support tube includes a mounting region configured as a support edge facing the longitudinal axis for fixing a spindle nut; providing a spindle that supports the spindle nut, wherein the spindle nut comprises at least one interlocking section, the interlocking section extending transversely from the longitudinal axis, and wherein the spindle may be rotated via a gear section; orienting the spindle nut relative to the inner support tube such that the interlocking section is arranged in the radial direction to the longitudinal axis furthest away from a support edge contour of the support edge; and arranging the spindle nut in the inner support tube such that when the spindle nut rotates towards the inner support tube, the interlocking section comes into engagement with the support edge and is arranged at least one of below the support edge, and in alignment with the support edge in the direction of the longitudinal axis, and such that the inner support tube and the spindle nut are displaceable relative to one another transverse to the longitudinal axis as the inner support tube and the outer support tube move relative to one another in the retraction and extension directions, wherein the support edge includes a support edge sided support surface that includes a convex curve facing the gear section, and wherein a clearance between the inner support tube and the outer support tube is smaller than a maximum path of displacement transverse to the longitudinal axis between the spindle nut and one of the inner support tube and the outer support tube.