Shaft for steering a motor vehicle

What is claimed is: 1. A shaft for a steering system of a motor vehicle, the shaft comprising: an outer tube; an inner tube being guided fixedly in the outer tube such that the inner tube can telescope relative to the outer tube, the inner tube rotating with the outer tube such that torque is transmitted between the inner and outer tubes, wherein an inner end of the inner tube is received in the outer tube; and a pull-out protection mechanism that is disposed at the inner end of the inner tube and helps secure the inner tube within the outer tube, the pull-out protection mechanism including a sprung blocking element that impedes the inner tube from being pulled out of the outer tube, wherein the outer tube comprises an undercut on which the sprung blocking element can be supported, wherein the sprung blocking element springs open behind the undercut as the inner tube is pushed into the outer tube, wherein the sprung blocking element forms a barb that impedes the inner tube from being pulled out of the outer tube. 2. The shaft of claim 1 wherein the outer tube comprises a region of smaller diameter and a region of larger diameter, the undercut being disposed at a transition between the two regions, wherein inner tube is guided fixedly in the region of smaller diameter in a way such that the inner tube rotates with the outer tube, wherein the region of larger diameter receives the inner end of the inner tube and the pull-out protection mechanism. 3. The shaft of claim 1 wherein the sprung blocking element is disposed at an acute angle with respect to a longitudinal axis of the inner tube. 4. The shaft of claim 1 wherein the sprung blocking element is prestressed outward into a blocking position to impede the inner tube from being pulled out of the outer tube. 5. A shaft for a steering system of a motor vehicle, the shaft comprising: an outer tube; an inner tube being guided fixedly in the outer tube such that the inner tube can telescope relative to the outer tube, the inner tube rotating with the outer tube such that torque is transmitted between the inner and outer tubes, wherein an inner end of the inner tube is received in the outer tube; and a pull-out protection mechanism that is disposed at the inner end of the inner tube and helps secure the inner tube within the outer tube, the pull-out protection mechanism including a sprung blocking element that impedes the inner tube from being pulled out of the outer tube, wherein the outer tube comprises a region of smaller diameter and a region of larger diameter, wherein the sprung blocking element is one of a plurality of sprung blocking elements of the pull-out protection mechanism, wherein an external diameter of the plurality of sprung blocking elements is smaller than an internal diameter of the outer tube in the region of larger diameter. 6. The shaft of claim 5 wherein the sprung blocking element is prestressed outward into a blocking position to impede the inner tube from being pulled out of the outer tube. 7. The shaft of claim 5 configured for use as a steering shaft or a steering spindle. 8. The shaft of claim 5 wherein the sprung blocking element is disposed at an acute angle with respect to a longitudinal axis of the inner tube. 9. A shaft for a steering system of a motor vehicle, the shaft comprising: an outer tube; an inner tube being guided fixedly in the outer tube such that the inner tube can telescope relative to the outer tube, the inner tube rotating with the outer tube such that torque is transmitted between the inner and outer tubes, wherein an inner end of the inner tube is received in the outer tube; and a pull-out protection mechanism that is disposed at the inner end of the inner tube and helps secure the inner tube within the outer tube, the pull-out protection mechanism including a sprung blocking element that impedes the inner tube from being pulled out of the outer tube, wherein the pull-out protection mechanism comprises a cylindrical section that is at least partially received by an interior space of the inner tube, the cylindrical section including a locking element that is received by a depression of the inner tube to secure the cylindrical section of the pull-out protection mechanism to the inner tube. 10. The shaft of claim 9 wherein the sprung blocking element is disposed at an acute angle with respect to a longitudinal axis of the inner tube. 11. The shaft of claim 9 wherein the sprung blocking element is prestressed outward into a blocking position to impede the inner tube from being pulled out of the outer tube. 12. A shaft for a steering system of a motor vehicle, the shaft comprising: an outer tube; an inner tube being guided fixedly in the outer tube such that the inner tube can telescope relative to the outer tube, the inner tube rotating with the outer tube such that torque is transmitted between the inner and outer tubes, wherein an inner end of the inner tube is received in the outer tube; and a pull-out protection mechanism that is disposed at the inner end of the inner tube and helps secure the inner tube within the outer tube, the pull-out protection mechanism including a sprung blocking element that impedes the inner tube from being pulled out of the outer tube, wherein the pull-out protection mechanism comprises a cylindrical section that is at least partially received by an interior space of the inner tube, the cylindrical section having a length such that a section of the cylindrical section projects beyond the inner end of the inner tube, wherein the sprung blocking element can be forced into a position that is substantially parallel to the cylindrical section. 13. The shaft of claim 12 wherein the sprung blocking element is disposed at an acute angle with respect to a longitudinal axis of the inner tube. 14. The shaft of claim 12 wherein the sprung blocking element is prestressed outward into a blocking position to impede the inner tube from being pulled out of the outer tube. 15. A shaft for a steering system of a motor vehicle, the shaft comprising: an outer tube including a first region and a second region, wherein a diameter of the first region is smaller than a diameter of the second region, the outer tube further including a transition between the first and second regions; an inner tube disposed at least partially within the outer tube, the inner tube being connected to the outer tube in a manner such that the inner tube moves axially relative to the outer tube but such that torque is transmitted between the inner and outer tubes, with the inner tube rotating with the outer tube; and a barb disposed at an inner end of the inner tube, wherein the barb impedes the inner tube from being pulled out of the outer tube when the barb contacts the transition of the outer tube. 16. The shaft of claim 15 wherein the barb is flexible and can be forced into a position that is substantially parallel to a longitudinal axis of the inner tube. 17. The shaft of claim 15 wherein the barb is disposed at an acute angle with respect to a longitudinal axis of the inner tube. 18. The shaft of claim 15 further comprising a spline system disposed on at least one of the inner tube or the outer tube, the spline system allowing the inner tube and the outer tube to transmit torques to one another and to rotate together. 19. The shaft of claim 15 wherein an outermost part of the barb is radially smaller than an internal diameter of the second region of the outer tube. 20. The shaft of claim 15 wherein the barb