Steering column for a motor vehicle and method for producing a steering column

What is claimed is: 1. A steering column for a motor vehicle, comprising: a jacket unit with a jacket tube, which comprises at least one clamping section with a slot which extends in the direction of a longitudinal axis, a clamping collar, with two legs which lie opposite each other transversely to the longitudinal axis and are interconnected via an arcuate section, and between which the clamping section of the jacket tube is at least partially accommodated, an actuating unit arranged in the jacket tube, with a steering spindle which is rotatably mounted therein around the longitudinal axis, a clamping device, which in a fixing position clamps the clamping collar on the jacket tube, wherein the clamping section is clamped on the actuating unit and fixes the actuating unit in the direction of the longitudinal axis relative to the jacket tube and in a release position unclamps the clamping collar and frees an adjustment of the actuating unit relative to the jacket tube in the direction of the longitudinal axis, wherein the clamping device presses the legs toward each other transversely to the longitudinal axis in the fixing position, wherein driver elements are arranged on the jacket tube in the oppositely disposed edge regions of the slot, and the legs, on their sides facing each other, comprise contact elements which are configured to, in the fixing position, be pressed against the outer sides of the driver elements, facing away from each other, transversely to the longitudinal axis,. wherein the slot narrows when the clamping device transitions from the release position to the fixing position. 2. The steering column of claim 1 , wherein the driver elements project radially outward from the jacket tube. 3. The steering column of claim 1 , wherein at least one of the driver elements is designed as a bend of the jacket tube in at least one section of the edge region of the slot. 4. The steering column of claim 1 , wherein at least one of the contact elements projects inward in the circumferential direction from a leg transversely to the longitudinal axis. 5. The steering column of claim 1 , wherein at least one of the contact elements is formed on an end region of at least one leg which is bent round toward the jacket tube. 6. The steering column of claim 1 , wherein the clamping collar is a sheet metal formed part. 7. The steering column of claim 1 , wherein the jacket tube is supported between two side cheeks of a support unit which is configured to be attached to a vehicle body. 8. The steering column of claim 1 , wherein the clamping device further comprises a clamping pin which passes through the legs transversely to the longitudinal axis and which is connected to a counter bearing and to a clamping gear, wherein the counter bearing is supported on the outside on the one leg and the clamping gear is supported on the outside on the other leg. 9. The steering column of claim 1 , wherein the slot comprises a widened section in the circumferential direction on at least one end. 10. A method for producing a steering column jacket tube which comprises a clamping section with a slot which extends from one end of the steering column jacket tube in the direction of a longitudinal axis and is configured to interact with a clamping collar of a steering column, the method comprising: providing a tube section with a rough inside diameter and a rough outside diameter, introducing a slot into the tube section from one end in the axial direction such that the slot is open to the end of the tube section, wherein the slot has a rough slot width between its oppositely disposed edge regions transversely to the longitudinal extent and has a slot length in the axial direction, bending up the edge regions of the slot radially outward to form driver elements which project outward from the tube section, wherein the slot has a nominal slot width between the driver elements. 11. The method of claim 10 , comprising compressing the tube section in the radial direction over a clamping section length to a nominal inside diameter which is smaller than the rough inside diameter. 12. The method of claim 10 , wherein for the bending up of the edge regions a forming tool, comprising a mandrel with a radially projecting forming wedge, the width of which corresponds to the nominal slot width, is inserted into the tube section in the axial direction from the end, wherein the forming wedge is moved through the slot. 13. The method of claim 12 , wherein the forming tool comprises a sleeve which coaxially encompasses the mandrel, wherein the mandrel has an outside diameter which corresponds to the nominal inside diameter in the clamping section, and the sleeve has an inside diameter which corresponds to the outside diameter of the tube section which within the clamping section length is compressed to the nominal inside diameter. 14. The method of claim 1 , comprising introducing a widened section into an end region of the slot with a width in the circumferential direction which is larger than the rough slot width or the nominal slot width. 15. A steering column for a motor vehicle, comprising: a jacket unit with a jacket tube, which comprises at least one clamping section with a slot which extends in the direction of a longitudinal axis, a clamping collar, with two legs which lie opposite each other transversely to the longitudinal axis and are interconnected via an arcuate section, and between which the clamping section of the jacket tube is at least partially accommodated, an actuating unit arranged in the jacket tube, with a steering spindle which is rotatably mounted therein around the longitudinal axis, a clamping device, which in a fixing position clamps the clamping collar on the jacket tube, wherein the clamping section is clamped on the actuating unit and fixes the actuating unit in the direction of the longitudinal axis relative to the jacket tube and in a release position unclamps the clamping collar and frees an adjustment of the actuating unit relative to the jacket tube in the direction of the longitudinal axis, wherein the clamping device presses the legs toward each other transversely to the longitudinal axis in the fixing position, wherein driver elements are arranged on the jacket tube in the oppositely disposed edge regions of the slot, and the legs, on their sides facing each other, comprise contact elements which are configured to, in the fixing position, be pressed against the outer sides of the driver elements, facing away from each other, transversely to the longitudinal axis, wherein in the fixing position the contact elements exert a force on the driver elements that is primarily tangential to a circumference of the clamping section of the jacket tube. 16. The steering column of claim 15 wherein in the fixing position the clamping device and the clamping collar cooperate to exert a force that is primarily tangential to the circumference of the clamping section of the jacket tube. 17. The steering column of claim 15 wherein in the fixing position the clamping device and the clamping collar force the driver elements of the clamping section towards one another thereby causing the clamping section to exert a uniform force about a circumference of the actuating unit. 18. The steering column of claim 15 wherein the slot is circumferentially equidistant from the contact elements of the legs of the clamping collar.