Slotted guide

The invention claimed is: 1. A slotted guide, comprising: two guide tracks, structured and arranged to cross one another in a crossing region, for guiding a switching pin of a cam follower of a valve train of an internal combustion engine, wherein each of the two guide tracks has an on-track region, a crossing region, and an off-track region; and at least one radial projection, structured and arranged to protrude beyond the slotted guide in a radial direction, provided in or downstream from the off-track region of at least one guide track of the two guide tracks. 2. The slotted guide according to claim 1 , wherein the at least one radial projection connects directly to the off-track region of the at least one guide track and defines an extension of the off-track region, such that an ejection of the switching pin guided therein is also possible in the case of an immersion depth, which is small or not present, in the at least one guide track. 3. The slotted guide according to claim 2 , wherein a width and an axial position of the at least one radial projection corresponds to a width and an axial position of the at least one guide track, such that the switching pin can come into contact with the at least one radial projection on a front side. 4. The slotted guide according to claim 2 , wherein a width of the at least one radial projection, which is arranged downstream from the off-track region, is larger than a width of the at least one guide track. 5. The slotted guide according to claim 4 , wherein the at least one radial projection extends over an entire width of the slotted guide and is interrupted by maximally one of the two guide tracks. 6. The slotted guide according to claim 2 , wherein the at least one radial projection is only located on at least one edge of the at least one guide track, and wherein the switching pin has a collar or a widening that comes into contact with the at least one radial projection on the at least one edge of the at least one guide track. 7. The slotted guide according to claim 1 , wherein the on-track region is arranged offset to the off-track region by an angle α of 90°<α<120°. 8. The slotted guide according to claim 1 , wherein the at least one radial projection extends over an angle β of 5°<β<20°. 9. The slotted guide according to claim 1 , wherein a maximum depth of a respective guide track is between 10 and 15% of a maximum outer diameter of the slotted guide. 10. The slotted guide according to claim 1 , wherein at least one of: the slotted guide is structured as a slotted guide sleeve, and the at least one radial projection is heat-treated or coated. 11. The slotted guide according to claim 1 , wherein at least one of: the two guide tracks each have lateral edges, and a depth of the two guide tracks increases from the on-track region up to the crossing region and then decreases from the crossing region up to the off-track region. 12. A valve train for an internal combustion engine, comprising: a camshaft and at least one cam follower, wherein the at least one cam follower cooperates with the camshaft via at least two cams and is axially adjustable, a switching pin arranged in the at least one cam follower, a slotted guide arranged on the camshaft for guiding the switching pin, the slotted guide including two guide tracks structured and arranged to cross one another in a crossing region, the two guide tracks each having an on-track region, a crossing region, and an off-track region; wherein the slotted guide further includes at least one radial projection provided in or downstream from the off-track region of at least one guide track of the two guide tracks, the at least one radial projection protruding beyond the slotted guide in a radial direction; and wherein the switching pin cooperates with the two guide tracks of the slotted guide such that the at least one cam follower is adjusted between a first cam and a second cam of the at least two cams. 13. The valve train according to claim 12 , wherein the slotted guide is connected in a rotationally fixed manner to the camshaft via a thermal joint seat. 14. An internal combustion engine, comprising: a valve train, the valve train including: a camshaft and at least one cam follower, wherein the at least one cam follower cooperates with the camshaft via at least two cams and is axially adjustable, a switching pin arranged in the at least one cam follower, a slotted guide arranged on the camshaft for guiding the switching pin, the slotted guide including two guide tracks structured and arranged to cross one another in a crossing region, the two guide tracks each having an on-track region, a crossing region, and an off-track region; wherein the slotted guide further includes at least one radial projection provided in or downstream from the off-track region of at least one guide track of the two guide tracks, the at least one radial projection protruding beyond the slotted guide in a radial direction; and wherein the switching pin cooperates with the two guide tracks of the slotted guide such that the at least one cam follower is adjusted between a first cam and a second cam of the at least two cams. 15. The internal combustion engine according to claim 14 , wherein the slotted guide is connected in a rotationally fixed manner to the camshaft via a thermal joint seat. 16. The internal combustion engine according to claim 14 , wherein the two guide tracks each have lateral edges. 17. The valve train according to claim 12 , wherein the at least one radial projection is disposed on at least one edge of the at least one guide track, and wherein the switching pin has a collar or a widening that comes into contact with the at least one projection on the at least one edge of the at least one guide track. 18. The valve train according to claim 12 , wherein a depth of the two guide tracks increases from the on-track region to the crossing region, and decreases from the crossing region to the off-track region. 19. The slotted guide according to claim 1 , wherein the on-track region is arranged offset to the off-track region by an angle of approximately 110°. 20. The slotted guide according to claim 1 , wherein the at least one radial projection extends over an angle of approximately 10°.