Coaxial gear mechanism

The invention claimed is: 1. A coaxial gear mechanism, comprising: a toothing system which is oriented axially with regard to a rotational axis of the coaxial gear mechanism; a tooth carrier with axially oriented guides; teeth which are received in the guides for engagement with the toothing system, the teeth being oriented with their respective longitudinal axes axially in the guides and being mounted in the guides such that the teeth can be displaced axially; a cam disc which can be rotated about the rotational axis for axial drive of the teeth; and a housing, in which a setting element for mounting the cam disc is provided, at least one bearing with rolling bodies being arranged between the setting element and the cam disc. 2. The coaxial gear mechanism according to claim 1 , the setting element being received in the housing such that the setting element can be adjusted axially and/or the setting element can be replaced and/or such thickness of the setting element can be adjusted. 3. The coaxial gear mechanism according to claim 2 , wherein the setting element can be adjusted in order to set a backlash. 4. The coaxial gear mechanism according to claim 1 , the rolling bodies resting on one side directly on a cam disc bearing face of the cam disc and/or on the other side directly on a setting element bearing face of the setting element. 5. The coaxial gear mechanism according to claim 4 , a contact region between the rolling bodies and the cam disc intersecting, as viewed in the axial direction, at least partially with a radial region of the teeth. 6. The coaxial gear mechanism according to claim 1 , the tooth carrier being mounted in the housing by means of an output bearing having output rolling bodies, wherein the output rolling bodies are arranged radially outside the teeth. 7. The coaxial gear mechanism according to claim 6 , the output rolling bodies being arranged in an axial region with the teeth. 8. The coaxial gear mechanism according to claim 6 , the output bearing being configured as a cross-rolling bearing or as an angular contact roller bearing. 9. The coaxial gear mechanism according to claim 1 , an internal diameter of the cam disc corresponding at least substantially to an internal diameter of the tooth carrier. 10. The coaxial gear mechanism according to claim 1 , a plurality of bearing segments for mounting the teeth being arranged between the cam disc and the teeth. 11. The coaxial gear mechanism according to claim 10 , the bearing segments having a plain bearing face for sliding mounting of the bearing segments on the cam disc. 12. The coaxial gear mechanism according to claim 1 , the setting element being configured as a ring. 13. The coaxial gear mechanism according to claim 1 , wherein the setting element has an axial abutment with the housing. 14. The coaxial gear mechanism according to claim 1 , the setting element being adjusted axially by a displacement nut, wherein the displacement nut is in a screwing engagement with the housing. 15. The coaxial gear mechanism according to claim 14 , wherein the setting element is axially supported by an abutment bearing pot, the abutment bearing pot being axially supported by the displacement nut. 16. Use of the coaxial gear mechanism according to claim 1 , axial setting of the cam disc taking place by way of change of axial position of the setting element and/or by way of a replacement and/or a change of thickness of the setting element.