Medical instrument, and coupling mechanism for connecting two structural parts of a medical instrument

The invention claimed is: 1. A coupling mechanism for mechanically connecting a first structural part and a second structural part of a medical instrument, comprising: a first component; a second component, wherein the first component and the second component are designed to be connected to each other by a bayonet connection that permits a rotation of the second component relative to the first component about a rotation axis in the connected state; a detent mechanism for alternately locking the second component in a first predetermined angle position or in a second predetermined angle position relative to the first component; wherein the detent mechanism comprises one detent lug and several recesses which correspond to the detent lug and which predetermine the first predetermined angle position and the second predetermined angle position, or one recess and several detent lugs which correspond to the recess and which predetermine the several different angle positions; and wherein either at least one of the detent lugs of the detent mechanism or at least one of the recesses of the detent mechanism is elastically deflectable in a direction that is substantially parallel to the rotation axis. 2. The coupling mechanism according to claim 1 , wherein the coupling mechanism is provided and designed such that, in the first angle position, the coupling mechanism permits a fitting together and a non-destructive separation of the first structural part and the second structural part of the medical instrument and, in the second angle position, the coupling mechanism creates a mechanical connection of the first structural part and of the second structural part of the medical instrument. 3. The coupling mechanism according to claim 1 , wherein the coupling mechanism is provided and designed such that, in the second angle position, the coupling mechanism connects the first structural part and the second structural part of the medical instrument in such a way that the second structural part is movable relative to the first structural part between a first predetermined end position and a second predetermined end position. 4. The coupling mechanism according to claim 2 , wherein the detent mechanism is further provided and designed to lock the second component relative to the first component alternatively in a third predetermined angle position; and wherein the coupling mechanism is provided and designed such that, in the third angle position, it creates a substantially rigid connection of the first structural part and of the second structural part of the medical instrument. 5. The coupling mechanism according to claim 3 , wherein the detent mechanism is further provided and designed to lock the second component relative to the first component alternatively in a third predetermined angle position; and wherein the coupling mechanism is provided and designed such that, in the third angle position, the coupling mechanism creates a substantially rigid connection of the first structural part and of the second structural part of the medical instrument. 6. The coupling mechanism according to claim 1 , wherein either at least one of the detent lugs or at least one of the recesses of the detent mechanism is elastically deflectable in a direction that is substantially orthogonal to the rotation axis. 7. The coupling mechanism according to claim 6 , wherein at least one of the detent lugs of the detent mechanism is arranged on a strip-shaped, elastic mechanism secured at one end or at both ends. 8. The coupling mechanism according to claim 1 , wherein at least one of the detent lugs of the detent mechanism is arranged on a strip-shaped, elastic mechanism secured at one end or at both ends. 9. The coupling mechanism according to claim 1 , wherein the first component and the second component are each substantially tubular, and in which the first component is arranged at least partially in the second component when the second component is connected to the first component by the bayonet connection. 10. The coupling mechanism according to claim 1 , wherein the coupling mechanism encloses a substantially circular cylindrical interior; wherein the first component has an area protruding into the circular cylindrical interior; and wherein the second component has an area protruding into the circular cylindrical interior. 11. The coupling mechanism according to claim 1 , wherein the first component has a collar, and the detent mechanism is arranged on the collar and on an edge of the second component lying opposite the collar. 12. A medical instrument, comprising: a shaft; a work mechanism for working on part of a human or animal body; a coupling mechanism with several predetermined configurations, for mechanically connecting the work mechanism to the shaft; wherein a first configuration of the coupling mechanism permits a fitting together and a non-destructive separation of the work mechanism and the shaft, wherein, in a second configuration of the coupling mechanism, the work mechanism is mechanically connected to the shaft in such a way that the work mechanism is movable along the shaft between a proximal position and a distal position; wherein the coupling mechanism comprises: a first component; a second component, wherein the first component and the second component are designed to be connected to each other by a bayonet connection that permits a rotation of the second component relative to the first component about a rotation axis in the connected state; and a detent mechanism for alternately locking the second component in a first predetermined angle position or in a second predetermined angle position relative to the first component, wherein the detent mechanism comprises one detent lug and several recesses which correspond to the detent lug and which predetermine the first predetermined angle position and the second predetermined angle position, or one recess and several detent lugs which correspond to the recess and which predetermine the several different angle positions; and wherein either at least one of the detent lugs of the detent mechanism or at least one of the recesses of the detent mechanism is elastically deflectable in a direction that is substantially parallel to the rotation axis. 13. The medical instrument according to claim 12 , wherein in a third configuration of the coupling mechanism, the work mechanism is locked in a position on the shaft. 14. The medical instrument according to claim 12 , wherein the first component of the coupling mechanism is connected to the work mechanism, and the second component, is rotatable relative to the first component about the longitudinal axis of the shaft and, in various configurations of the coupling mechanism, adopts different angle positions relative to the first component. 15. The medical instrument according to claim 13 , wherein the first component of the coupling mechanism is connected to the work mechanism, and the second component is rotatable relative to the first component about the longitudinal axis of the shaft and, in various configurations of the coupling mechanism, adopts different angle positions relative to the first component.