Drive mechanism for a drug delivery device and drug delivery device

The invention claimed is: 1. A drive mechanism for a drug delivery device, comprising: a housing, a piston rod arranged inside the housing, a drive member arranged inside the housing, the drive member being rotatable with respect to the housing, a rotation member rotatable with respect to the housing, a dose member, which is movable between a first axial position with respect to the housing and a second axial position that is axially spaced from the first axial position, an engagement of the dose member with the housing, the engagement allowing the dose member to move according to a set/deliver path between the first axial position and the second axial position in either direction or to move according to a cancel path from the second axial position to the first axial position, and an engagement of the dose member with the rotation member and a unidirectional rotational engagement of the rotation member with the drive member by a clutch in such a manner that the rotation member is rotated when the dose member is moved according to the set/deliver path and the drive member is not rotated when the dose member is moved according to the cancel path, wherein the piston rod comprises a thread engaged with the housing such that a rotational movement of the piston rod is converted into a movement of the piston rod with respect to the housing in a distal direction, wherein the piston rod comprises a track engaged with the drive member such that an axial movement of the piston rod relative to the drive member is allowed and a rotational movement of the drive member with respect to the housing is converted into a rotational movement of the piston rod with respect to the housing, and wherein the dose member is threadedly engaged with the rotation member. 2. The drive mechanism of claim 1 , wherein the cancel path implies a helical movement of the dose member with respect to the housing. 3. The drive mechanism of claim 1 , wherein the cancel path implies a helical movement of the dose member with respect to the housing and a subsequent rotation of the dose member within the first axial position. 4. The drive mechanism according to claim 1 , wherein the set/deliver path is connected to the cancel path via a start path located between the second axial position and the cancel path and/or via an end path located between the cancel path and the first axial position. 5. The drive mechanism of claim 1 , further comprising: an engagement member being provided on the rotation member or on the dose member, the dose member being engaged with the rotation member by the engagement member being guided in a thread. 6. The drive mechanism of claim 1 , further comprising: a button in/out spline and a cancel spline, the dose member being engaged with the housing by means of the button in/out spline and the cancel spline, the button in/out spline being adapted to guide the movement of the dose member according to the set/deliver path, and the cancel spline being adapted to guide the movement of the dose member according to the cancel path. 7. The drive mechanism of claim 6 , further comprising: at least one bump feature of the cancel spline, the bump feature impeding an entrance into the cancel path or an exit from the cancel path. 8. The drive mechanism of claim 1 , further comprising: the clutch being formed by an azimuthally arranged series of ramped teeth on the drive member and a corresponding azimuthally arranged further series of ramped teeth on the rotation member. 9. The drive mechanism of claim 1 , further comprising: a stop member rotationally locked with the housing, the stop member being unidirectionally rotationally engaged with the drive member by a further clutch permitting a rotation of the drive member that is generated by a movement of the dose member from the second axial position to the first axial position according to the set/deliver path. 10. The drive mechanism of claim 9 , further comprising: the further clutch being formed by a further azimuthally arranged series of ramped teeth on the drive member and a corresponding azimuthally arranged further series of ramped teeth on the stop member. 11. The drive mechanism of claim 9 , further comprising: a resilient member which exerts a force tending to keep the drive member and the stop member in contact and to keep the drive member and the rotation member in contact. 12. The drive mechanism of claim 1 , wherein the set/deliver path is axially directed, and wherein the cancel path is helically wound. 13. The drive mechanism of claim 1 , wherein the movement of the dose member from the second axial position to the first axial position according to the set/deliver path generates an axial displacement of the piston rod with respect to the housing by a fixed predetermined distance. 14. The drive mechanism of claim 1 , further comprising: a unidirectional rotational engagement between the dose member or a button that is fixed to the dose member and the housing or an insert that is fixed to the housing. 15. The drive mechanism of claim 14 , further comprising: a ratchet insert comprising at least one pawl, the ratchet insert being rotationally locked with the dose member, and a ratchet on the housing or insert fixed to the housing, the pawl and the ratchet providing a unidirectional rotational engagement. 16. A drug delivery device comprising a drive mechanism according to claim 1 , wherein the drug delivery device is a pen-type injection device. 17. A drive mechanism for a drug delivery device, comprising: a housing, a drive member arranged inside the housing, the drive member being rotatable with respect to the housing, a rotation member rotatable with respect to the housing, a dose member, which is movable between a first axial position with respect to the housing and a second axial position that is axially spaced from the first axial position, an engagement of the dose member with the housing, the engagement allowing the dose member to move according to a set/deliver path between the first axial position and the second axial position in either direction or to move according to a cancel path from the second axial position to the first axial position, and an engagement of the dose member with the rotation member and a unidirectional rotational engagement of the rotation member with the drive member by a clutch in such a manner that the rotation member is rotated when the dose member is moved according to the set/deliver path and the drive member is not rotated when the dose member is moved according to the cancel path, a stop member rotationally locked with the housing, the stop member being unidirectionally rotationally engaged with the drive member by a further clutch permitting a rotation of the drive member that is generated by a movement of the dose member from the second axial position to the first axial position according to the set/deliver path, and wherein the further clutch being formed by a further azimuthally arranged series of ramped teeth on the drive member and a corresponding azimuthally arranged further series of ramped teeth on the stop member.