Drive assembly, drive component and drug delivery device

The invention claimed is: 1. A drive assembly for a drug delivery device, the drive assembly comprising: a housing having a proximal end and a distal end, a rotation member being configured to be rotated in a first direction with respect to the housing during setting of a dose of a drug and to be rotated in a second direction with respect to the housing during delivery of the dose, the second direction being opposite to the first direction, a drive component being configured to follow rotational movement of the rotation member in the second direction during delivery of the dose, a stop member being configured to prevent rotational movement of the drive component in the first direction with respect to the housing and to permit rotational movement of the drive component in the second direction with respect to the housing, and a resilient member disposed at a distal end of the drive assembly, wherein the drive component comprises a first drive part and a second drive part, coupled to each other such that relative rotational movement of the first and second drive parts is prevented and relative axial movement is permitted, wherein the first drive part i) is configured to be coupled with the rotation member and ii) comprises a plurality of teeth near the proximal end, the teeth forming a part of a first uni-directional friction clutch mechanism, the first drive part and the rotation member being permanently coupled by the first uni-directional friction clutch mechanism, and the second drive part is configured for engagement with the stop member. 2. The drive assembly of claim 1 , comprising a piston rod being configured to be displaced in the distal direction for delivering a dose of a drug and being configured such that rotational movement of the drive component in the second direction is at least partially converted into movement of the piston rod in the distal direction with respect to the housing. 3. The drive assembly of claim 1 , wherein the drive component comprises a biasing member for providing a force on at least one of the first and second drive parts for keeping at least one of the first and second drive parts in abutment with at least one of the rotation member and the stop member. 4. The drive assembly of claim 3 , wherein the biasing member forces the first and second drive parts apart in opposite axial directions. 5. The drive assembly of claim 3 , wherein in an axial direction the biasing member is located between the first and second drive part. 6. The drive assembly of claim 1 , wherein the drive component comprises a retaining means to limit the axial separation of the first and second drive parts. 7. The drive assembly of claim 2 , wherein the drive component is engaged with the piston rod such that relative axial movement between the piston rod and the drive component is allowed and relative rotational movement is prevented. 8. The drive assembly of claim 1 , wherein at least one of the first and second drive parts comprises a toothing for engagement with at least one of the rotation member and the stop member. 9. The drive assembly of claim 1 , wherein the stop member is secured against both axial and rotational movements with respect to the housing. 10. The drive assembly of claim 1 , wherein the stop member and the drive component are coupled to one another by a second uni-directional friction clutch mechanism, which is configured to prevent relative rotational movement between the stop member and the drive component in the first direction with respect to the housing and to permit relative rotational movement of the stop member and the drive component in the second direction with respect to the housing. 11. The drive assembly of claim 1 , wherein the drive component and the rotation member are coupled to one another by the first uni-directional friction clutch mechanism, which is configured to permit relative rotational movement between the rotation member and the drive component during rotation of the rotation member in the first direction for setting of the dose and to prevent relative rotational movement of the rotation member and the drive component during rotation of the rotation member in the second direction for delivery of the dose. 12. The drive assembly of claim 1 , comprising a dose member which is moveable with respect to the housing and wherein movement of the dose member with respect to the housing is converted into rotational movement of the rotation member with respect to the housing. 13. The drive assembly of claim 12 , wherein the dose member is secured against rotational movement with respect to the housing. 14. The drive assembly of claim 1 , wherein the first drive part comprises first engagement means which are configured for establishing the first uni-directional friction clutch mechanism which is adapted and arranged to prevent rotational movement of the first drive part in a first direction and to permit rotational movement of the first drive part in a second direction with respect to a mating first engagement means, and wherein the second drive part comprises second engagement means for establishing a second uni-directional friction clutch mechanism which is adapted and arranged to prevent rotational movement of the second drive part in the first direction and to permit rotational movement of the second drive part in the second direction with respect to a second mating engagement means. 15. The drive assembly of claim 14 , wherein the first and the second engagement means are configured to face in opposite directions with respect to one another. 16. The drive assembly of claim 14 , further comprising a biasing member which is adapted and arranged to provide a force forcing the first and second drive parts apart from each other in opposite axial directions. 17. The drive assembly of claim 14 , wherein the drive component is provided as a pre-assembled component for assembly with the rotation member, the stop member and the housing for building the drive assembly. 18. A drug delivery device comprising at least one of the drive assembly according to claim 1 , further comprising means for attaching a drug reservoir. 19. The drive assembly of claim 1 , wherein the first drive part is in splined engagement with the second drive part. 20. The drive assembly of claim 1 , wherein either the first drive part or the second drive part comprises a guide slot running in an axial direction. 21. The drive assembly of claim 20 , wherein either the first drive part or the second drive part comprises an engagement feature that is guided within the guide slot running in the axial direction. 22. The drive assembly of claim 1 , wherein the first drive part comprises a sleeve, and wherein the second drive part is at least partially inserted into the first drive part. 23. The drive assembly of claim 1 , wherein the rotation member is arranged to abut the first drive part. 24. The drive mechanism of claim 1 , wherein the plurality of teeth are circumferentially disposed on the first drive part. 25. The drive assembly of claim 1 , wherein the rotation member further comprises a first mating engagement mechanism at an end which faces the first drive part. 26. The drive assembly of claim 25 , wherein the first mating engagement mechanism of the rotation member comprises toothing, and wherein the toothing of the first mating engagement mechanism compri