Injector apparatus having a clutch to inhibit forward movement of the plunger

The invention claimed is: 1. An injector apparatus for use with a cartridge ( 12 ) or syringe to deliver a plurality of doses therefrom, the injector apparatus comprising: a housing ( 101 , 102 ) configured to receive the cartridge or syringe; a plunger ( 40 ) configured to cooperate, in use, with the cartridge or syringe to express successive doses; a dose setting arrangement ( 16 , 20 ) to select a dose volume; and a drive mechanism ( 22 , 24 ) releasable to advance said plunger in respective predetermined increments of magnitude to express said successive doses, wherein said drive mechanism includes a drive spring ( 22 ) for imparting movement directly or indirectly to said plunger ( 40 ), and said dose setting arrangement comprises a dose setting element ( 16 ) moveable in a dose setting routine to define a magnitude of an increment of movement of said plunger for a given dose, said drive mechanism further including a clutch arrangement operable to selectively engage and disengage the drive spring ( 22 ) to/from the dose setting element ( 16 ), wherein the dose setting element ( 16 ) is configured to be operably moveable between a first position and a second dose-setting position, the dose setting element ( 16 ), in the first position, being engaged to the drive spring ( 22 ) to rotate under the influence of the drive spring ( 22 ), and a movement of the dose setting element to the second dose-setting position moves the clutch arrangement into engagement with the drive mechanism and disengages the dose setting element ( 16 ) from the drive spring ( 22 ) so that, when the dose setting element ( 16 ) is in the second dose-setting position, the clutch arrangement bears a load exerted by the drive spring ( 22 ) and said dose setting element ( 16 ) is freed from the load of the drive spring ( 22 ) such that a dose-setting movement of the dose setting element ( 16 ) in said second dose-setting position for said dose setting routine is not influenced by the drive spring ( 22 ). 2. The injector apparatus according to claim 1 , wherein said dose setting element ( 16 ) is moveable angularly, and an angular position of the dose setting element ( 16 ) relative to the housing defines said increment of plunger movement. 3. The injector apparatus according to claim 2 , wherein said clutch arrangement includes a clutch element ( 56 ) moveable between a disengaged position and an engaged position. 4. The injector apparatus according to claim 3 , wherein said clutch element ( 56 ) is arranged within the housing to move axially with said dose setting element ( 16 ), and axial movement of said dose setting element from the first position to the second dose-setting position causes said clutch element ( 56 ) to inhibit forward movement of the plunger. 5. The injector apparatus according to claim 4 , wherein said dose-setting element ( 16 ) and said housing ( 101 , 102 ) include complementary abutments ( 62 , 64 ) that, in a first mode, engage to prevent relative rotation of said dose setting element ( 16 ) relative to said housing when said dose setting element ( 16 ) is in said first position and, in a second mode, disengage to allow relative rotation of the dose setting element ( 16 ) relative to the housing when said dose setting element is in said second dose-setting position. 6. The injector apparatus according to claim 5 , wherein upon moving said dose setting element ( 16 ) from said first position to said second dose-setting position, said clutch element ( 56 ) engages before disengagement of the complementary abutments ( 62 , 64 ) on said dose setting element and said housing. 7. The injector apparatus according to claim 4 , wherein returning said dose setting element ( 16 ) from said second dose-setting position to said first position, after having set a predetermined dose via a rotation of the dose setting element ( 16 ) relative to the housing while in said second dose-setting position, disengages the clutch element ( 56 ) and thereby releases the drive mechanism ( 22 , 24 ) to cause said plunger ( 40 ) to advance by a predetermined increment corresponding to said predetermined dose. 8. The injector apparatus according to claim 3 , wherein an operative movement of said clutch element ( 56 ) to said disengaged position moves said plunger against the load of the drive spring ( 22 ) to relieve a residual load between said plunger and said cartridge or syringe. 9. The injector apparatus according to claim 1 , wherein said plunger ( 40 ) is threadedly engaged with an associated control element ( 24 ), whereby linear movement of said plunger is accompanied by rotation of one of the plunger and the control element, and a magnitude of the increment of movement is controlled by limiting said rotation. 10. The injector apparatus according to claim 9 , wherein a stop surface ( 54 ), associated with said dose setting element ( 16 ), is adjustable on movement of said dose setting element to define an angular increment of movement for relative rotation between the plunger ( 40 ) and the control element ( 24 ) upon release of said drive mechanism. 11. The injector apparatus according to claim 10 , wherein an intermediate shuttle member ( 20 ) is threadedly engaged with said dose setting element ( 16 ) and is constrained to rotate with the rotatable one of the plunger ( 40 ) and the control element ( 24 ), and wherein an extent of relative angular movement of the shuttle member ( 20 ) and the dose setting element is set by a relative position of the stop surface associated with the dose setting element. 12. The injector apparatus according to claim 1 , wherein said drive spring ( 22 ) is a torsion spring. 13. The injector apparatus according to claim 1 , wherein said drive spring ( 22 ) is a compression spring. 14. An injector apparatus for use with a cartridge ( 12 ) or syringe to deliver a plurality of doses therefrom, the injector apparatus comprising: a housing ( 101 , 102 ) configured to receive the cartridge or syringe; a plunger ( 40 ) configured to cooperate, in use, with the cartridge or syringe to express successive doses; a dose setting element ( 16 ) movable in a dose setting routine to select a dose volume; and a drive mechanism ( 22 ) releasable to advance said plunger in respective predetermined increments of magnitude to express said selected dose volume, said drive mechanism ( 22 ) including a drive spring ( 22 ) for providing motive force directly or indirectly to said plunger to advance said plunger, and said drive mechanism further including a clutch arrangement, the clutch arrangement being movable between a first position, in which a clutch element ( 56 ) of the clutch arrangement, operable between the housing and a drive shaft of the drive mechanism ( 22 ), frees the drive shaft to rotate relative to the housing, and the motive force of the drive spring ( 22 ) is transmitted to the dose setting element ( 16 ) and the drive shaft to urge the dose setting element ( 16 ) and the drive shaft to rotate, and a second position, corresponding to said dose setting routine, in which the clutch element ( 56 ) of the clutch arrangement engages the drive shaft to the housing, such that the motive force of the drive spring ( 24 ) is transmitted via the clutch element ( 56 ) to the housing ( 10 ) and the dose setting element is free to rotate independently of the drive shaft and is free of influence by the motive force of the drive spring ( 22 ). 15. The injector apparatus according to claim 14 , wherein the clutch arrangement is operable, in the second position, to inhibit forward movement of the plunger.