Auto-injector

The invention claimed is: 1. An auto-injector for administering a dose of a liquid medicament (M), comprising: a tubular chassis telescopable in an elongate case, a carrier subassembly comprising a tubular carrier slidably arranged partially inside the chassis and inside the case, the carrier adapted to contain a syringe with a hollow injection needle, a drive spring and a plunger for forwarding load of the drive spring to a stopper of the syringe, wherein the syringe is lockable for joint axial translation with the carrier, a control spring arranged around the carrier, a needle insertion control mechanism comprising a first collar, the needle insertion control mechanism configured to couple a proximal end of the control spring to either the carrier for advancing it for needle insertion or to the chassis, wherein the first collar of the needle insertion control mechanism is biased by the control spring in a proximal direction (P), wherein a first clip is arranged on one of the chassis or the first collar initially abutting a block on the other of the chassis or the first collar, wherein a ramped engagement between the first clip and the carrier is provided for outwardly deflecting the first clip on translation of the carrier in the proximal direction (P), wherein outward deflection of the first clip and translation of the carrier in the proximal direction (P) is initially prevented by the case outwardly abutting the fifth first clip, wherein the case is at least initially biased in the distal direction (D), wherein the case is arranged to translate against the bias in the proximal direction (P) relative to the chassis into an advanced position thereby translating a window in the case outwardly behind the first clip thus allowing outward deflection so as to decouple the first clip from the block and to allow the first collar to abut against the carrier and advance it under load of the control spring. 2. The auto-injector according to claim 1 , wherein the first collar comprises a second clip for engaging a rib on the carrier for needle insertion, wherein at least one of the second clip and the rib is ramped so as to outwardly deflect the second clip for disengaging the second clip from the rib under load of the control spring, wherein outward deflection of the second clip is initially prevented by the case, wherein the case is allowed to translate from the advanced position in the distal direction (D) driven by the control spring when the auto-injector is lifted from an injection site thereby translating a first recess in the case outwardly behind the second clip thus allowing outward deflection so as to decouple the first collar from the carrier subsequently allowing the first collar to abut the chassis. 3. The auto-injector according to claim 1 , further comprising: a trigger button arranged distally or laterally in or on the case, a plunger release mechanism comprising at least one resilient arm, wherein the plunger release mechanism is configured to release the plunger for injection when the carrier has at least almost reached an injection depth during needle insertion, a syringe retraction control mechanism comprising a collar bearing, the syringe retraction control mechanism configured to couple a distal end of the control spring to either the carrier for needle retraction or to the case otherwise. 4. The auto-injector according to claim 3 , wherein the at least one resilient arm of the plunger release mechanism is arranged to be in a ramped engagement to the plunger so as to disengage the at least one resilient arm and the plunger under load of the drive spring, wherein a peg protrudes from a distal end face of the trigger button in the proximal direction (P) in a manner to support the at least one resilient arm preventing disengagement of the carrier from the plunger and thus release of the drive spring when the carrier is in a distal position, wherein the trigger button is arranged to remain in position relative to the case when the carrier is translated for advancing the needle so as to pull the at least one resilient arm away from the peg thus allowing deflection of the at least one resilient arm due to the ramped engagement under load of the drive spring for disengaging the plunger from the carrier and releasing the drive spring for drug delivery when the carrier has reached a predefined position during needle advancement. 5. The auto-injector according to claim 3 , wherein in the plunger release mechanism the plunger in an initial state is locked to the carrier by a ramped engagement and by being prevented from rotating out of this ramped engagement depending on a relative longitudinal position of the carrier in the case, wherein the plunger is arranged to be released for rotating out of the ramped engagement upon the needle reaching at least nearly a predefined injection depth on translation of the carrier in the proximal direction (P) for advancing the needle beyond a proximal end of the auto-injector. 6. The auto-injector according to claim 5 , wherein the carrier has a longitudinal aperture, wherein an outward protrusion is arranged on the plunger in a manner to engage a face on the carrier in the aperture, wherein at least one of the outward protrusion or the face on the carrier is ramped so as to force the plunger to rotate when translated, wherein an inward longitudinal rib connected to the case inwardly protrudes into the longitudinal aperture in a manner to prevent disengagement of the outward protrusion from the face on the carrier prior to translation of the carrier for advancing the needle and wherein the outward protrusion comes clear of the inward longitudinal rib on translation of the carrier for advancing the needle so as to rotate past a proximal end of the inward longitudinal rib due to its ramped engagement to the carrier under load of the drive spring. 7. The auto-injector according to claim 6 , wherein the inward longitudinal rib is arranged on a second collar arranged in the case and initially locked to the case for joint axial translation, the second collar being part of the syringe retraction control mechanism, wherein the syringe retraction control mechanism is arranged to disengage from the case and engage the carrier when the case is moved in the distal direction (D) from a position with the needle in the injection depth, the control spring acting between the second collar and the first collar so as to bias the case or the carrier in the distal direction (D). 8. The auto-injector according to claim 3 , wherein the trigger button is arranged distally, and wherein the distally arranged trigger button is at least initially coupled to the carrier, wherein the case is arranged to abut the trigger button in the initial state preventing depression of the trigger button, wherein on translation of the case into the advanced position the trigger button remains coupled to the carrier thus emerging from the case so as to allow depression of the trigger button. 9. The auto-injector according to claim 3 , wherein the collar bearing of the syringe retraction control mechanism is positioned against the distal end of the control spring and has a resilient proximal beam with a beam head having an inward boss, wherein the beam head is arranged to be in a ramped engagement with a second case detent in the case in a manner ramping the beam head in the inward direction (I) under load of the control spring in the distal direction (D), wherein the inward boss is arranged to inwardly abut the carrier for preventing inward deflection of the beam head and keep the collar locked to the case, wherein a recess is arranged in the carrier for allowing the inward boss to be inwardly deflected on translation of the case in the distal direction (D)