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 a tubular case, a carrier subassembly comprising a tubular carrier slidably arranged relative to the chassis 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 for translating the carrier in a proximal direction (P) for insertion of the needle through the chassis into an injection site, wherein the control spring is arranged to bias the case against the chassis in a distal direction (D) so as to extend the chassis out of a proximal end (P) of the case, wherein an insertion depth of the needle is defined by the carrier abutting the chassis in a predefined position, wherein the case is arranged to release or allow release of the control spring for needle insertion on translation of the case in the proximal direction (P) relative to the chassis against the bias into an advanced position, wherein a proximal end of the control spring is configured to be decoupled from the chassis and coupled to the carrier for needle insertion. 2. The auto-injector according to claim 1 , wherein the carrier is arranged to be translated in the distal direction (D) for retracting the needle when the case is moved in the distal direction (D) relative to the chassis by a predefined distance. 3. The auto-injector according to claim 2 , wherein the carrier is arranged to be translated in the distal direction (D) in response to the proximal end of the control spring being released from the carrier and coupled to the chassis or the case and in response to the distal end of the control spring being decoupled from the case and coupled to the carrier. 4. The auto-injector according to claim 1 , wherein a trigger button is arranged distally or laterally in or on the case, wherein a needle insertion control mechanism is arranged for coupling the proximal end of the control spring to either the carrier for advancing it for needle insertion or to the chassis for needle retraction depending on a relative axial position of the carrier and the chassis, wherein a plunger release mechanism is arranged for releasing the plunger for injection when the carrier has at least almost reached an injection depth during needle insertion, wherein a detent mechanism is arranged for coupling the chassis to the carrier for joint axial translation relative to the case, wherein the detent mechanism is arranged to decouple the chassis from the carrier upon actuation of the trigger button thus allowing the carrier to move relative to the chassis so as to cause the needle insertion control mechanism to decouple the proximal end of the control spring from the chassis and couple the proximal end of the control spring to the carrier for needle insertion, wherein a syringe retraction control mechanism is arranged for coupling a distal end of the control spring to either the carrier for needle retraction or to the case otherwise. 5. The auto-injector according to claim 4 , wherein the needle insertion control mechanism comprises a first collar biased by the control spring in a proximal direction (P), wherein at least one resilient beam is proximally arranged on the first collar, wherein respective recesses are arranged in the carrier and chassis, wherein a transversal extension of a head of the resilient beam is wider than a gap between the carrier and the chassis causing the head of the resilient beam to abut a distal face on the recess in the chassis while being prevented from deflecting in an inward direction (I) by the carrier or to abut a distal face on the recess in the carrier while being prevented from deflecting in an outward direction (O) by the chassis thereby forwarding load from the control spring to the carrier for needle insertion, wherein the resilient beam is arranged to be switched between the chassis and the carrier by ramped engagement of the head to the distal faces under load of the control spring depending on a relative longitudinal position between the chassis and the carrier. 6. The auto-injector according to claim 5 , wherein the recess in the carrier is a first recess in the carrier, wherein the syringe retraction control mechanism comprises a second collar bearing against the distal end of the control spring and having a resilient proximal beam with a second beam head having an inward boss, wherein the second beam head is arranged to be in a ramped engagement with a case detent in the case in a manner ramping the second 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 second beam head and keep the second collar locked to the case, wherein a second 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) relative to the carrier on removal of the auto-injector from the injection site. 7. The auto-injector according to claim 5 , wherein a visual use indicator is provided, comprising at least one indicator window in the case, wherein a part of the chassis is arranged to be located behind the indicator window when the case is in its distal position biased by the control spring, wherein a tab on the first collar is located outwardly from the part of the chassis after the collar has been translated in the proximal direction (P) during needle insertion, wherein the tab and the part of the chassis exhibit a visually distinctive feature. 8. The auto-injector according to claim 4 , wherein the plunger release mechanism comprises at least one resilient arm on the carrier arranged to be in a ramped engagement to the plunger so as to disengage the at least one resilient arm from 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 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 resilient arm away from the peg thus allowing deflection of the 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. 9. The auto-injector according to claim 4 , wherein the detent mechanism is arranged to provide a resistive force which has to be overcome to advance the carrier in the proximal direction (P) for needle insertion. 10. The auto-injector according to claim 9 , wherein the detent mechanism comprises a resilient beam on the chassis and a rhomboid ramp member on the carrier, the resilient beam being essentially straight when relaxed and having a first beam head arranged to interact in a ramped engagement with a proximal first ramp or a distal second ramp on the rhomboid ramp member in such a manner that application of a translative force on the carrier relative to the chassis in the proximal direction (P) with the first beam head engaged to the first fourth ramp deflects the resilient beam in one transversal direction when a predetermined value of the translative force, at least depending on a resilience of the resil