Feedback mechanism for an injection device

The invention claimed is: 1. A feedback mechanism for an injection device, the injection device configured to deliver a medicament to a user, the feedback mechanism comprising: a delay element; a biasing member configured to apply a force to the delay element, wherein the delay element is configured to be deformed and/or broken by the force at a time after the force is applied by the biasing member; an indicator configured to generate user feedback after the delay element is deformed and/or broken; and a restraining element configured to be moveable from a first position, in which the restraining element prevents the delay element from being deformed and/or broken by the force of the biasing member, to a second position, in which the delay element is deformed and/or broken by the force of the biasing member applied to the delay element. 2. The feedback mechanism of claim 1 , wherein the delay element comprises a member having a narrow section configured to be deformed and/or broken by the force of the biasing member. 3. The feedback mechanism of claim 1 , wherein the delay element comprises a deformable member configured to be deformed and/or broken by the force of the biasing member. 4. The feedback mechanism of claim 1 , wherein the delay element comprises a flexible tether configured to be deformed and/or broken by the force of the biasing member. 5. The feedback mechanism of claim 1 , wherein the feedback mechanism comprises a moveable member, and wherein the delay element is attached to the moveable member and to a fixing, and wherein the biasing member is configured to urge the moveable member relative to the fixing such that the force is applied to the delay element. 6. The feedback mechanism of claim 5 , wherein the moveable member comprises an arm pivotally mounted to a pivot, and the biasing member is configured to urge the arm to rotate about the pivot. 7. The feedback mechanism of claim 5 , wherein the moveable member comprises a plate, and the biasing member is configured to act on the plate. 8. The feedback mechanism of claim 5 , wherein the indicator comprises a sound generator configured to be impacted by the moveable member after the delay element is deformed and/or broken to generate a sound. 9. The feedback mechanism of claim 5 , wherein the indicator comprises a pre-stressed element disposed such that the moveable member holds the pre-stressed element in a deflected state until the moveable member is moved, at which point the pre-stressed element moves to a non-deflected state and generates the user feedback. 10. The feedback mechanism of claim 5 , further comprising a holding mechanism configured to hold the moveable member such that the delay element is prevented from being deformed or broken, and wherein the holding mechanism is further configured to release the moveable member so that the delay element can be deformed and/or broken by the force of the biasing member. 11. The feedback mechanism of claim 10 , wherein the holding mechanism is configured to release the moveable member after the injection device has completed delivery of medicament to the user. 12. An injection device comprising: a medicament delivery mechanism comprising: a reservoir; and a plunger configured to move during use from a first position to a second position to displace medicament from the reservoir for delivery to a user during use of the injection device; and a feedback mechanism comprising: a delay element; a biasing member configured to apply a force to the delay element, wherein the delay element is configured to be deformed and/or broken by the force at a time after the force is applied by the biasing member; an indicator configured to generate user feedback after the delay element is deformed or broken; and a restraining element configured to be moveable from a first position, in which the restraining element prevents the delay element from being deformed and/or broken by the force of the biasing member, to a second position, in which the delay element is deformed and/or broken by the force of the biasing member applied to the delay element. 13. The injection device of claim 12 , wherein the feedback mechanism comprises a moveable member that is attached to the delay element, and wherein the biasing member is configured to apply a force to the moveable member such that the force is applied to the delay element. 14. The injection device of claim 13 , wherein the plunger is arranged such that in the first position the plunger engages the moveable member to prevent movement of the moveable member, and in the second position the plunger disengages the moveable member. 15. The injection device of claim 13 , wherein the delay element is attached to the moveable member and to a fixing. 16. The injection device of claim 13 , wherein the delay element is attached to the moveable member and to the plunger. 17. The injection device of claim 13 , wherein the moveable member comprises a plate, and the biasing member is configured to act on the plate. 18. The injection device of claim 17 , further comprising a locking arm configured to engage the plate, the locking arm being pivotally mounted such that in the first position the plunger prevents rotation of the locking arm and the plate is retained by the locking arm, and in the second position the locking arm is free to rotate and release the plate. 19. The injection device of claim 18 , wherein the delay element is configured to resist rotation of the locking arm until the delay element is deformed and/or broken. 20. The injection device of claim 12 , wherein the reservoir contains the medicament. 21. A method of using an injection device, the method comprising: delivering a medicament to a user; applying a force to a delay element using a biasing member to deform and/or break the delay element by moving a restraining element from a first position, in which the restraining element prevents the delay element from being deformed and/or broken by the force of the biasing member, to a second position, in which the delay element is deformed and/or broken by the force of the biasing member applied to the delay element; and generating user feedback after the delay element has been deformed and/or broken; wherein a delay is provided such that the delay element is deformed and/or broken at a time after the force is applied.