Trigger mechanism for an inhaler

The invention claimed is: 1. A breath-responsive inhaler having a trigger mechanism, a trigger mechanism chassis locating the trigger mechanism within the inhaler, and an air flow path through which a user inhales, the trigger mechanism including: a medicament source, having a medicament source primed position in which the inhaler is primed for use and a medicament source actuated position in which the medicament source is actuated to dispense a dose of medicament; a toggle mechanism comprising: a vane positioned in the air flow path, the vane being pivoted about a vane pivot; and a toggle link pivotally mounted on the vane at a toggle link pivot, the toggle link pivot being proximal to the vane pivot, minimizing the inhalatory effort required to trigger the mechanism; wherein the toggle mechanism selectively permits the movement of the medicament source from the medicament source primed position to the medicament source actuated position; and an actuation arm engaging the medicament source, the actuation arm having an actuation arm primed position in which the toggle mechanism is in a primed condition, and having an actuation arm actuated position in which the toggle mechanism is in an actuated condition; wherein in the primed condition, the actuation arm is maintained in the actuation arm primed position by engagement with the toggle mechanism through the actuation arm engaging with an upper end of the toggle link, the upper end of the toggle link being distal to the toggle link pivot, and wherein in the actuated condition, the toggle mechanism is disengaged from the actuation arm, permitting the actuation arm to move to the actuation arm actuated position by movement of the upper end of the toggle link away from the actuation arm; wherein the trigger mechanism is triggered by movement of the vane upon inhalation of the user to move the toggle mechanism between the primed condition in which the medicament source is maintained in the medicament source primed position by mechanical engagement with the toggle mechanism and the actuated condition in which the toggle mechanism is mechanically disengaged from the medicament source and wherein the upper end of the toggle link defines a stub axle and the trigger mechanism chassis defines a toggle axle track, wherein the stub axle is moveable along the toggle axle track as the toggle mechanism moves between the primed condition and the actuated condition. 2. The inhaler according to claim 1 , wherein in the primed condition the actuation arm is maintained in the actuation arm primed position by engagement with the toggle link, and in the actuated condition the toggle link is disengaged from the actuation arm to permit the actuation arm to move to the actuation arm actuated position. 3. The inhaler according to claim 1 , in which the axle track defines a primary track and a follow through track, the stub axle being positioned within the primary track when the toggle mechanism is in the primed condition and positioned within the follow through track when the toggle mechanism is in the actuated condition. 4. The inhaler according to claim 3 , wherein the primary track and the follow through track are configured such that the toggle link disengages from the actuation arm as the stub axle passes from the primary track into the follow through track. 5. The inhaler according to claim 1 , in which the actuation arm is mounted on the inhaler for rotation about an actuation arm pivot. 6. The inhaler according to claim 5 , in which the actuation arm defines a follow through boss for selective engagement with the toggle link. 7. The inhaler according to claim 6 in which the follow through boss maintains the trigger mechanism in the actuated condition during delivery of the medicament. 8. The inhaler according to claim 5 , in which the actuation arm rotates about the actuation arm pivot such that the actuation arm disengages from the toggle link when the trigger mechanism moves to the actuated condition. 9. The inhaler according to claim 8 , in which the actuation arm is prevented from rotating by engagement with the toggle link pivot when the trigger mechanism is in the primed condition. 10. The inhaler according to claim 1 which is a pressurized metered dose inhaler wherein the medicament source is a canister. 11. A breath-responsive inhaler having a trigger mechanism, a trigger mechanism chassis locating the trigger mechanism within the inhaler, and an air flow path through which a user inhales, the trigger mechanism comprising: a medicament source, having a primed position in which the inhaler is primed for use and an actuated position in which the medicament source is actuated to dispense a dose of a medicament, a toggle mechanism comprising a vane positioned in the air flow path, the vane being pivoted about a vane pivot, wherein the trigger mechanism is triggered by movement of the vane upon inhalation of the user to move the toggle mechanism between a primed condition in which the medicament source is maintained in its primed position by mechanical engagement with the toggle mechanism and an actuated condition in which the toggle mechanism is disengaged from mechanical engagement with the medicament source, wherein the toggle mechanism selectively permits the movement of the medicament source from its primed position to its actuated position; and an actuation arm engaging the medicament source, the actuation arm being mounted on the inhaler for rotation about an arm pivot, the actuation arm defining a follow through boss for selective engagement with a toggle link, the actuation arm having a primed position in which the toggle mechanism is in its primed condition, and having an actuated position in which the toggle mechanism is in its actuated condition, wherein in the primed condition the actuation arm is maintained in its primed position by engagement with the toggle mechanism, and in the actuated condition the toggle mechanism is disengaged from the actuation arm to permit the actuation arm to move to its actuated position. 12. The inhaler according to claim 11 , in which a toggle link is pivotally mounted on the vane at a toggle link pivot. 13. The inhaler according to claim 12 , wherein in the primed condition the actuation arm is maintained in its primed position by engagement with the toggle link, and in the actuated condition the toggle link is disengaged from the actuation arm to permit the actuation arm to move to its actuated position. 14. The inhaler according to claim 11 , in which the toggle link is proximal to the vane pivot to minimize the inhalatory effort required to trigger the mechanism. 15. The inhaler according to claim 14 , in which the actuation arm is maintained in its primed position by engagement of the actuation arm with an upper end of the toggle link, the upper end being distal the toggle link pivot. 16. The inhaler according to claim 15 , in which the actuation arm is disengaged from the toggle link to permit the actuation arm to move to its actuated position by movement of the upper end of the toggle link away from a location of engagement between the upper end of the toggle link and the actuation arm. 17. The inhaler according to claim 16 , in which the actuation arm is disengaged from the toggle link to permit the actuation arm to move to its actuated position by movement of the upper end of the toggle link away from the actuation arm. 18. The inhaler according to claim 17 , in which the upper end of the toggle link defines a stub axle and the trigger mechanism chassis def