Valve actuation mechanism

The invention claimed is: 1. A valve comprising; a valve actuation mechanism, the valve actuation mechanism comprising: a housing; an actuation pin rotatably mounted within the housing; at least one torque spring coupling the actuation pin to the housing for biasing the actuation pin from a first, inoperative rotational position towards a second, operative rotational position; an actuation pin retaining element for selectively retaining the actuation pin in its first position, the retaining element being engageable with the actuation pin and the housing when the retaining element is in a retaining position so as to prevent rotation of the actuation pin towards its second position, and selectively disengageable from the actuation pin and the housing to permit rotation of the actuation pin towards its second position; and a locking element for selectively preventing disengagement of the retaining element from the housing, the first position of the actuation pin corresponding to a closed state of the valve and the second position of the actuation pin corresponding to an open state of the valve. 2. The valve of claim 1 , wherein the housing comprises a housing key formation for receiving a corresponding retaining element key formation on the retaining element when the retaining element is in its retaining position. 3. The valve of claim 2 , wherein the locking element comprises a locking element key formation selectively alignable with the housing key formation and the retaining element key formation to permit the retaining element to disengage from the housing. 4. The valve of claim 3 , wherein the housing key formation and locking element key formation each comprise at least one slot. 5. The valve of claim 3 , wherein the locking element key formation comprises an opening through which the retaining element can pass when the locking element key formation and retaining element key formation are aligned. 6. The valve of claim 3 , wherein the retaining element comprises a further key formation for receiving an end of the actuation pin when the retaining element is in its retaining position. 7. The valve of claim 5 , wherein the locking element comprises a securing element configured to retain the locking element in at least one of a locked position and a release position, in which the release position allows the retaining element to disengage from the housing. 8. The valve of claim 7 , wherein the securing element comprises a resilient member deformable to allow the locking element to rotate between the locked position and the release position. 9. The valve of claim 7 , wherein the securing element comprises at least one resilient arm which engages a detent in the housing to retain the locking element in at least one of the locked and release positions. 10. The valve of claim 1 , wherein the locking element comprises a securing element configured to retain the locking element in at least one of a locked position and a release position, in which the release position allows the retaining element to disengage from the housing. 11. The valve of claim 10 , wherein the securing element comprises a resilient member deformable to allow the locking element to rotate between the locked position and the release position. 12. The valve of claim 10 , wherein the securing element comprises at least one resilient arm which engages a detent in the housing to retain the locking element in at least one of the locked and release positions. 13. The valve of claim 10 , wherein the securing element is received within a groove formed within a peripheral wall of the locking element. 14. The valve of claim 13 , wherein the groove comprises openings therein to allow engagement of a resilient arm of the securing element with a detent in the housing. 15. The valve of claim 1 , wherein the actuation pin comprises a slot to accommodate a first end of the torque spring. 16. The valve of claim 1 , wherein the housing comprises a slot to accommodate a second end of the torque spring. 17. The valve of claim 1 , wherein the retaining element comprises a key formation for receiving an end of the actuation pin when the retaining element is in its retaining position. 18. A method of assembling an of a valve, the method comprising: coupling a torque spring to an actuation pin by inserting a first end of the torque spring into a slot in the actuation pin; mounting the actuation pin and torque spring within a housing, wherein a second end of the torque spring extends into a slot within the wall of the housing; coupling a locking element to the housing; engaging a retaining element with the actuation pin and rotating the retaining element so that the actuation pin rotates to load the torque spring; engaging the retaining element with the housing so that the housing prevents the retaining element and actuation pin from rotating under the load of the torque spring; locking the locking element to prevent disengagement of the retaining element from the actuation pin and the housing; and coupling the actuation mechanism to the valve, the first position of the actuation pin corresponding to a closed state of the valve and the second position of the actuation pin corresponding to an open state of the valve. 19. The method of claim 18 , wherein locking the locking element comprises moving a key formation of the locking element out of alignment with a corresponding key formation of the retaining element. 20. A valve actuation mechanism comprising: a housing; an actuation pin rotatably mounted within the housing; at least one torque spring coupling the actuation pin to the housing for biasing the actuation pin from a first, inoperative rotational position towards a second, operative rotational position; an actuation pin retaining element for selectively retaining the actuation pin in its first position, the retaining element being engageable with the actuation pin and the housing when the retaining element is in a retaining position so as to prevent rotation of the actuation pin towards its second position, and selectively disengageable from the housing to permit rotation of the actuation pin towards its second position; and a locking element for selectively preventing disengagement of the retaining element from the housing, wherein the housing comprises a housing key formation for receiving a corresponding retaining element key formation on the retaining element when the retaining element is in its retaining position, wherein the locking element comprises a locking element key formation selectively alignable with the housing key formation and the retaining element key formation to permit the retaining element to disengage from the housing, wherein the locking element key formation comprises an opening through which the retaining element can pass when the locking element key formation and retaining element key formation are aligned, wherein the locking element comprises a securing element configured to retain the locking element in at least one of a locked position and a release position, in which the release position allows the retaining element to disengage from the housing.