Locking mechanism for an aerosol dispenser

The invention claimed is: 1. A locking mechanism for an aerosol dispenser, wherein the locking mechanism comprises: a first body structure, a second body structure configured to be rotatably attached to the first body structure, a spindle configured to be rotatably attached to the second body structure, the spindle having an actuator configured to rotationally cooperate with the first body structure such that rotation of the first body structure relative to the second body structure causes rotation of the actuator and of the spindle, a movable element arranged around the spindle, the spindle being rotatable relative to the movable element, wherein rotation of the spindle causes movement of the movable element along the spindle from an initial position to a final position, and a locking element, wherein the locking element is arranged in a first recess of a wall and attached to the wall of one of the first body structure and the second body structure, wherein in the final position the movable element is configured to apply a radial force onto the locking element causing the locking element to bend in the radial direction thereby preventing rotation between the first body structure and the second body structure, and wherein the moveable element is configured to axially slide against the locking element as the movable element is moved towards the final position to thereby bend the locking element radially such that it engages with a second recess of a wall of the other one of the first body structure and the second body structure. 2. The locking mechanism as claimed in claim 1 , wherein the movable element is a dose indicator configured to provide an indication of the remaining number of doses. 3. The locking mechanism as claimed in claim 1 , wherein the locking element is a spring. 4. The locking mechanism as claimed in claim 3 , wherein the spring is a sheet spring. 5. The locking mechanism as claimed in claim 1 , wherein the spindle and the movable element have a threaded connection. 6. The locking mechanism as claimed in claim 1 , wherein the movable element has an elongated axially extending end portion which has a bevelled cross-section, and wherein the locking element has a radially curved section configured to cooperate with the axially extending end portion to thereby cause bending of the locking element. 7. An aerosol dispenser comprising a locking mechanism according to claim 1 . 8. The aerosol dispenser as claimed in claim 7 , wherein the aerosol dispenser is an inhaler or an eye dispenser. 9. A locking mechanism for an aerosol dispenser, wherein the locking mechanism comprises: a first body structure; a second body structure rotatably attached to the first body structure; a spindle rotatably attached to the second body structure, where the spindle comprises an actuator that is rotationally cooperate with the first body structure such that rotation of the first body structure relative to the second body structure causes rotation of the actuator and of the spindle; a dose indicator configured to provide a user an indication of a remaining number of doses and that is arranged around the spindle, where the spindle is rotatable relative to the dose indicator and where rotation of the spindle causes movement of the dose indicator along the spindle from an initial position to a final position; a locking element comprising a spring wherein the spring is arranged in a first recess of a wall and attached to the wall of one of the first body structure and the second body structure, wherein in the final position the dose indicator will apply a radial force onto the locking element causing the locking element to bend in the radial direction thereby preventing rotation between the first body structure and the second body structure; and wherein the dose indicator axially slides against the spring as the dose indicator moves towards the final position thereby bending the spring radially such that it engages with a second recess of a wall of the other one of the first body structure and the second body structure. 10. The locking mechanism of claim 9 , wherein the spindle and the dose indicator are threadedly connected. 11. The locking mechanism of claim 10 , wherein the dose indicator has an elongated axially extending end portion having a bevelled cross-section, where the locking element has a radially curved section configured to cooperate with the axially extending end portion to thereby cause bending of the locking element. 12. The locking mechanism of claim 9 , wherein the spring is a sheet spring.