Torque limiter assembly

The invention claimed is: 1. A torque limiting assembly comprising: an input shaft; an output shaft; a drive bush; a motion converter mechanism; a casing; and at least one engagement member for engaging the casing; wherein the input shaft is coupled to the drive bush, and the drive bush is coupled to the output shaft by the motion converter mechanism such that, in a low torque mode, rotation of the input shaft drives rotation of the drive bush, motion converter mechanism and output shaft; and wherein the output shaft and the motion converter mechanism are coupled such that, in a high torque mode, rotation of the motion converter mechanism relative to the output shaft about an axis of rotation urges the motion converter mechanism in a direction along the axis of rotation, wherein the motion converter mechanism and drive bush are coupled such that when the motion converter mechanism is urged along said axis of rotation the motion converter mechanism rotates the drive bush relative to the input shaft; and wherein the engagement member is coupled to both the drive bush and the input shaft such that when the drive bush is rotated relative to the input shaft, the engagement member is moved or urged to engage the casing so as to prevent or inhibit rotation of the input shaft relative to the casing. 2. The assembly of claim 1 , wherein one of the output shaft and the motion converter mechanism comprises a first protrusion and the other of the output shaft and motion converter mechanism comprises a first channel in which the protrusion is located, and wherein the first protrusion and first channel are arranged and configured such that, in the high torque mode, said rotation of the motion converter mechanism relative to the output shaft urges the motion converter mechanism in a direction along the axis of rotation. 3. The assembly of claim 1 , wherein one of the drive bush and the motion converter mechanism comprises a second protrusion and the other of the drive bush and the motion converter mechanism comprises a second channel in which the second protrusion is located, and wherein the second protrusion and second channel are arranged and configured such that, in the high torque mode, when the motion converter mechanism is urged in a direction along said axis of rotation the motion converter mechanism rotates the drive bush relative to the input shaft. 4. The assembly of claim 2 , wherein at least one of first channel and the first protrusion is elongated and extends both around and along the axis of rotation. 5. The assembly of claim 3 , wherein at least one of the second channel and the second protrusion is elongated and extends both around and along the axis of rotation. 6. A torque limiting assembly comprising: an input shaft; an output shaft; a drive bush; a motion converter mechanism; a casing; and at least one engagement member for engaging the casing; wherein the input shaft is coupled to the drive bush, and the drive bush is coupled to the output shaft by the motion converter mechanism such that, in a low torque mode, rotation of the input shaft drives rotation of the drive bush, motion converter mechanism and output shaft; and wherein the output shaft and the motion converter mechanism are coupled such that, in a high torque mode, rotation of the motion converter mechanism relative to the output shaft about an axis of rotation urges the motion converter mechanism in a direction along the axis of rotation, wherein the motion converter mechanism and drive bush are coupled such that when the motion converter mechanism is urged along said axis of rotation the motion converter mechanism rotates the drive bush relative to the input shaft; and wherein the engagement member is coupled to both the drive bush and the input shaft such that when the drive bush is rotated relative to the input shaft, the engagement member is moved or urged to engage the casing so as to prevent or inhibit rotation of the input shaft relative to the casing; wherein the motion converter mechanism comprises a first portion engaged with the output shaft, a second portion engaged with the drive bush, and a resilient biasing member arranged between the first and second portions for resisting movement of the first and second portions towards each other along the axis of rotation, and thereby resisting rotation of the motion converter mechanism relative to the output shaft. 7. The assembly of claim 6 , wherein the resilient biasing member is configured such that in the low torque mode it is compressed by a relatively low amount such that there is a relatively low amount of rotation of the motion converter mechanism relative to the output shaft; and the resilient biasing member is configured such that in the high torque mode it is compressed by a relatively high amount such that there is a relatively high amount of rotation of the motion converter mechanism relative to the output shaft. 8. The assembly of claim 6 , wherein the resilient biasing member is arranged between the first and second portions for biasing the first and second portions away from each other along the axis of rotation, and wherein the assembly further comprises a movement limiting member for limiting the maximum amount of movement of the first and second portions away from each other. 9. The assembly of claim 8 , wherein the movement limiting member is selectively adjustable for selectively adjusting the maximum amount of movement of the first and second portions away from each other. 10. The assembly of claim 6 , wherein the resilient biasing member is a spring. 11. A torque limiting assembly comprising: an input shaft; an output shaft; a drive bush; a motion converter mechanism; a casing; and at least one engagement member for engaging the casing; wherein the input shaft is coupled to the drive bush, and the drive bush is coupled to the output shaft by the motion converter mechanism such that, in a low torque mode, rotation of the input shaft drives rotation of the drive bush, motion converter mechanism and output shaft; and wherein the output shaft and the motion converter mechanism are coupled such that, in a high torque mode, rotation of the motion converter mechanism relative to the output shaft about an axis of rotation urges the motion converter mechanism in a direction along the axis of rotation, wherein the motion converter mechanism and drive bush are coupled such that when the motion converter mechanism is urged along said axis of rotation the motion converter mechanism rotates the drive bush relative to the input shaft; and wherein the engagement member is coupled to both the drive bush and the input shaft such that when the drive bush is rotated relative to the input shaft, the engagement member is moved or urged to engage the casing so as to prevent or inhibit rotation of the input shaft relative to the casing; wherein the input shaft is coupled to the drive bush by an intermediate bush, wherein the input shaft comprises first teeth engaged with second teeth on the intermediate bush and the intermediate bush comprises third teeth engaged with fourth teeth on the drive bush. 12. The assembly of claim 11 , wherein backlashes are arranged between the first and second teeth and/or between the third and fourth teeth, thereby allowing the input shaft to drive the drive bush in the low torque mode and allowing rotation of the drive bush relative to the input shaft in the high torque mode. 13. The assembly of claim 11 , wherein the intermediate bush contacts the engagement member so that rotation of the intermediate bush causes a corresponding rotation of the engagement member. 14. The assembly of c