Torque limiter assembly

The invention claimed is: 1. A torque limiting assembly comprising: an input shaft; an output shaft; and a first resilient biasing member having a first portion connected to the input shaft and a second portion coupled to the output shaft, wherein the second portion of the first resilient biasing member is attached to a wedge member, wherein the wedge member is in contact with an engagement member, and wherein the engagement member is movable between a first position in which it is connected with the output shaft for rotationally coupling the input shaft to the output shaft and a second position in which it is disconnected from the output shaft for rotationally decoupling the input shaft from the output shaft; wherein the assembly is configured such that, in a low torque mode, when the input shaft is rotated in a first direction the first resilient biasing member is compressed by a relatively low amount and transmits a force from rotation of the input shaft to drive rotation of the output shaft; wherein the assembly is configured such that, in a high torque mode, when the input shaft is rotated in the first direction the first resilient biasing member is compressed by a relatively high amount such that the input shaft rotates relative to the output shaft, thereby moving or urging the engagement member so as to disconnect the input shaft from the output shaft; and wherein the assembly comprises a further resilient biasing member arranged and configured to bias the engagement member into engagement with the output shaft in the low torque mode. 2. The assembly of claim 1 , wherein the first resilient biasing member comprises a spring. 3. The assembly of claim 1 , wherein the first resilient biasing member is an elongated member that extends circumferentially only part way around a rotational axis of the input shaft. 4. The assembly of claim 1 , wherein in the low torque mode, the first resilient biasing member is compressed by said relatively low amount such that it exerts a relatively low force on the engagement member so as to drive rotation of the output shaft; and wherein in the high torque mode, the first resilient biasing member is compressed by said relatively high amount such that it exerts a force on the engagement member that moves it to said second position in which it is disconnected from the output shaft. 5. The assembly of claim 1 , wherein the engagement member is movable between said first and second positions in a radial direction with respect to a rotational axis of the input shaft. 6. The assembly of claim 5 , wherein the wedge member comprises a surface in contact with the engagement member that is at an acute or obtuse angle to the radial direction such that when the first biasing member is urged circumferentially in the first direction by the input shaft, it transmits a force to the engagement member having a component in the radial direction and a component in a circumferential direction. 7. The assembly of claim 5 , wherein the output shaft has a detent in its circumferential surface for receiving the engagement member when in the first position. 8. A torque limiting assembly comprising: an input shaft; an output shaft; and a first resilient biasing member having a first portion connected to the input shaft and a second portion coupled to the output shaft, wherein the second portion of the first resilient biasing member is attached to a wedge member, wherein the wedge member is in contact with an engagement member, and wherein the engagement member is movable between a first position in which it is connected with the output shaft for rotationally coupling the input shaft to the output shaft and a second position in which it is disconnected from the output shaft for rotationally decoupling the input shaft from the output shaft; wherein the assembly is configured such that, in a low torque mode, when the input shaft is rotated in a first direction the first resilient biasing member is compressed by a relatively low amount and transmits a force from rotation of the input shaft to drive rotation of the output shaft; wherein the assembly is configured such that, in a high torque mode, when the input shaft is rotated in the first direction the first resilient biasing member is compressed by a relatively higher amount such that the input shaft rotates relative to the output shaft, thereby moving or urging the engagement member so as to disconnect the input shaft from the output shaft; and wherein the assembly further comprises: a second resilient biasing member having a first portion connected to the input shaft and a second portion is coupled to the engagement member; wherein the assembly is configured such that, in a low torque mode, when the input shaft is rotated in a second direction the second resilient biasing member is compressed by a relatively low amount and transmits a force from rotation of the input shaft to drive rotation of the output shaft; and wherein the assembly is configured such that, in a high torque mode, when the input shaft is rotated in the second direction the second resilient biasing member is compressed by a relatively higher amount such that the input shaft rotates relative to the output shaft, thereby moving the engagement member so as to decouple the input shaft from the output shaft. 9. The assembly of claim 1 , wherein the second portion of the first resilient biasing member is fixedly coupled to the output shaft such that it cannot move relative thereto. 10. A torque limiting assembly comprising: an input shaft; an output shaft; a movable engagement member biased to engage the output shaft; an elongated spring having a longitudinal axis that circumferentially extends part way around a rotational axis of the input shaft, the spring having a first end coupled to the input shaft and a second end coupled to the movable engagement member; wherein the assembly is configured such that, in a low torque mode, rotation of the input shaft compresses the spring along its longitudinal axis by a relatively low amounts so as to thereby transmit a rotational force through the spring to the engagement member engaging the output shaft so as to drive rotation of the output shaft; and wherein the assembly is configured such that, in a high torque mode, rotation of the input shaft compresses the spring along its longitudinal axis by a relatively higher amount and causes the spring to move the engagement member so as to disengage the engagement member from the output shaft.