Indicator for torque limiter

The invention claimed is: 1. An indicator for a torque limiter, comprising: one or more resilient members configured to move from an initial, compressed state to a subsequent, expanded state to provide a visual indication that the torque limiter has tripped; wherein the one or more resilient members comprise one or more resilient tines connected at a first end to an outer surface of the indicator, such that the one or more resilient tines are compressible against or towards the outer surface of the indicator, and move from the compressed state to the expanded state in use by rotating about the connection at the first end. 2. An indicator as claimed in claim 1 , wherein the subsequent, expanded state corresponds to a rest state of the one or more resilient members, and the initial, compressed state corresponds to a state in which an external force is applied in use to compress the one or more resilient members. 3. An indicator as claimed in claim 2 , wherein upon release of the external force the one or more resilient members are configured to move from the initial, compressed state to the subsequent, expanded state to provide the visual indication that the torque limiter has tripped. 4. An indicator as claimed in claim 1 , wherein the one or more resilient tines define an angle (α) with respect to the outer surface of the indicator, wherein in the initial, compressed state the angle (α) is relatively small, and in the subsequent, expanded state the angle (α) is relatively large. 5. An indicator as claimed in claim 4 , wherein the angle (α) is between the outer surface of the indicator and a longitudinal axis (X) and/or surface of the one or more resilient tines. 6. An indicator as claimed in claim 5 , wherein the surface of the one or more resilient tines corresponds to a surface of the resilient tines that is compressible towards the outer surface of the indicator. 7. An indicator as claimed in claim 1 , wherein the one or more resilient members comprises: a first set of resilient members located at a first position on the indicator; and a second set of resilient members located at a second, different position on the indicator, wherein, in use, the first set of resilient members at the first position are configured to move from the initial, compressed state to the subsequent, expanded state prior to the second set of resilient members at the second, different position. 8. A torque limiter comprising: an indicator that includes one or more resilient members configured to move from an initial, compressed state to a subsequent, expanded state to provide a visual indication that the torque limiter has tripped; a cavity retaining the indicator, wherein cavity extends from an outer surface of the torque limiter to an internal chamber of the torque limiter, and is sized such that the one or more resilient members are compressed into their initial, compressed state when the indicator is located in the cavity in use; and a movable component configured to move in a given direction if the torque experienced by the torque limiter in use exceeds a given or predetermined amount; wherein the movable component is arranged to contact the indicator such that the movement of the movable component pushes the indicator at least partially through the cavity, and at least some of the resilient members completely through the cavity, such that the resilient members pushed completely through the cavity move from the initial, compressed state within the cavity to the subsequent, expanded state outside of the cavity and provide the visual indication that the torque limiter has tripped; and wherein: the indicator is elongated and comprises a longitudinal axis (Y); a first set of members are located at a first axial position along the length of the indicator; a second set of members are located at a second axial position along the length of the indicator, wherein the first axial position is closer to an end of the indicator that is located towards the outer surface of the torque limiter in use; and the movable component is configured to push the indicator a limited amount such that, when the movable component pushes the indicator the first set of members are pushed out of the cavity and move from the initial, compressed state to the subsequent, expanded state, and the second set of members remain within the cavity and press against the surface of the cavity to resist further movement of the indicator within the cavity. 9. A torque limiter as claimed in claim 8 , further comprising: a rotational input drive member; a rotational output drive member co-axial with said input drive member; one or more coupling members through which torque is transmitted from the input drive member to the output drive member; and a braking device attached to said input drive member or said output drive member and configured to restrict or prevent rotational movement of the torque limiter if the torque applied by said input drive member exceeds a given or predetermined amount; wherein said braking device comprises the movable component.