Torque limiter responsive to output torque

What is claimed is: 1. A torque limiter for limiting transmission of torque between an input shaft rotatable about an input axis and an output shaft rotatable about an output axis, the torque limiter comprising: a structural ground; and a gear assembly for transmitting rotational motion of the input shaft to the output shaft, wherein the gear assembly includes: (i) an input gear rotated relative to the structural ground in response to rotation of the input shaft, (ii) a reference gear coupled to the structural ground such that the reference gear does not move relative to the structural ground unless a torque limit is exceeded, (iii) a driven gear associated with the output shaft, wherein the output shaft is rotated in response to rotation of the driven gear; and (iv) at least one transmitting gear engaging the input gear, the reference gear and the driven gear such that rotation of the input shaft causes rotation of the output shaft without causing movement of the reference gear relative to the structural ground unless the torque limit is exceeded, wherein the reference gear moves relative to the structural ground when the torque limit is exceeded; wherein the input gear and the reference gear are arranged coaxially with one another along a main axis, and the reference gear rotates about the main axis relative to the structural ground when the torque limit is exceeded; wherein the torque limiter further comprises a lockout mechanism for preventing transmission of torque between the input shaft and the output shaft after the torque limit has been exceeded, wherein the lockout mechanism redirects torque from the input shaft to the structural ground after the torque limit has been exceeded; wherein the lockout mechanism comprises: a pawl carrier arranged to rotate with the input shaft; at least one pawl member pivotally coupled to the pawl carrier; a lockout ring including at least one stop extending radially inward, wherein the lockout ring is arranged along the main axis and is axially displaceable from a non-lockout position wherein each stop is radially clear of each pawl member to a lockout position wherein each stop radially interferes with each pawl member; a spring arranged to urge the lockout ring toward the non-lockout position; and a plurality of ball bearings seated between the lockout ring and the reference gear so as to (a) maintain the lockout ring in the non-lockout position when the lockout ring and the reference gear are in a predetermined angular orientation about the main axis relative to one another, and (b) displace the lockout ring toward the lockout position when the reference gear rotates about the main axis relative to the lockout ring. 2. The torque limiter according to claim 1 , wherein the gear assembly is a planetary gear assembly in which the input gear is arranged as a sun gear on the input shaft, the reference gear is arranged as a ring gear about the input gear, and the at least one transmitting gear includes a plurality of planet gears arranged between the input gear and the reference gear. 3. The torque limiter according to claim 2 , wherein the input gear and the driven gear are arranged coaxially with one another along the main axis. 4. The torque limiter according to claim 3 , wherein the plurality of planet gears extend axially in a direction parallel to the main axis. 5. The torque limiter according to claim 3 , wherein the reference gear is arranged coaxially with the input gear and the driven gear along the main axis. 6. The torque limiter according to claim 1 , wherein the structural ground includes a housing containing the gear assembly. 7. The torque limiter according to claim 6 , wherein the reference gear is coupled to the housing by frictional contact. 8. The torque limiter according to claim 7 , wherein the frictional contact includes frictional contact between an annular end surface of the reference gear and a radial step surface of the housing. 9. The torque limiter according to claim 8 , wherein the frictional contact between the end surface of the reference gear and the radial step surface of the housing is spring-loaded. 10. The torque limiter according to claim 1 , wherein the plurality of ball bearings are seated within a corresponding set of pockets in the lockout ring and another corresponding set of pockets in the reference gear. 11. The torque limiter according to claim 10 , wherein the pockets in the lockout ring and the pockets in the reference gear have a first slope associated with a first angular direction about the main axis and a second slope associated with a second angular direction about the main axis opposite the first angular direction, and wherein the first slope differs from the second slope. 12. A torque limiter for limiting transmission of torque between an input shaft rotatable about an input axis and an output shaft rotatable about an output axis, the torque limiter comprising: a structural ground; a gear assembly for transmitting rotational motion of the input shaft to the output shaft, the gear assembly including a reference gear coupled to the structural ground such that movement of the reference gear relative to the structural ground is dependent upon an output torque at the output shaft; wherein the reference gear is stationary relative to the structural ground when the output torque is below an output torque limit, and the reference gear moves relative the structural ground when the output torque exceeds the output torque limit; and a lockout mechanism for preventing transmission of torque between the input shaft and the output shaft after the torque limit has been exceeded; wherein the lockout mechanism redirects torque from the input shaft to the structural ground after the torque limit has been exceeded; and wherein the lockout mechanism is actuated by rotational motion of the reference gear relative to the structural ground. 13. The torque limiter according to claim 12 , wherein the gear assembly further includes an input gear arranged to rotate with the input shaft and a plurality of transmitting gears meshing with the input gear and the reference gear. 14. The torque limiter according to claim 13 , wherein the gear assembly further includes a driven gear by which rotation is transmitted to the output shaft, and wherein the plurality of transmitting gears also mesh with the driven gear.