Overspeed governor tension sheave assembly

The invention claimed is: 1. An overspeed governor assembly configured to monitor movement of an elevator car along a guide rail in an elevator shaft, the overspeed governor assembly comprising: a first member coupled to the guide rail; and an overspeed governor tension sheave assembly coupled to the first member, the overspeed governor tension sheave assembly including, a governor tension sheave configured to be supported by a governor rope coupled to the elevator car, such that the governor rope extends in a closed loop running at least under the governor tension sheave, a second member coupled to the governor tension sheave and further coupled to the first member through a pivot member, such that the overspeed governor tension sheave assembly is configured to rotate around a central axis of the pivot member in relation to the first member, based on a position of the governor tension sheave in relation to the first member, and a monitoring device configured to rotate around the central axis of the pivot member to provide an upwards-directed visually observable indication of whether a magnitude of the overspeed governor tension sheave assembly rotation in relation to the first member at least meets a threshold rotation magnitude, wherein the monitoring device is at least partially configured to move alone with the rotation of the overspeed governor tension sheave assembly. 2. The overspeed governor assembly according to claim 1 , wherein, the monitoring device includes a visible indication area, and the visible indication area includes at least one allowable zone configured to provide a visually observable indication that the magnitude of the overspeed governor tension sheave assembly rotation is less than the threshold rotation magnitude. 3. The overspeed governor assembly according to claim 2 , wherein, the at least one allowable zone is defined by two separate rotation threshold magnitudes; the visible indication area includes a plurality of visible zones, the plurality of visible zones including the allowable zone and at least two separate warning zones at least partially defined by separate, respective rotation threshold magnitudes such that the at least one allowable zone is between the at least two separate warning zones; and each warning zone is configured to provide a visually observable indication that the magnitude of the overspeed governor tension sheave assembly rotation at least meets a separate one of the two rotation threshold magnitudes. 4. The overspeed governor assembly according to claim 3 , wherein each zone of the plurality of visible zones is associated with a separate, distinctive color such that the at least two warning zones are associated with a different color than the allowable zone. 5. The overspeed governor assembly according to claim 3 , wherein, the plurality of visible zones includes a pre-warning zone between the allowable zone and at least one warning zone of the at least two warning zones, and the pre-warning zone is associated with a different color than the allowable zone and the at least two warning zones. 6. The overspeed governor assembly according to claim 2 , wherein the indication area includes a scale configured to provide the visually observable indication of the magnitude of the overspeed governor tension sheave assembly rotation. 7. A method of operation of an overspeed governor assembly to monitor movement of an elevator car along a guide rail in an elevator shaft, the method comprising: an overspeed governor tension sheave assembly of the overspeed governor assembly rotating in relation to a first member of the overspeed governor assembly, wherein, the first member is coupled to the guide rail, the overspeed governor tension sheave assembly includes a governor tension sheave configured to be supported by a governor rope coupled to the elevator car such that the governor rope extends in a closed loop running at least under the governor tension sheave, the overspeed governor tension sheave assembly further includes a second member coupled to the governor tension sheave and further coupled to the first member through a pivot member, and the overspeed governor tension sheave assembly rotates around a central axis of the pivot member in relation to the first member based on a change in a position of the governor tension sheave in relation to the first member; and a monitoring device of the overspeed governor assembly rotating around the central axis of the pivot member to provide an upwards-directed visually observable indication of a magnitude of the overspeed governor tension sheave assembly rotation in relation to the first member, based on the rotation of the overspeed governor tension sheave assembly rotation in relation to the first member, wherein the monitoring device at least partially moves along with the rotation of the overspeed governor tension sheave assembly to provide the visually observable indication of the magnitude of the overspeed governor tension sheave assembly rotation. 8. The method of claim 7 , further comprising: the monitoring device providing a visually observable indication that a magnitude of the overspeed governor tension sheave assembly at least meets a threshold rotation magnitude. 9. The method of claim 8 , wherein, the monitoring device includes a visible indication area; the visible indication area includes at least one allowable zone configured to provide a visually observable indication that a magnitude of the overspeed governor tension sheave assembly rotation is less than the threshold rotation magnitude; the at least one allowable zone is at least partially defined by a visually observable indication of the threshold rotation magnitude; and the monitoring device provides the visually observable indication that the magnitude of the overspeed governor tension sheave assembly rotation at least meets the threshold rotation magnitude based on providing a visually observable indication associated with a portion of the visible indication area that is external to the at least one allowable zone. 10. The method of claim 9 , wherein, the at least one allowable zone is defined by two separate rotation threshold magnitudes; the visible indication area includes a plurality of visible zones; the plurality of visible zones includes the allowable zone and at least two separate warning zones at least partially defined by separate, respective rotation threshold magnitudes such that the at least one allowable zone is between the at least two separate warning zones; and each warning zone is configured to provide a visually observable indication that the rotation magnitude exceeds a separate one of the rotation threshold magnitudes. 11. The method of claim 10 , wherein each zone of the plurality of visible zones is associated with a separate, distinctive color such that the at least two warning zones are associated with a different color than the allowable zone. 12. The method of claim 10 , wherein, the plurality of visible zones includes a pre-warning zone between the allowable zone and at least one warning zone of the at least two warning zones, and the pre-warning zone is associated with a different color than the allowable zone and the at least two warning zones. 13. The method of claim 9 , wherein the indication area includes a scale configured to provide the visually observable indication of the magnitude of the overspeed governor tension sheave assembly rotation.