Elevator car dynamic sag damping system

What is claimed is: 1. A damping device for damping oscillation of a parked car in an elevator system, the damping device comprising: a base plate; and at least one damping assembly connected to the base plate, the at least one damping assembly including a first damping assembly and a second damping assembly separated by a clearance configured to receive a coupling component of the parked car, the at least one damping assembly including: a flange extending from the base plate; a support member arranged at a distance from the flange; and at least one damping mechanism having a first end connected to the flange and a second end connected to the support member, wherein the at least one damping mechanism restricts oscillation of the support member toward the flange. 2. The damping device of claim 1 , wherein the at least one damping mechanism includes a plurality of damping mechanisms, the plurality of damping mechanisms being substantially identical. 3. The damping device of claim 1 , wherein the at least one damping mechanism is tunable to achieve a desired stiffness. 4. The damping device of claim 1 , wherein the at least one damping mechanism includes a damper and biasing mechanism. 5. The damping device of claim 1 , wherein the at least one damping mechanism includes a magnetic spring. 6. The damping device of claim 1 , wherein the at least one damping mechanism includes a magnet. 7. The damping device of claim 1 , wherein the clearance is defined between the support member of the first damping assembly and the support member of the second damping assembly. 8. The damping device of claim 1 , wherein the first damping assembly is operable to restrict oscillation of the parked car in a first direction and the second damping assembly is operable to restrict oscillation of the parked car in a second, opposite direction. 9. An elevator system comprising: an elevator car; a plurality of load bearing members suspending the elevator car for oscillation between a plurality of parked positions; a coupling component; and a damping device engagable with the coupling component at one of the plurality of parked positions, wherein one of the coupling component and the damping device is mounted to the elevator car, the damping device having at least one damping assembly including: a flange; a support member arranged at a distance from the flange; and at least one damping mechanism having a first end connected to the flange and a second end connected to the support member, wherein the at least one damping assembly restricts oscillation of the elevator car in at least a first direction; wherein when the coupling component and the damping device are engaged, the coupling component is arranged in contact with the support member. 10. The elevator system of claim 9 , wherein the damping device includes a first damping assembly and a second damping assembly, wherein the first damping assembly restricts oscillation of the elevator car in a first direction and the second damping assembly restricts oscillation of the elevator car in a second, opposite direction. 11. The elevator system of claim 10 , wherein a clearance is defined between the support member of the first damping assembly and the support member of the second damping assembly. 12. The elevator system of claim 11 , wherein when the coupling component and the damping device are engaged, the coupling component is received within the clearance, the clearance being smaller than the coupling component. 13. The elevator system of claim 9 , wherein the elevator car includes a car door and the damping device is aligned with car door when the elevator car is at one of the plurality of parked positions. 14. A method of controlling a position of an elevator car comprising: stopping the elevator car in a desired position; engaging a coupling component and a damping device located at the desired position, wherein engaging the coupling component and the damping device includes receiving the coupling component within a clearance defined between a first damping assembly and a second damping assembly; initially deflecting at least one of the first damping assembly and the second damping assembly; and further deflecting the at least one of the first damping assembly and the second damping assembly in response to oscillation of the elevator car at the desired position. 15. The method of claim 14 , wherein the elevator car is at a landing when in the desired position. 16. The method of claim 14 , wherein one of the coupling component and the damping device is coupled to a movable component of the elevator car.