Elevator car apron

What is claimed is: 1. An elevator system comprising: an elevator car movable along an elevator shaft, the shaft having a pit floor, the elevator car having an elevator car door sill; a car apron assembly comprising: an apron frame movably mounted to the elevator car, the apron frame having a frame base, a support arm, and an apron stop at an end of the support arm opposite the frame base; a semi-rigid curtain attached to the elevator car door sill and extending to the frame base; and a shaft stop arranged within the elevator shaft at a stop height from the pit floor, the shaft stop positioned within the elevator shaft to interact with the apron stop, wherein: the semi-rigid curtain transitions from a deployed state to a compressed state when the apron stop contacts the shaft stop and as the elevator car moves toward the pit floor, and when in the deployed state the semi-rigid curtain extends below the elevator car to block an open landing door that is lower than the elevator car when the elevator car is positioned offset and above an adjacent landing; and a biasing assembly through which the support arm having the apron stop passes, wherein the biasing assembly applies a biasing force to urge the apron frame into the deployed state. 2. The elevator system of claim 1 , wherein the semi-rigid curtain is formed from at least one of rubber, plastic, fabric, metallic chain links, plastic chain links, metal mesh, and plastic mesh. 3. The elevator system of claim 2 , wherein the semi-rigid curtain has a deployed length L D in the deployed state and a compressed length L C in the compressed state, wherein the compressed length L C is less than the deployed length L D . 4. The elevator system of claim 2 , wherein the semi-rigid curtain provides a horizontal resistance of between 200-700 N with a 5-50 mm deflection, in particular with a horizontal resistance of about 300 N with about a 35 mm deflection. 5. The elevator system of claim 1 , wherein the semi-rigid curtain has a deployed length L D in the deployed state and a compressed length L C in the compressed state, wherein the compressed length L C is less than the deployed length L D . 6. The elevator system of claim 5 , wherein the semi-rigid curtain has a length of between 750 mm and 5 meters in the deployed state and between 0 and 750 mm in the compressed state, in particular having a length of about 750 mm in the deployed state and about 180 mm in the compressed state. 7. The elevator system of claim 5 , wherein the semi-rigid curtain provides a horizontal resistance of between 200-700 N with a 5-50 mm deflection, in particular with a horizontal resistance of about 300 N with about a 35 mm deflection. 8. The elevator system of claim 1 , wherein the shaft stop is fixedly connected to at least one of a shaft wall, a landing door frame, and a guide rail. 9. The elevator system of claim 1 , wherein the biasing assembly comprises a housing and a biasing element within the housing. 10. The elevator system of claim 9 , wherein the housing of the biasing assembly comprises a first end with a first aperture in the first end and a second end with a second aperture in the second end, wherein the support arm passes through the housing from the first end to the second end. 11. The elevator system of claim 9 , wherein the biasing element is a spring. 12. The elevator system of claim 9 , wherein the biasing assembly is mounted to the elevator car. 13. The elevator system of claim 1 , wherein the biasing assembly comprises a spring. 14. The elevator system of claim 1 , wherein the support arm comprises a flange that is arranged to apply force to a biasing element of the biasing assembly when the apron stops contact the shaft stops. 15. The elevator system of claim 1 , wherein the biasing assembly is mounted to the elevator car. 16. The elevator system of claim 15 , wherein the biasing assembly is mounted to at least one of a frame of the elevator car and a panel of the elevator car. 17. The elevator system of claim 1 , wherein the semi-rigid curtain provides a horizontal resistance of between 200-700 N with a 5-50 mm deflection, in particular with a horizontal resistance of about 300 N with about a 35 mm deflection. 18. The elevator system of claim 1 , wherein the apron frame comprises a second support arm having an associated second apron stop and wherein a second shaft stop is arranged within the elevator shaft to interact with the second apron stop. 19. The elevator system of claim 18 , wherein the first and second support arms and the first and second apron stops are located on opposite sides of the elevator car.