Double deck elevator system

We claim: 1. An elevator assembly, comprising: a frame having vertically oriented beams and horizontally oriented beams connected to the vertically oriented beams; at least one vertical extension situated at least partially beneath the frame, the at least one vertical extension including a stop surface spaced from the frame; a first elevator cab supported within the frame between the vertically oriented beams; a pantograph linkage including a plurality of links, the pantograph linkage being supported on one of the horizontally oriented beams, the pantograph linkage being connected with the first elevator cab such that different positions of the first elevator cab relative to the frame correspond to different relative positions of the links; and a second elevator cab suspended by the pantograph linkage beneath the frame, the different relative positions of the links place the second elevator cab in different positions relative to the frame, the second elevator cab including a catch that is configured to contact the stop surface in the event that the second elevator cab moves downward relative to the frame a predetermined distance. 2. The elevator assembly of claim 1 , wherein the vertically oriented beams are separated by a horizontal distance; the first elevator cab has a first width in a horizontal direction that is smaller than the horizontal distance; and the second elevator cab has a second width in the horizontal direction that is greater than the horizontal distance. 3. The elevator assembly of claim 1 , wherein the linkage assembly includes a plurality of pivots about which the links move into the different relative positions; and one of the pivots is secured in a fixed position on the one of the horizontally oriented beams. 4. The elevator assembly of claim 1 , wherein the pantograph linkage provides a desired range of movement of the second elevator cab beneath the frame; and the predetermined distance corresponds to at least the desired range of movement. 5. The elevator assembly of claim 4 , wherein the at least one vertical extension comprises a plurality of vertical extensions; each of the vertical extensions includes a stop surface; and the second elevator cab includes a corresponding plurality of catches. 6. The elevator assembly of claim 1 , wherein the at least one vertical extension includes at least one buffer strike surface situated to selectively contact a buffer beneath the frame. 7. The elevator assembly of claim 1 , wherein the at least one vertical extension is connected with at least one of the vertically oriented beams. 8. The elevator assembly of claim 7 , wherein the at least one vertical extension comprises a plurality of vertical extensions; the vertical extensions are respectively connected to one of the vertically oriented beams; the vertical extensions are separated by a horizontal dimension corresponding to a horizontal spacing between the vertically oriented beams; and the second elevator cab has a horizontally oriented width dimension that is greater than the horizontal dimension. 9. The elevator assembly of claim 1 , comprising: roping including a plurality of elongated load bearing members that support a load of the frame and the elevator cabs; and a compensation rope having one end connected to the at least one vertical extension. 10. The elevator assembly of claim 1 , comprising: roping including a plurality of elongated load bearing members that support a load of the frame and the elevator cabs; and a compensation rope having one end connected to the frame. 11. The elevator assembly of claim 1 , comprising a plurality of threaded rods supported by the frame and associated with the first elevator cab; and at least one motor configured to cause rotary movement of the threaded rods to move the first elevator cab into different positions relative to the frame. 12. The elevator system of claim 11 , wherein the at least one motor comprises a plurality of motors; the plurality of motors includes one of the motors associated with a respective one of the threaded rods; the motors selectively cause rotary movement of the rods in a first direction to cause upward movement of the first elevator cab relative to the frame; and the motors selectively cause rotary movement of the rods in a second, opposite direction to cause downward movement of the first elevator cab relative to the frame. 13. The elevator system of claim 12 , wherein movement of the first elevator cab relative to the frame causes a change in the relative positions of the links; and the change in the relative positions of the links causes movement of the second elevator cab relative to the frame. 14. The elevator system of claim 13 , wherein the pantograph linkage causes movement of the second elevator cab simultaneous with movement of the first elevator cab; the simultaneous movement of the second elevator cab is in an opposite direction to the direction of movement of the first elevator cab. 15. An elevator assembly, comprising: a frame having vertically oriented beams separated by a horizontal distance and horizontally oriented beams connected to the vertically oriented beams; a first elevator cab supported within the frame between the vertically oriented beams, the first elevator cab having a first width in a horizontal direction that is smaller than the horizontal distance; a pantograph linkage including a plurality of links, the pantograph linkage being supported on one of the horizontally oriented beams, the pantograph linkage being connected with the first elevator cab such that different positions of the first elevator cab relative to the frame correspond to different relative positions of the links; and a second elevator cab suspended by the pantograph linkage beneath the frame, the different relative positions of the links place the second elevator cab in different positions relative to the frame, the second elevator cab having a second width in the horizontal direction that is greater than the horizontal distance. 16. The elevator assembly of claim 15 , comprising at least one vertical extension situated at least partially beneath the frame, wherein the at least one vertical extension includes a stop surface spaced from the frame; and the second elevator cab includes a catch that is configured to contact the stop surface in the event that the second elevator cab moves downward relative to the frame a predetermined distance. 17. The elevator assembly of claim 16 , comprising: roping including a plurality of elongated load bearing members that support a load of the frame and the elevator cabs; and a compensation rope having one end connected to the at least one vertical extension. 18. The elevator assembly of claim 15 , comprising: roping including a plurality of elongated load bearing members that support a load of the frame and the elevator cabs; and a compensation rope having one end connected to the frame. 19. The elevator assembly of claim 16 , wherein the at least one vertical extension includes at least one buffer strike surface situated to selectively contact a buffer beneath the frame. 20. The elevator assembly of claim 16 , wherein the at least one vertical extension is connected with at least one of the vertically oriented beams.