Elevator cab suspension assembly for a double deck elevator

We claim: 1. An elevator system, comprising: a frame; a first elevator cab; a second elevator cab; a plurality of sheaves associated with the first and second elevator cabs, respectively; a suspension assembly that suspends the first and second elevator cabs within the frame, the suspension assembly having two ends in a fixed position relative to the frame and a length between the two ends, the suspension assembly comprising a positive drive load bearing member that defines a first portion of the length of the suspension assembly and at least one other second load bearing member that is different than the positive drive load bearing member that defines a second portion of the length between the first portion and one of the two ends; and a machine including a drive sprocket that moves the positive drive load bearing member to cause movement of the first and second elevator cabs relative to the frame, wherein only the positive drive load bearing member is configured for a positive drive connection with the drive sprocket. 2. The elevator system of claim 1 , wherein the movement of the first and second elevator cabs relative to the frame comprises the first and second elevator cabs moving closer together when the drive sprocket rotates in a first direction; and the first and second elevator cabs moving further apart when the drive sprocket rotates in a second, opposite direction. 3. The elevator system of claim 1 , wherein the at least one second load bearing member comprises a rigid bar along some of the second portion of the length. 4. The elevator system of claim 3 , wherein the at least one second load bearing member comprises a flexible member along a remainder of the second portion of the length; and the flexible member is situated to wrap at least partially around the sheaves. 5. The elevator system of claim 4 , wherein the rigid bar comprises a first bar section situated on one side of at least one of the elevator cabs and a second bar section situated on an opposite side of at least one of the elevator cabs; and the flexible member comprises a section including one flexible member end coupled to one end of the first bar section and another flexible member end coupled to one end of the second bar section. 6. The elevator system of claim 5 , wherein the flexible member comprises another section including one flexible member end coupled to an end of the positive drive load bearing member and another flexible member end that remains in the fixed position relative to the frame. 7. The elevator system of claim 6 , wherein the first bar section has another end coupled to an end of the positive drive load bearing member. 8. The elevator system of claim 4 , wherein the flexible member comprises at least one of a round rope, a chain, a toothed belt and a flat belt. 9. The elevator system of claim 1 , wherein the at least one second load bearing member comprises a flat belt; and a first section of the flat belt has an end coupled to a first end of the positive drive load bearing member. 10. The elevator system of claim 9 , wherein a second section of the flat belt has an end coupled to a second end of the positive drive load bearing member. 11. The elevator system of claim 1 , wherein the at least one second load bearing member comprises a round rope; and a first section of the round rope has an end coupled to a first end of the positive drive load bearing member. 12. The elevator system of claim 11 , wherein a second section of the round rope has an end coupled to a second end of the positive drive load bearing member. 13. The elevator system of claim 1 , wherein the positive drive load bearing member comprises a chain. 14. The elevator system of claim 1 , wherein the positive drive load bearing member comprises a toothed belt. 15. The elevator system of claim 1 , wherein the first elevator cab is situated above the second elevator cab; some of the plurality of sheaves are situated above the first elevator cab for suspending the first elevator cab; and others of the plurality of sheaves are situated below the second elevator cab for suspending the second elevator cab. 16. The elevator system of claim 1 , wherein the frame comprises a plurality of vertically oriented frame members; and a plurality of horizontally oriented frame members extending between the vertically oriented frame members, at least one of the horizontally oriented frame members being situated between the first and second elevator cabs. 17. An elevator system, comprising: a frame; a first elevator cab; a second elevator cab; a plurality of sheaves associated with the first and second elevator cabs, respectively; a suspension assembly that suspends the first and second elevator cabs within the frame, the suspension assembly having two ends in a fixed position relative to the frame, the suspension assembly comprising a positive drive load bearing member along a first portion of a length of the suspension assembly and at least one other second load bearing member that is different than the positive drive load bearing member along a second portion of the length; a machine including a drive sprocket that moves the positive drive load bearing member to cause movement of the first and second elevator cabs relative to the frame; wherein the at least one second load bearing member comprises a rigid bar along some of the second portion of the length, wherein the at least one second load bearing member comprises a flexible member along a remainder of the second portion of the length; the flexible member is situated to wrap at least partially around the sheaves; wherein the rigid bar comprises a first bar section situated on one side of at least one of the elevator cabs and a second bar section situated on an opposite side of at least one of the elevator cabs; the flexible member comprises a section including one flexible member end coupled to one end of the first bar section and another flexible member end coupled to one end of the second bar section; and wherein the flexible member comprises another section including one flexible member end coupled to an end of the positive drive load bearing member and another flexible member end that remains in the fixed position relative to the frame. 18. The elevator system of claim 17 , wherein the first bar section has another end coupled to an end of the positive drive load bearing member. 19. An elevator system, comprising: a frame; a first elevator cab; a second elevator cab; a plurality of sheaves associated with the first and second elevator cabs, respectively; a suspension assembly that suspends the first and second elevator cabs within the frame, the suspension assembly having two ends in a fixed position relative to the frame, the suspension assembly comprising a positive drive load bearing member along a first portion of a length of the suspension assembly and at least one other second load bearing member that is different than the positive drive load bearing member along a second portion of the length; a machine including a drive sprocket that moves the positive drive load bearing member to cause movement of the first and second elevator cabs relative to the frame; wherein the at least one second load bearing member comprises a flat belt or a round rope; and a first section of the flat belt or round rope has an end coupled to a first end of the positive drive loadbearing member. 20. The elevator system of claim 19 , wherein a second