Glass sheet forming system

The invention claimed is: 1. A glass sheet forming system comprising: a pair of glass sheet forming lines extending alongside each other along a direction of conveyance of the forming system, each forming line including: a heating furnace; and a cooling station spaced downstream along the direction of conveyance from the heating furnace to define a forming location between the heating furnace and the cooling station; three forming stations, any two of which can be respectively positioned at the forming locations of the pair of forming lines; and three control assemblies respectively associated with the three forming stations and each including: an upwardly extending stanchion having an upper end; a horizontal beam having an elongated length including a distal end having a pivotal connection to its associated forming station; a bearing assembly including a pivotal support and a frame mounted on the pivotal support and having rollers that collectively mount the horizontal beam on the upper end of the stanchion for pivotal movement about an associated vertical axis and for horizontal movement along its length; and a wire bundle connected to its associated forming station at the distal end of the horizontal beam and extending therefrom along the horizontal beam to the stanchion to provide control of the forming station. 2. A glass sheet forming system as in claim 1 which includes a pair of storage locations at either of which any one of the forming stations not being used can be stored and at which any two of the forming stations not being used can be stored. 3. A glass sheet forming system as in claim 1 wherein the upper end of the stanchion of one of the control assemblies is located higher than the upper ends of the stanchions of the other two control assemblies so the horizontal beam of the one control assembly is movable above the horizontal beams of the other two control assemblies during forming station movement. 4. A glass sheet forming system as in claim 1 further including a rail assembly having rails and a turntable on which the forming stations are movable within the forming system. 5. A glass sheet forming system as in claim 4 wherein the stanchions of two control assemblies are respectively located upstream and downstream from the turntable along the direction of conveyance of the forming lines, and the stanchion of the other control assembly being located adjacent the stanchion of one of said two control assemblies. 6. A glass sheet forming system as in claim 5 wherein the stanchions of said two control assemblies are aligned with the turntable along the direction of conveyance and the stanchion of the other control assembly is located laterally relative to the direction of conveyance to one side of the stanchion of one of said two control assemblies and the upper end thereof is higher than the upper ends of the stanchions of said two control assemblies so the horizontal beam thereof is movable above the horizontal beams of said two control assemblies during forming station movement. 7. A glass sheet forming system as in claim 6 which includes a pair of storage locations located upstream and downstream from the turntable along the direction of conveyance of the forming lines to provide for storage of one or two of the forming stations not being used. 8. A glass sheet forming system comprising: a pair of glass sheet forming lines extending alongside each other along a direction of conveyance of the forming system, each forming line including: a heating furnace; and a cooling station spaced downstream along the direction of conveyance from the heating furnace to define a forming location between the heating furnace and the cooling station; three forming stations, any two of which can be respectively positioned at the forming locations of the pair of forming lines; a pair of storage locations at either of which any one of the forming stations not being used can be stored and at which any two of the forming stations not being used can be stored; a rail assembly having rails and a turntable on which the forming stations are movable within the forming system; and three control assemblies respectively associated with the three forming stations and each including: an upwardly extending stanchion having an upper end; a horizontal beam having an elongated length including a distal end having a pivotal connection to its associated forming station; a bearing assembly including a pivotal support and a frame mounted on the pivotal support and having rollers that collectively mount the horizontal beam on the upper end of the stanchion for pivotal movement about an associated vertical axis and for horizontal movement along its length; and a wire bundle connected to its associated forming station at the distal end of the horizontal beam and extending therefrom along the horizontal beam to the stanchion to provide control of the forming station. 9. A glass sheet forming system comprising: a pair of glass sheet forming lines extending alongside each other along a direction of conveyance of the forming system, each forming line including: a heating furnace; and a cooling station spaced downstream along the direction of conveyance from the heating furnace to define a forming location between the heating furnace and the cooling station; three forming stations, any two of which can be respectively positioned at the forming locations of the pair of forming lines; a pair of storage locations at either of which any one of the forming stations not being used can be stored and at which any two of the forming stations not being used can be stored; a rail assembly having rails and a turntable on which the forming stations are movable within the forming system; and three control assemblies respectively associated with the three forming stations and each including: an upwardly extending stanchion having an upper end; a horizontal beam having an elongated length including a distal end having a pivotal connection to its associated forming station; a bearing assembly including a pivotal support and a frame mounted on the pivotal support and having rollers that collectively mount the horizontal beam on the upper end of the stanchion for pivotal movement about an associated vertical axis and for horizontal movement along its length; a wire bundle connected to its associated forming station at the distal end of the horizontal beam and extending therefrom along the horizontal beam to the stanchion to provide control of the forming station; and the upper end of the stanchion of one of the control assemblies being located higher than the upper ends of the stanchions of the other two control assemblies so the horizontal beam of the one control assembly is movable above the horizontal beams of the other two control assemblies during forming station movement.