Glass manufacturing apparatus and methods for manufacturing a glass ribbon

The invention claimed is: 1. A glass manufacturing apparatus comprising: a forming device configured to produce a glass ribbon including a width extending between a first edge portion and a second edge portion; and a pull roll device comprising: a first roll apparatus including a first upstream pair of draw rolls configured to draw the first edge portion of the glass ribbon from the forming device along a draw path extending transverse to the width of the glass ribbon; a second roll apparatus including a first midstream pair of rolls positioned downstream along the draw path from the first upstream pair of draw rolls, wherein the first midstream pair of rolls are configured to interact with the first edge portion of the glass ribbon; a third roll apparatus including a first downstream pair of draw rolls positioned downstream along the draw path from the first midstream pair of rolls, wherein the first downstream pair of draw rolls are configured to further draw the first edge portion of the glass ribbon along the draw path; and a control device configured to independently operate at least the first roll apparatus and the third roll apparatus such that at least one of the first upstream pair of draw rolls rotates with a substantially constant torque and at least one of the first downstream pair of draw rolls rotates with a substantially constant angular velocity. 2. The glass manufacturing apparatus of claim 1 , wherein the glass ribbon is drawn downstream from the forming device through a viscous zone, a setting zone, and then an elastic zone, where the first upstream pair of draw rolls are located in the viscous zone, the first midstream pair of rolls are located in the setting zone, and the first downstream pair of draw rolls are located in the elastic zone. 3. The glass manufacturing apparatus of claim 1 , wherein the glass ribbon is drawn downstream from the forming device through a viscous zone, a setting zone and then an elastic zone, where the first upstream pair of draw rolls are located in the setting zone, the first midstream pair of draw rolls are located in the setting zone, and the first downstream pair of rolls are located in the elastic zone. 4. The glass manufacturing apparatus of claim 1 , wherein the first midstream pair of rolls includes vertically down-tilted rolls positioned downstream along the draw path from the first upstream pair of draw rolls, where the first midstream pair of vertically down-tilted rolls are configured to apply a lateral tension to the first edge portion of the glass ribbon. 5. The glass manufacturing apparatus of claim 1 , wherein the control device is configured to operate the second roll apparatus which is driven to control at least one of the first midstream pair of rolls. 6. The glass manufacturing apparatus of claim 1 , wherein the second roll apparatus is configured such that neither of the first midstream pair of rolls are driven but freely rotate when the first edge of the glass ribbon passes there between. 7. The glass manufacturing apparatus of claim 1 , wherein the control device is configured to operate the first roll apparatus such that both of the first upstream pair of draw rolls rotate with a substantially constant torque. 8. The glass manufacturing apparatus of claim 1 , wherein the control device is configured to operate the third roll apparatus such that both of the first downstream pair of draw rolls rotate with a substantially constant angular velocity. 9. The glass manufacturing apparatus of claim 1 , wherein the first roll apparatus includes a second upstream pair of draw rolls configured to draw the second edge portion of the glass ribbon from the forming device along the draw path, wherein the control device is further configured to operate the first pull roll apparatus such that at least one of the second upstream pair of draw rolls rotates with a substantially constant torque. 10. The glass manufacturing apparatus of claim 9 , wherein the control device is configured to operate the first roll apparatus such that both of the second upstream pair of draw rolls rotate with a substantially constant torque. 11. The glass manufacturing apparatus of claim 9 , wherein the second roll apparatus includes a second midstream pair of rolls positioned downstream along the draw path from the second upstream pair of draw rolls, where the second midstream pair of rolls are configured to interact with the second edge portion of the glass ribbon. 12. The glass manufacturing apparatus of claim 11 , wherein the second midstream pair of rolls includes vertically down-tilted rolls positioned downstream along the draw path from the second upstream pair of draw rolls, where the second midstream pair of vertically down-tilted rolls are configured to apply a lateral tension to the second edge portion of the glass ribbon. 13. The glass manufacturing apparatus of claim 9 , wherein the third roll apparatus includes a second downstream pair of draw rolls positioned downstream along the draw path from the second upstream pair of draw rolls and the second midstream pair of vertically down-tilted rolls, wherein the second downstream pair of draw rolls, are configured to further draw the second edge portion of the glass ribbon along the draw path, and the control device is further configured to operate the second pull roll apparatus such that at least one of the second downstream pair of draw rolls rotates with a substantially constant angular velocity. 14. The glass manufacturing apparatus of claim 13 , wherein the control device is configured to operate the third roll apparatus such that both of the second downstream pair of draw rolls rotate with a substantially constant angular velocity. 15. A method of manufacturing a glass ribbon, the method comprising the steps of: providing a pull roll device comprising: a first roll apparatus including a first upstream pair of draw rolls; a second roll apparatus including a first midstream pair of rolls positioned downstream along the draw path from the first upstream pair of draw rolls; and a third roll apparatus including a first downstream pair of draw rolls positioned downstream along the draw path from the first midstream pair of rolls, forming a glass ribbon with a width extending between a first edge portion and a second edge portion; independently operating the first roll apparatus such that at least one of the first upstream pair of draw rolls rotates with a substantially constant torque to draw the first edge portion of the glass ribbon along the draw path; and independently operating the third roll apparatus such that at least one of the first downstream pair of draw rolls rotates with a substantially constant angular velocity to further draw the first edge portion of the glass ribbon along the draw path. 16. The method of claim 15 , further comprising a step of adjusting a down-tilted position of the first midstream pair of rolls positioned downstream to apply a lateral tension to the first edge portion of the glass ribbon. 17. The method of claim 15 , wherein the glass ribbon is drawn downstream through a viscous zone, a setting zone, and then an elastic zone, where the first upstream pair of draw rolls are located in the viscous zone, the first midstream pair of rolls are located in the setting zone, and the first downstream pair of draw rolls are located in the elastic zone. 18. The method of claim 15 , wherein the glass ribbon is drawn downstream through a viscous zone, a setting zone and then an elastic zone, where the first upstream pair of draw rolls are locate