Glass manufacturing apparatus and methods for separating a glass ribbon

What is claimed is: 1. A glass manufacturing apparatus comprising: an engagement device comprising: a first elongated member extending along a first elongated axis and rotatable about a first rotation axis extending along a direction at a first nonzero angle relative to a direction of the first elongated axis, and a second elongated member extending along a second elongated axis and rotatable about a second rotation axis extending along a direction at a second nonzero angle relative to a direction of the second elongated axis, wherein the second elongated member is spaced from the first elongated member in the direction of the first rotation axis; an elongated anvil member aligned with a space disposed between the first elongated member and the second elongated member; and one or more actuators configured to apply a rotational force to the first elongated member and the second elongated member to rotate the first elongated member about the first rotation axis and the second elongated member about the second rotation axis. 2. The glass manufacturing apparatus of claim 1 , wherein the engagement device and the elongated anvil member are mounted on a carriage. 3. The glass manufacturing apparatus of claim 1 , wherein the first rotation axis is coincident with the second rotation axis. 4. The glass manufacturing apparatus of claim 1 , wherein a common plane extends along the direction of the first elongated axis, the direction of the second elongated axis, the direction of the first rotation axis, and the direction of the second rotation axis. 5. The glass manufacturing apparatus of claim 1 , further comprising a scoring element movable relative to the elongated anvil member. 6. The glass manufacturing apparatus of claim 5 , wherein the scoring element is movable within the space disposed between the first elongated member and the second elongated member. 7. A method of separating a glass ribbon with the glass manufacturing apparatus of claim 1 comprising: contacting a first major surface of the glass ribbon with the elongated anvil member, the glass ribbon comprising a width extending from a first outer edge of the glass ribbon to a second outer edge of the glass ribbon; contacting a portion of a second major surface of the glass ribbon with the first elongated member and the second elongated member; rotating the first elongated member about the first rotation axis and the second elongated member about the second rotation axis with the one or more actuators to begin spreading apart the first outer edge and the second outer edge; scoring the second major surface of the glass ribbon to produce a score line within the second major surface of the glass ribbon along a separation path aligned with the elongated anvil member; and then separating the glass ribbon along the score line by moving one of the engagement device and the elongated anvil member relative to the other of the engagement device and the elongated anvil member. 8. The method of claim 7 , wherein the engagement device and the elongated anvil member are each mounted on a carriage, and the method comprises moving the carriage at a speed in a travel direction that matches a speed of the glass ribbon traveling in the travel direction while separating the glass ribbon along the score line. 9. The method of claim 7 , wherein at least a portion of scoring of the second major surface of the glass ribbon is conducted without entirely spreading apart the first outer edge and the second outer edge to flatten the width of the glass ribbon against the elongated anvil member. 10. The method of claim 7 , wherein at least a portion of scoring the second major surface is conducted while rotating the first elongated member about the first rotation axis and the second elongated member about the second rotation axis with the one or more actuators. 11. The method of claim 7 , further comprising vacuuming debris during at least one of scoring the second major surface of the glass ribbon and separating the glass ribbon along the score line. 12. A method of separating a glass ribbon with a glass manufacturing apparatus comprising an engagement device comprising: a) a first elongated member extending along a first elongated axis and rotatable about a first rotation axis extending along a direction at a first nonzero angle relative to a direction of the first elongated axis, and a second elongated member extending along a second elongated axis and rotatable about a second rotation axis extending along a direction at a second nonzero angle relative to a direction of the second elongated axis, wherein the second elongated member is spaced from the first elongated member in the direction of the first rotation axis; and b) an elongated anvil member aligned with a space disposed between the first elongated member and the second elongated member, the method comprising: contacting a first major surface of the glass ribbon with the elongated anvil member, the glass ribbon comprising a width extending from a first outer edge of the glass ribbon to a second outer edge of the glass ribbon; contacting a portion of a second major surface of the glass ribbon with the first elongated member and the second elongated member; rotating the first elongated member about the first rotation axis and the second elongated member about the second rotation axis to begin spreading apart the first outer edge and the second outer edge; scoring the second major surface of the glass ribbon to produce a score line within the second major surface of the glass ribbon along a separation path aligned with the elongated anvil member; and then separating the glass ribbon along the score line by moving one of the engagement device and the elongated anvil member relative to the other of the engagement device and the elongated anvil member. 13. The method of claim 12 , wherein at least a portion of scoring of the second major surface of the glass ribbon is conducted while partially but not entirely spreading apart the first outer edge and the second outer edge. 14. The method of claim 13 , wherein at least a portion of scoring the second major surface is conducted while rotating the first elongated member about the first rotation axis and the second elongated member about the second rotation axis. 15. The method of claim 12 , wherein the engagement device and the elongated anvil member are each mounted on a carriage, and the method comprises moving the carriage at a speed in a travel direction that matches a speed of the glass ribbon traveling in the travel direction while separating the glass ribbon along the score line. 16. The method of claim 12 , further comprising vacuuming debris during at least one of scoring the second major surface of the glass ribbon and separating the glass ribbon along the score line.