Apparatus to control glass flow into glass forming machines

What is claimed is: 1. A downcomer for a glass forming apparatus, the downcomer comprising: a downcomer tube comprising an inlet end for receiving molten glass and an outlet end for discharging molten glass to an inlet of a forming body, an upper heating zone, and a lower heating zone positioned downstream of the upper heating zone proximate the outlet end; and an entire lower controlled atmosphere enclosure defined by an upper seal and a lower seal and positioned around and sealed directly to an exterior surface of the downcomer tube in the lower heating zone between the inlet end and the outlet end, the lower controlled atmosphere enclosure comprising an entirety of at least one heating element. 2. The downcomer of claim 1 , wherein the lower controlled atmosphere enclosure is spaced apart from the outlet end of the downcomer tube. 3. The down comer of claim 1 , wherein the outlet end of the downcomer tube and the lower controlled atmosphere enclosure are positioned within the forming body inlet of the forming body. 4. The downcomer of claim 1 , further comprising an insulation layer extending around at least a portion of the lower controlled atmosphere enclosure. 5. The downcomer of claim 1 , wherein the lower controlled atmosphere enclosure comprises: a transition flange coupled to and encircling the downcomer tube between the upper heating zone and the lower heating zone; a bottom flange coupled to and encircling the downcomer tube and positioned downstream from the transition flange; and an outer shield encircling the downcomer tube and connected to the transition flange and the bottom flange, the outer shield, transition flange, and bottom flange forming the lower controlled atmosphere enclosure around the downcomer tube. 6. The downcomer of claim 5 , wherein the bottom flange is spaced apart from the outlet end of the downcomer tube by a distance between from about 25 mm to about 75 mm. 7. The down comer of claim 5 , wherein the transition flange comprises an outer flange, an inner flange and an expansion drum extending from the outer flange to the inner flange, the expansion drum comprising an “S” configuration with an upper portion of the expansion drum sealingly coupled to the outer flange and a lower portion of the expansion drum sealingly coupled to the inner flange. 8. The downcomer of claim 7 , wherein the expansion drum is integrally formed with the upper portion and the lower portion, and the lower portion transitions into the upper portion through a pair of shoulders arranged in the “S” configuration. 9. The downcomer of claim 7 , wherein the outer flange comprises an outer flange thickness, the inner flange comprises an inner flange thickness, and the expansion drum comprises an expansion drum thickness that is less than the outer flange thickness and the inner flange thickness. 10. The downcomer of claim 7 , wherein the outer flange comprises a heat resistant alloy and the inner flange and the expansion drum comprises a platinum alloy. 11. The downcomer of claim 1 , wherein the lower controlled atmosphere enclosure is filled with an inert gas. 12. The downcomer of claim 1 , wherein the lower controlled atmosphere enclosure is under vacuum.