초록 ▼

A front end for a glass forming operation including an open channel and at least one burner. The channel surface has at least one burner port and a burner oriented in the burner port at an acute angle relative to the channel surface. The surface may be a top, side or end wall and the burner port is

A front end for a glass forming operation including an open channel and at least one burner. The channel surface has at least one burner port and a burner oriented in the burner port at an acute angle relative to the channel surface. The surface may be a top, side or end wall and the burner port is at an acute angle relative to the surface of the wall.

대표청구항 ▼

We claim: 1. A front end for a glass forming operation, the front end comprising: a channel having top and side walls, each side wall having upper portions constructed from a super structure refractory material and lower portions of said front end constructed from a contact refractory material, sai

We claim: 1. A front end for a glass forming operation, the front end comprising: a channel having top and side walls, each side wall having upper portions constructed from a super structure refractory material and lower portions of said front end constructed from a contact refractory material, said super structure refractory material having a higher resistance to corrosion than said contact refractory material; said channel having an upstream end, a downstream end, at least one of said surfaces having one or more oxygen-fired burner ports therein; and one or more oxygen-fired burners angled so that the burner flame is does not directly contact the sidewalls, each oxygen-fired burner arranged to supply heat to molten glass in the channel to maintain molten glass at a desired operational temperature, the oxygen-fired burners being structured to substantially function without a source of air, the oxygen-fired burners extending through a burner port so that said oxygen-fired burners extend at an acute angle relative to at least one surface and in a plane extending between said upstream end and said downstream end and perpendicular to said least one surface, the oxygen-fired burners being disposed to direct the flame and products of combustion at a downward acute angle relative to the top wall, and to direct the flame and products of combustion along the length of the channel, the angle being such that the flame does not directly contact the sidewalls. 2. The front end of claim 1, wherein said channel further includes an end wall and a bottom, said end wall having upper portions constructed from super structure surface refractory material and lower portions of said front end constructed from a contact refractory material, and at least one oxygen-fired burner port in said end wall, said bottom of said channel having at least one glass orifice therein proximate said end wall. 3. The front end of claim 2, wherein at least one of said oxygen-fired burner ports are in said top of said channel. 4. The front end of claim 3, wherein one of said oxygen-fired burners is in said at least one oxygen-fired burner port in said end wall, said oxygen-fired burners being directed toward said upstream end of said channel. 5. The front end of claim 4, wherein said at least one oxygen-fired burner in said at least one oxygen-fired burner port in said end wall is at an angle in a range of about 5 degrees to about 90 degrees relative to said end wall. 6. The front end of claim 1, wherein one or more of said burner ports are in said surface of said sidewalls of said channel. 7. The front end of claim 6, wherein said oxygen-fired burner ports are in one of said side walls that do not laterally align with said oxygen-fired burner ports in the other one of said side walls. 8. The front end of claim 6, wherein said oxygen-fired burner ports are in one of said side walls laterally aligning with said oxygen-fired burner polls in the other one of said side walls. 9. The front end of claim 1, wherein said oxygen-fired burner ports are spaced about 1 foot to about 5 feet apart.