Float glass production device and float glass production method

The invention claimed is: 1. A float-glass manufacturing apparatus comprising a float bath to form a glass ribbon on a molten metal and a heat treatment furnace to anneal the glass ribbon, wherein the heat treatment furnace comprises: a dross box comprising a plurality of lift-out rolls to lift the glass ribbon; an annealing furnace comprising a plurality of lehr rolls to convey the glass ribbon; a first partitioning part disposed in a bottom portion of the heat treatment furnace so as to lie between the lift-out roll located most downstream in a conveyance direction of the glass ribbon and the lehr roll located most upstream in the conveyance direction; a second partitioning part disposed over the first partitioning part, the second partitioning part and the first partitioning part being respectively on both sides of a conveyance route to convey the glass ribbon therethrough; a guide member disposed under the lehr roll located most upstream in the conveyance direction; a gas ejection nozzle which ejects a sulfur oxide gas from under the conveyance route toward the conveyance route, the gas ejection nozzle is disposed between the lehr roll located most upstream in the conveyance direction and the lehr roll located second most upstream in the conveyance direction; wherein a distance between the lehr roll and the guide member is shorter than a distance between the guide member and a bottom portion of the annealing furnace; and the lowest end portion of the guide member lies below the gas ejection nozzle, a gas discharge part is disposed upstream in the conveyance direction from the gas ejection nozzle, and a gas collection nozzle is disposed at an upper end portion of the first partitioning part. 2. The float-glass manufacturing apparatus according to claim 1 , wherein the guide member is disposed so that a lower end portion thereof lies below the gas ejection nozzle. 3. The float-glass manufacturing apparatus according to claim 1 , wherein the second partitioning part is a drape hung and held by an external wall of the heat treatment furnace, the drape comprising a pair of holding parts and a plate member, the pair of holding parts holding the plate member therebetween. 4. The float-glass manufacturing apparatus according to claim 1 , which comprises a heat-resistant fibrous sheet provided to a conveyance-direction upstream-side upper portion of the first partitioning part so as to face a lower surface of the glass ribbon, wherein the heat-resistant fibrous sheet is disposed throughout the entire width of the glass ribbon along the direction perpendicular to both the vertical direction and the conveyance direction so that an upper end of the heat-resistant fibrous sheet lies nearer to the lower surface of the glass ribbon than an upper end of the first partitioning part. 5. The float-glass manufacturing apparatus according to claim 4 , wherein the heat-resistant fibrous sheet is a felt sheet comprising carbon fibers. 6. The float-glass manufacturing apparatus according to claim 1 , wherein the guide member is disposed under the lehr roll located most upstream in the conveyance direction with a gap between the guide member and the lehr roll. 7. The float-glass manufacturing apparatus according to claim 1 , wherein the guide member comprises silica-alumina ceramic. 8. The float-glass manufacturing apparatus according to claim 1 , wherein the guide member comprises a metallic material. 9. A float-glass manufacturing apparatus comprising a float bath to form a glass ribbon on a molten metal and a heat treatment furnace to anneal the glass ribbon, wherein the heat treatment furnace comprises: a dross box comprising a plurality of lift-out rolls to lift the glass ribbon; an annealing furnace comprising a plurality of lehr rolls to convey the glass ribbon; a first partitioning part disposed in a bottom portion of the heat treatment furnace so as to lie between the lift-out roll located most downstream in a conveyance direction of the glass ribbon and the lehr roll located most upstream in the conveyance direction; a second partitioning part disposed over the first partitioning part, the second partitioning part and the first partitioning part being respectively on both sides of a conveyance route to convey the glass ribbon therethrough; a gas ejection nozzle which ejects a sulfur oxide gas from under the conveyance route toward the conveyance route; a gas discharge part disposed upstream in the conveyance direction from the gas ejection nozzle, wherein the heat treatment furnace comprises a shielding plate to partition a space between a bottom portion of the annealing furnace and the gas discharge part; the shielding plate is connected to a bottom portion of the gas discharge part; and a gas collection nozzle is disposed at an upper end portion of the first partitioning part. 10. The float-glass manufacturing apparatus according to claim 9 , wherein the gas discharge part is disposed under the conveyance route. 11. The float-glass manufacturing apparatus according to claim 9 , wherein the first partitioning part comprises a partitioning member disposed so as to face the conveyance route, and the gas discharge part is disposed downstream in the conveyance direction from a conveyance-direction upstream-side surface of the partitioning member. 12. The float-glass manufacturing apparatus according to claim 9 , wherein the gas discharge part is disposed between the first partitioning part and the lehr roll located most upstream in the conveyance direction. 13. The float-glass manufacturing apparatus according to claim 9 , wherein the second partitioning part is a drape hung and held by an external wall of the heat treatment furnace, the drape comprising a pair of holding parts and a plate member, the pair of holding parts holding the plate member therebetween. 14. The float-glass manufacturing apparatus according to claim 9 , which comprises a heat-resistant fibrous sheet provided to a conveyance-direction upstream-side upper portion of the first partitioning part so as to face a lower surface of the glass ribbon, wherein the heat-resistant fibrous sheet is disposed throughout the entire width of the glass ribbon along the direction perpendicular to both the vertical direction and the conveyance direction so that an upper end of the heat-resistant fibrous sheet lies nearer to the lower surface of the glass ribbon than an upper end of the first partitioning part. 15. The float-glass manufacturing apparatus according to claim 9 , wherein the gas discharge part comprises a first box and a second box beneath the first box so that an upper wall of the second box is integrated with a lower wall of the first box, the first box has a slit an upper end portion of a side wall facing the upstream side, the slip extends in a direction perpendicular to the conveyance direction; an upper surface of the second box has a plurality of perforations extending in the direction perpendicular to the conveyance direction. 16. A float-glass manufacturing method comprising forming a glass ribbon on a molten metal in a float bath and annealing the glass ribbon in a heat treatment furnace, wherein in the heat treatment furnace, the glass ribbon is lifted in a dross box using a plurality of lift-out rolls and is conveyed in an annealing furnace using a plurality of lehr rolls, a first partitioning part and a second partitioning part are respectively on both sides of a conveyance route to convey the glass ribbon therethrough, in which the first partitioning part is disposed in a bottom portion of the heat treatment furnace so as t