FOREHEARTH AND BURNER BLOCKS FOR USE THEREIN

Abstract

Forehearth constructions are described in which means are provided to heat the sides of the stream of molten glass (27) passing along the forehearth from a glass-making furnace to one or more molten glass outlets by way of flames emerging from a series of substantially horizontal slots. The slots are located in the side walls of the channel above the level of the molten glass surface when the forehearth is operating, and the ribbon of flame provides improved heat transfer to the molten glass stream. Burner blocks are disclosed for use in constructing a forehearth of this type, each consisting of a block of refractory material having an internal cavity (3) of generally wedge-shaped construction and having an elongated outlet in. the form of a slot (4) in the face of the block. A combustible gaseous mixture, or the components to form a combustible gaseous mixture, are fed into the cavity remote from the slot.

Claims

1-6. (canceled)

7. A forehearth construction comprising a molten glass channel between a glass-making furnace and one or more outlets through which a stream of molten glass flows in use, wherein the sides of the stream of molten glass are heated by way of flames emerging from a series of slots, each slot being substantially horizontal and where the slots are located in the side walls of the channel above the level of the molten glass surface when the forehearth is operating.

8. The forehearth construction according to claim 1 further comprising a roof over the channel, the roof having two arched side sections running in the direction of the stream of molten glass passing along the forehearth and a central higher arched section above the centre of the stream of molten glass.

9. A burner block construction for use in constructing a forehearth according to claim 7 comprising a plurality of blocks of refractory material, each having an internal chamber of generally wedge-shaped construction, and having an elongated outlet in the form of a slot in the face of the block, and supply piping to feed a combustible gaseous mixture, or the components to form a combustible gaseous mixture, into part of the chamber remote from the wall of the block in which the slot is located.

10. The burner block construction according to claim 9 wherein each block incorporates a mixing nozzle connected to supplies of one of more of gaseous fuel, air, oxygen-enriched air, or oxygen.

11. The burner block construction according to claim 9 wherein the wall of each burner block below the slot is relieved so that it slopes away from the stream of molten glass passing along the forehearth.

12. The burner block construction according to claim 10 wherein the rear face of each burner block, which is opposite the face with the slot in it and which lies on the outside of the forehearth construction, has an aperture in it in which the supply piping and nozzle for carrying and distributing the combustible gas mixture is fitted.

Description

[0015] By way of example, one embodiment of an improved burner block for use in a forehearth, and a forehearth construction using such blocks, is illustrated in the accompanying drawings in which:

[0016] FIG. 1 is a perspective view of a burner block in accordance with the invention, seen from the side adjacent the molten glass stream in use;

[0017] FIG. 2 is a vertical section through the burner block of FIG. 1;

[0018] FIG. 3 is a perspective view of the burner block of FIG. 1 from the outside of the forehearth, showing a typical nozzle mix burner in place; and

[0019] FIG. 4 is a cross-section through a forehearth constructed in accordance with the present invention in operation.

[0020] Referring to FIGS. 1 to 3, a burner block in accordance with the invention is formed of upper and lower blocks of refractory material, for example sillimanite refractory. The upper block denoted 1 is of generally even thickness while the lower block 2 has a generally wedge-shaped chamber 3 formed in it. After moulding the two blocks, these can be set to a green state and then mortared together using a suitable refractory cement, before firing the burner block as a single piece. When the upper and lower blocks 1 and 2 are assembled together there is a narrow slot 4 formed at the edge of chamber 3. At the rear of the chamber 3 is a through hole 5 in which is located a feed pipelnozzle assembly 31 (FIG. 3).

[0021] As can be seen in FIGS. 1 and 3, the lower burner block half has a slot denoted 10 moulded into it. After the block has been fired, a bracket is slid into the slot 10. The portion of the bracket inside the slot 10 has a hole in it which aligns with the hole denoted 5 at the end of the chamber 3. A burner nozzle can now be inserted through the bracket with its head lying in through-hole 5 at its end towards the chamber 3. The nozzle may be fixed to the bracket by any convenient means, such as a locking screw 12 as shown in FIG. 3. The fixing locks the nozzle assembly 31, the bracket and the refractory burner block together.

[0022] The front face of the lower burner block half 2, below the slot 4 at the edge of chamber 3, is relieved, denoted 6 in FIGS. 1 and 2. The area at the top of the burner block half 1 has a relieved surface 8 a few millimetres deep, to direct the weight of the roof blocks, which rest on the burner blocks when assembled into a forehearth construction, through the solid sides of the burner block, with the object of preventing these forces from causing the slot 4 in the burner block face from closing over time during use of the forehearth.

[0023] The mounting of such burner blocks along the sides of the forehearth is shown in FIG. 4. This shows diagrammatically in cross-section a forehearth in accordance with the invention. The basic construction is of a steelwork frame (not shown) carrying an insulated base 21 with a channel block 22 along which molten glass 27 flows in use. To either side is a series of burner blocks 24 in accordance with the invention. The burner blocks 24 support roof members 23. An insulative layer of suitable material 25 covers the assembly of burner blocks 24 and roof members 23.

[0024] A suitable arrangement of supply piping to the feed pipe/nozzle assemblies 31 set in the line of blocks 24 on each side of the forehearth is provided in order to feed the gas and air or oxygen-enhanced air to each of the nozzles.

[0025] Appropriate flow control means can be provided in customary fashion between supplies of gas, air and, if further oxygen is required, oxygen. These can all be located satisfactorily away from the forehearth itself to ensure ease of maintenance and suitable ambient conditions.

[0026] In operation, fuel and air or oxygen-enriched air are fed through the nozzle into the end of chamber 3 remote from the slot 4, and combustion starts inside the chamber and the combusting gaseous mixture then accelerates as the flow moves towards the slot due to the narrowing of the cross-section of the chamber towards the slot 4. A generally flat flame emerges from the slot 4 along the entire width of the block, which flame then (because the slotted burner blocks are located along the sides of the molten glass stream denoted 27 in FIG. 4) extends along the sides of the forehearth and heats the underside of the roof block which radiates heat down to the molten glass, predominantly towards the edges of the stream of molten glass. This is provided by the shaping of the underside of the roof members 23, with two lower arched sections 29 either side of a higher central arched section 28.

[0027] A specific advantage of the flat flame is that it gives a very even distribution of heat across the block and, accordingly, the heat transmitted to the glass at the sides of the stream of glass flowing along the forehearth is also even so there is very little risk of so-called re-boil of the glass surface. The relieved section 6 below the slot 4 assists in heating the molten glass 27 at the edges of the flowing stream.

[0028] It should be noted that the nozzle does not require any igniter or the like located at the end from which the combustible mixture emerges; rather, because of the temperature in the forehearth, the combustible mixture will ignite within the burner block chamber 3.