DE1596488C3 - Additional heating for feeder basins of glass melting furnace - Google Patents

Description

regulation of the supply of combustion air. The lines 6 and 7 are designed as rigid tubes. The supply to the gas line 6, which is best made in the form of a hose, is not shown can be.

In Fig. 2 according to claim 4 is claimed Embodiment of the invention shown.

The reference symbols have the same meaning as in FIG. 1. Only between the feeder tube 4 and the plunger 3, the burners 12 are arranged. These preferably consist of ceramic raw S Ren and are directed downwards on the glass surface, so that they are also the heating of the molten glass to serve.

1 sheet of drawings

Claims (4)

1 2 The invention provides an additional heater in patent claims: the form that the plunger is designed in a known manner as a hollow body, whereby in 1. Additional heating for feeder basins from glass inside the cavity one from the gas supply melting furnaces, in which the post-wise allocation 5 supply line, the combustion air line as well as the molten glass by means of a plunger one or more through the plunger wall, characterized, penetrating, preferably oblique _; downwards, the plunger (3) is designed as a hollow body, with an inner nozzle, directed in a manner known per se. In other words, in this case the plunger is used as half of the cavity (11), one from the additional gas supply burner. It is immersed so deep into the supply line (6), the combustion air line (7) of the molten glass that the flames briefly and one or more through the plunger wall above the glass mirror through the burner nozzles step outside, preferably at an angle. By regulating the supply of downwardly directed burner nozzles (5) the best gas and combustion air can be located both in the upright burner device. 15 flame temperature as well as the length of the flame 2. Device according to claim 1, thereby being set as desired. In some cases marked that the combustion nozzles (5) in one is also sufficient for the combustion between the plunger and or several superimposed levels of the feeder tube. are arranged. Thanks to the adjustable heating, it is possible to 3. Device according to claims 1 and 2, ao desired viscosity between the plunger and characterized in that the burner nozzles (5) adjust the glass melt located in the feeder tube, are arranged offset one above the other. This will be the ones described above 4. Device according to claims 1 to 3, disadvantages prevented. Another advantage of the invention characterized in that between the device according to the invention it can be seen that Feeder pipe (4) and the plunger (3) additional, 25 thereby the previously existing strong temperature preferably falls formed from ceramic tubes between the top and bottom , ■. Burner (12) are provided. the plunger can be better balanced. There A disadvantage, which often caused the plunger to break easily and prematurely, is removed with tet. Furthermore, thanks to the device according to the invention, the plunger can easily be before the insertion of the The glass can be preheated to the desired temperature. The device is not only used for re- The present invention relates to an additional heating of the glass melt that can be regulated, but rather for feeder basins of glass melting furnaces, with the simultaneous regulated preheating of the plunger nen the post-wise allocation of the melted itself. Glass takes place by means of a so-called plunger. According to another feature of the invention Due to the downward movement of the plunger, the burner nozzles can be in one or more the feeder basin (glass storage container) must be arranged exactly over 40 superimposed levels. she a correspondingly dimensioned outlet opening can also be arranged offset one above the other is arranged, will be a correspondingly large glass. amount pushed out through the outlet Furthermore, it is possible that between the and arrives at the deformation device. The plunger feeder pipe and the plunger additional, preferably is with a tube, the so-called 45 burner formed from ceramic tubes on the feeder tube, surround. are ordered. In this case it is also conceivable This mode of operation has been in practice for a long time since the plunger did not need to be heated Known time. But it has now been shown that it can. that the glass temperature between the feeder tube The device according to the invention should be on hand and the plunger is usually much lower than in the 50 in FIG. 1 is still unnecessary Feeder basin. In some cases the purification declines. At the bottom of the feeder basin 1, the The temperature even drops so far that the glass here serves to hold the molten glass to become viscous. As a result, the stress is found in the protrusion limited by the drip ring 2 stronger on the plunger and on the feeder tube, opening for the molten glass. The Plun- and the plunger often breaks through in this case. 55 ger3 protrudes into the opening from above. That As the glass becomes tough, the feeder tube 4 surrounds the plunger, which is a hollow grain the processing properties of the glass per. The cavity 11 is used here melt, which also interferes with a uniform recording of the burner device from the gaseous Production leads. In particular, the supply line 6 and the combustion air line 7 have an effect which the different temperature layers in 60 and the burner nozzles 5 consists. These step through within the glass drop. For the wall of the plunger through and are preferential processing it comes in fact much wise obliquely downwards, so that the out of it indicates that the glass droplet hits the surface of the glass as homogeneously as possible. At the has gene temperature. However, these are only at the top of the plunger where the plunger is located the disadvantages caused by the colder glass 65 10. Lines 6 and 7 are shown in FIG can kick. a stuffing box 8 mounted so that any turning The aim of the present invention was now to avoid movements of the lines 6 and 7 on the Plunalle to avoid these disadvantages. ger be transferred. The cap 9 is used to regulate