DE552092C - Glass melting process using a tank furnace - Google Patents

Description

Glass Melting Process Using a Tank Furnace The present Invention relates to an improvement in glass melting processes.

It is a well-known phenomenon when the glass melts that the Glass where it is in contact with the refractory turning material, Absorbs solution components of this. However, the heat of the liquid glass is sufficient on the other hand again not, the clay components of the chainotte, which in the melt reach; to keep completely in solution. The components that are eliminated cause thread and knot formation in the glass as a result of locally increased toughness of the glass, as a result of which the homogeneity of the liquid mass is disturbed.

According to the invention, these disadvantages are to be avoided in that at the points where the mirror of the molten glass touches the turning material, a special local additional heating is made, which the heat dissipation the walls compensate. This will allow heat to dissipate through the refractory Material balanced and thus enables the detached from the wall Components remain in solution and are absorbed by the melt without interference; It has also been shown that the additional heating does not provide any appreciable gain the corrosion occurs.

It is advantageous to carry out the method lengthways special heating elements must be provided for the walls above the enamel layer. To a to allow easy adjustment of the heating level and easy operation As well as ensuring absolute purity of the radiator, it is beneficial to use the heater to be carried out electrically. However, without departing from the scope of the invention, any other heating means can be used. The arrangement can be made that the radiators through special feed openings arranged in the walls introduced, or that they are attached to the NVandung. Furthermore, the bodies, especially on those turning parts where the melt itself is very strong Would be exposed to cooling, for the purpose of more uniform heating of the melt and the Walls are attached to auxiliary carriers that protrude beyond the melt and the radiators can be provided with screens arranged above, which reflect heat act and at the same time as protective devices to prevent damage by falling goods or tools.

It has been suggested to be in a forehearth or pull stove located melt through to individual points on the surface of the edge parts Heat coming burner. With this type of local heating however, only a temperature equalization with the middle part of the melt is intended be created. In contrast, the purpose is the object the present invention forming additional edge heating, in a furnace the constituents of the refractory released from the masonry by the melt Keep the material in solution.

The local and uneven heating of the edge parts of a Melt located in a forehearth or drawing hearth is therefore not an issue of the present invention.

The drawing shows, for example, embodiments for implementation of the method, namely Fig. i shows a melting tank with heating elements in plan view, FIG. 2 shows a longitudinal section with heaters in side openings, FIG. 3 shows a Longitudinal section with radiators on auxiliary beams.

In Fig. I, i denotes the tub, 2 and 3 differently arranged Radiator. The radiators 2 are continuously arranged on the wall, while the Radiator 3 to release the feed openings of the heating gases only on individual Parts of the tub are arranged.

In Fig. 2, an embodiment is shown in which the radiator 3 above the melt layer Y through openings specially arranged in the walls 5 6 are spent. The radiators are covered above by protective screens; 7.

Fig. 3 shows an embodiment in which the radiator 3 with its one end on the upper edge 8 of the wall 5, with its other end on the Nose i i of a rest or are attached to the projecting auxiliary carrier 9, so. that they protrude over the melt 4 substantially in their entire length. The carriers 9 are themselves designed like an umbrella, so that they can be used as protection and heat reflectors works. The auxiliary beams 9 are in height by means of the continuous longitudinal iron 1o adjustable in such a way that the heating element to just above the melting level q. lowered can be.

Claims (7)

PATENT CLAIMS; i. Glass melting process using a tank furnace, characterized in that the level of the molten glass at or near the Wall of the furnace experiences a special locally acting additional heating. 2. Device for carrying out the method according to claim: i, characterized in that the heat is supplied through heating elements (2,3) provided along the walls (5) above the melt (q.), The heating effects of which can be regulated jointly and individually . 3. Device according to claim 2, characterized in that the Radiators are designed as electrical radiators. q .. Device according to claim : 2 and 3, characterized in that the heating elements (3) protrude into the interior of the furnace Auxiliary supports (9) are attached with lugs (11) to support the radiator (3) are provided. 5. Device according to claim 2 and 3, characterized by above the radiator (2) arranged, acting as heat reflectors screens 6. Establishment according to claims 2 to 5, characterized in that the auxiliary carriers (9) act as heat reflectors are trained. 7. Device according to claim 2 to 6, characterized in that that the heat reflectors and radiators together and individually adjustable in height are.