DE407950C - Method for excavating glass panels - Google Patents

Description

Method for digging glass panels. When a sheet of glass is made from a molten glass mass becomes very small for some reason Unevenness or bumps created on the surface that are very undesirable are. If it were possible to eliminate these unevenness, a glass panel could be used which are similar to the mirror glass in terms of clarity of view, if it weren't the same. It has now been found that this bumps through Changes in surface tension at different points along the width of the board are generated and the consequence of small different heat states in the There are glasses at the base of the so-called meniscus. To the heat over the whole width and thus the surface tensions at the various points on the panel almost the glass will compensate for it and avoid some or all of the bumps heated only on the throat areas of the meniscus, `nourishing the abutting surface the blackboard and mirror are protected against overheating. As a result of this local heating the surface tension on the meniscus is reduced, making its mass easier divided so that the digging of the panel can also be done more easily. One could to achieve this also by heating the whole surface of the mirror, meanwhile offers the local heating, as preferred here, the advantage that the temperature of the Most of the glass mass is kept lower than that of the overheated surfaces in the throats of the meniscus. At this temperature difference, the surface becomes the Table in the throats of the meniscus much more fluid than elsewhere, and the table receives a (one can say polish-like) smooth surface, in which mainly the core the board takes up the hoist.

The surface heating may make it necessary to reduce the temperature in the To reduce some of the glass mass that goes into the core of the table; in such In cases, a cooling rail is placed under the middle of the meniscus. With correct Coordination of surface heating and core cooling can be achieved by that the temperature of the table was almost uniform through and through and a great one Part: the internal tensions are eliminated (-, 'which means that even when cooling, a flatter and a more perfect table is achieved.

The drawing illustrates one for performing the method suitable device.

Fig. I is a vertical section through the drawing tub according to i-i der Fig. 2 with part of the panel broken away to show the heater.

Fig. 2 is a vertical center section according to Fig. I, and Fig. 3 shows a modification in the same cut.

In the illustrated embodiment, the invention is in conjunction illustrated with a device according to the usual type of C o 1 b u r n.

The shallow drawing pan or the container i is constantly being replaced by a suitable one Source fed with molten glass. The glass panel q. is made by suitable drawing means (not shown) from the free level of the glass mass in the tub drawn. 5 is the so-called meniscus at the point where the table comes out of the -'lasse is pulled. On each side of the panel is at the base of the meniscus where the surface tension is greatest is supplied heat. As shown in Fig. I and 2, this can be done by means of an electric heater 6 done, which is enclosed by an insulating housing 7, the with one facing the foot of the meniscus for more effective heat exit Opening $ is provided on the bottom. Instead of an electric heater could also any other heating means, e.g. B. a slotted gas burner tube 9 (Fig. 3), to be used, in which case one puts the flames down against the web The plaque is aimed in this way to keep the heat at the foot of the meniscus as much as possible to stick together. These heaters can be removed from the board surface or you be approached to regulate the heat level. All of this happens to the surface to soften the glass a little and thus equalize its temperature at the base of the meniscus, so that the surface tension is equalized along the width of the board.

In the embodiment according to Fig. I and 2, the heater 7 carried by the coolers 12 by means of shafts 13, which in their axial direction a support rod 14 extending transversely across the draw hearth are adjustable; the support rod is attached to the side of the cooler by means of attachments 15 on the side facing the table worn so adjustable that the angular position of the heater to the glass surface can be regulated.

In those cases where it is desired, that which enters the inside of the glass panels To cool glass, a cooling rail io made of refractory mass is used, which is made by Arms i i resting on the sides of the tub. According to the rail leads the considerable temperature difference between the molten mass and the outside air heat from the inside of the melt by conduction. The rail io can by not shown Means are brought into a lower or higher position and found therein.

At work, when the drawing of the board begins, the heaters are on arranged as shown and described, and a slight rise in temperature the surface of the glass at the meniscus will balance the surface tension and some or all of the unevenness caused by the uneven surface tension remove.

When using the cooling rail, it is in the position shown brought, whereby they the temperature of the surrounding glass mass to drop somewhat brings, while the outer layers on the meniscus a higher temperature due to the heater obtained, whereby the stated advantageous results achieved «-erden.

Claims (2)

PATENT SUGGESTIONS: i. Method for excavating glass panels from a free mirror of molten glass porridge, characterized in that the surface of the meniscus between the surface of the board and the glass mirror, the abutting surface by blackboard and mirror as it is protected against overheating. 2. The method according to claim i, characterized in that at the same time the incoming into the interior of the panel Glass mass is cooled just below the table root.