DE2017096C - - Google Patents

Description

The invention relates to a device for discharging glass from a glass melting tank or a Feeder through an opening located under the glass surface with two successive ones in the direction of flow, electrodes arranged one above the other and spaced apart from one another, of which the lower one is designed as a ring and has a smaller flow cross-section than the upper electrode.

When the glass removal is continuously working Glass melting tanks stopped during the night or on Sundays and public holidays occur in the Well inhomogeneities in the melt. For glasses with high surface evaporation such as fluorine or Similar malfunctions occur in lead glasses, and the melting of the fire in the glass tubs can solid material, in particular the zirconium silicate, a zirconium-containing soil layer is created, which is with mixes poorly or not at all with the other glass in the tub and adds to the finished glass object Schlieren leads. It is known in the event of malfunctions of the aforementioned type while the production process is at a standstill to improve the glass quality a certain glass layer from the glass melting tank remove. The deduction generally takes place in the case of specifically heavy glass layers at the bottom of the Melting tank or, in the case of specifically light from the surface, through a feeder channel.

When removing the tub bottom, the tub bottom is pierced and the glass through this The hole is withdrawn or an overflow is opened when it is removed from the surface.

The disadvantage of these known methods is that a regulation of the amount flowing out and stopping and restarting the glass removals is not possible without further ado, since it continues to flow of glass from the inside of the tub, the temperature of the outflowing glass rises, causing the outflowing amount increases. It is therefore extremely difficult to have a simple hole or an overflow to freeze again.

It is also known from the German Auslegeschrif * 1 137 177 a device for the outflow of glass from a feeder by means of a plunger, which has a lower ring electrode with an inner stone, which in turn forms the outflow opening. The inner stone, however, has a much lower. Cross-section than the ring electrode and is located inside the ring electrode. The disadvantage here is that when the outflow opening is turned off, one thing; easy recommissioning is not possible. i '_{; i} the glass in the outlet opening cannot be melted again.

The object of the invention is therefore to provide a Votrictitung to create the controllable discharge of glass from a melting tank, which has the disadvantages of the stand the technology no longer has and the insbesoii which besides the controlled outflow of glass that easy shutdown and restart d. s glass extraction enabled. The device according to öor Invention should also enable safe, economical and trouble-free work, as well as on already Existing glass tubs can be easily attached and for all glasses including borosilicate glass be applicable.

This object is achieved according to the invention in the device mentioned at the outset in that the The opening cross-section of the lower electrode corresponds to the flow cross-section of the emerging glass and that under the lower one of the electrodes an electrode stone with a conically widening opening is attached, the opening of which on the lower one of the electrodes is just as large as their cross-sectional opening.

Advantageously, the device according to the invention can be a prior to interruption of the heating current and Termination of the outflow of glass into the ring openings insertable rod made of conductive and heat-resistant Have material in order to simplify the restart of the discharge device.

In the following an embodiment of the invention is described with reference to the drawing. the The drawing shows a device attached to a molten glass wall for regulating the glass discharge in the Cut and rotated 180 °.

According to the drawing, there is the device according to the invention for the controllable discharge of glass from an outer tube 3, which is secured by retaining claws 2 screwed to the support bracket 1 via a base plate 5 pressed against the lower surface of a glass melting tank or feeder. Inside the Outer tube 3 is an insulating stone 4 in the form of a hollow cylinder, in which two ring electrodes 10, a spacer tube 6 between the electrodes 10 and an electrode stone 8 under the lower electrode are used concentrically.

The electrode stone 8 has a central opening which widens conically downwards, the size of which corresponds in the narrowest point to the size of the opening of the lower of the ring electrodes 10. Under the Electrode stone 8 is a sealing plate 9 and below in turn the bottom plate 5, which is attached to the

Outer tube 3 is attached and on which the claws 2 act. The upper of the two electrodes 10 has a central opening, which is considerably larger than that of the lower electrode, and this electrode is only separated by a support plate at the bottom of the glass melting tank. The electrodes are supplied with alternating current by contact rods.

Both the electrodes 10 and the contact rods are made of a conductive and heat-resistant material Material such as molybdenum, the high temperature parts of the invention The device is made of refractory material, and the outer parts, such as the outer tube 3, the bottom plate S and the claws 2 can be made of a suitable metallic material. The distance between the electrodes from each other with reference to the type of outflowing glass and the voltage of the one used selected electric current, e.g. B. the distance for voltages of 220 or 38U volts is 9 cm. The opening of the upper electrode then has, for. B. a diameter of 4 cm and that of the lower Electrode one of 1.5 cm.

Before the end of the outflow, a sealing electrode is placed in the opening of the two electrodes 10 7 used in rod form, which is also made of a heat-resistant and conductive material, such as z. B. molybdenum, and for melting the solidified glass in the outlet opening when restarting the outflow opening is used.

Not shown in the drawing is a control device for setting the through the ring electrodes supplied electrical current depending on the temperature of the glass flowing through. The temperature measurement can either directly by means of z. B. thermocouples or by measurement of the resistance between the electrodes 10 take place.

The device according to the invention can either be under a feeder for draining the surface glass or attached to the bottom of the tub to drain the bottom glass. The tub or the For this purpose, feeders are provided at the point provided for the attachment of the device provided a correspondingly large hole. When drilling, the drill is water-cooled the overlying glass is cooled so much that it freezes there and the frozen quantity also a certain amount Prevents the outflow of glass after the end of the drilling process. During this time, the novel outflow device can be attached in the simplest possible way.

After the glass has warmed up sufficiently again, it can be closed through the bore into the interior space between the electrodes 10. _vf ^

The size of the lower electrode opening is advantageous elected that it should be at this stand without any additions Remedy for freezing the glass mass and thus the glass flow comes to a standstill mTan voltage applied to the two electrodes so the glass located between the electrodes is heated by the current flowing through it and flows through d, e when the viskosity is sufficiently reduced lower of the ^ electrodes 10 off. By adjusting the applied voltage, the viscosity of the outflowing Glass can be adjusted so that eme desired Amount of glass per unit of time flows out

If the glass outflow is to be interrupted, the electrode rod 7 is pushed into the opening until the tip is in or above the opening of the upper electrodes 10. The electrode rod 7 we, si has an outer circumference which is slightly smaller than the inner diameter of the lower electrode. The glass flow comes to a standstill as a result, and the passage of current through the electrodes can then be reduced to a value which, in the discharge device _{a5, has} a temperature of 700 ° to 800 ° C maintained .. The fact that the lower electrode has a relatively small opening ensures that when the outlet device is turned on, glass remains between the electrodes, through which the current flows when the device is restarted. "™ _o ^ ·

At temperatures from 700 ° to 800 ° C, _ds < Glass still conductive, and when the outflow device is switched on again to the upper one of the ring electrodes 10 and the electrode rod 7 voltage is applied, is due to the small distance zw> between the electrodes 10 and the electrode rod ensures that the current consumption through the glass leads to heating of the glass and heating of the discharge device.

After the temperature has reached about 1300 C again, the electrode rod is made of the ring electrodes 10 pulled out and the device is ready for operation again and can the desired, in the Carry out a quantity of precisely adjustable glass fume cupboard. As can be seen from the previous description is, the novel device can serve not only to remove undesirable constituents of the glass melt, but also particularly advantageous for Delivery of glass streams to be adhered to precisely, z. B. for feeding a Danner plant for the production of glass tubes or similar machines.

1 sheet of drawings

Claims (4)

Patent claims: 1. Device for discharging glass from a feeder, in which using a up and down moving plungers individual batches of glass are dispensed with a rotary tube, which forms an annular gap with the bottom of the feeder basin, one concentric to the annular gap Outflow opening in the bottom of the cistern and one in the outflow opening and ab movable plunger, characterized in that it has a device for Creation of a negative pressure b ^ in the retraction the plunger and an overpressure when ejecting the drop through the plunger in the rotary tube (5), a plunger tip (1) designed as an electrode and one inside the annular gap, has ring electrode (2) arranged eccentrically to this. 2. Device according to claim 1, characterized in that that the ring electrode (2) is cut at an angle. 3. Apparatus according to claim 1 and 2, characterized in that the rotary tube a Compressed air retaining seal for the implementation of the plunger shaft and a sealing Has cover plate. 4. Apparatus according to claim 1 to 3, characterized in that in the end of the rotary tube a radiation shield (7) is attached.