DE1014292B - Process to avoid or reduce the electrolytic decomposition of particularly stressed parts of a melting container - Google Patents

Description

Process to prevent or reduce electrolytic decomposition of particularly claimed parts of a melting vessel The invention relates refer to a method to avoid or reduce the decomposition of particular stressed parts of a melting container. In particular, the method for To apply protection of melting furnaces for glass.

In order to prevent the walls of melting containers from being eroded by the It has already been proposed to protect the material to be melted on the inner surface the wall to produce a protective layer by going through the material bath sends an electric current through it and the inner wall acts as an anode used. The protective layer is made from the substance according to this known method taken from the weld pool itself. The resulting skin, which is between the Wall - and the Bald is lying, thereby withdraws the wall from direct influence of the weld pool.

The invention takes a much simpler, fundamentally another way and is based on the knowledge that as a result of in melting vessels always prevailing very high temperatures always an extensive dissociation of the Schinelzgutes is present - and that essential parts of a melting container through Electrolytic decomposition decomposes, become local. The corrosive effect stems from, first Line of the anions present and occurs to a particularly harmful extent if the melt has a high concentration of oxygen ions.

The invention, the harmful effect of the anions, in particular of oxygen ions, reduced to a considerable extent.

The method according to the invention for avoidance or reduction the electrolytic decomposition of particularly stressed parts of a melting vessel, in particular a melting furnace for glass, e.g. B. overflows, bridge flow, Floats, channels, stirrers, feeders, plungers, is characterized in that these stressed parts have a negative electrical direct current potential anodes introduced into the weld pool.

The protective effect of the method according to the invention extends essentially on the parts of a melting vessel made of metals, e.g. B. molybdenum, or made of carbon, especially graphite.

By the method according to the invention it is achieved that the anions are repelled by the particularly stressed parts and their harmful effect can not exercise.

The possible uses of the method according to the invention are very diverse. Are the parts of a melting vessel to be protected a: us non-conductive? According to the invention, the material is covered with an electrically conductive coating provided, for example metal or graphite clad.

The use of the invention for the protection of is particularly advantageous Overflows, bridge flows, floats, channels, stirrers, feeders, plungers and the like, as far as they consist of metals, carbon or graphite or with these substances coated-n are.

1-1.aildelt it is a Schinelzofen, in which the goods by means of Joule heat is heated, so according to the further embodiment of the invention the heating electrodes introduced into the material to be melted or melted negative DC potential granted. This is the usual heating alternating current a percentage lower direct current superimposed.

In all cases, one or more acting as an anode are present in the material Electrodes additionally introduced. These anodes are conveniently made of materials which are as insensitive as possible to oxidation, for example ans Platinum or the platinum metals or their alloys. But there are also electrodes ans a semiconductor material, e.g. B. made of zirconium oxide, suitable.

The drawing shows schematic exemplary embodiments of melting furnaces in which the method according to the invention is used. 1 shows an electric melting furnace in top view and the circuitry which is required for heating and for carrying out the method according to the invention, FIG. 2 shows a melting furnace according to FIG. 1 with a different design of the anodes, 3 shows a melting furnace according to FIGS. 1 and 2 with a different arrangement of the anode.

In the melting furnace with the wall 1 (FIG. 1) , the heating electrodes 2 and 2a are guided laterally through the wall into the material A to be melted. The E lektroden 2 and 2a are fed by the AC source. 5

According to the invention, there are now additional electrodes in the bath. 3 and 3a introduced and connected to the positive poles of two DC voltage sources 4 and 4a.

The negative poles of these direct voltage sources are connected to the heating electrodes 2 and 2 a, so that a direct current is superimposed on the 1-Itiz alternating current. As a result of the negative charging of the electrodes 2 and 2a compared to the anodes. active electrodes 3 and 3a, the anions of the weld pool are kept away from them and cannot exert their harmful effect.

The wear of the heating electrodes is therefore due to the application of the invention extremely low. In addition, the advantage is achieved that the weld pool itself not contaminated by substances resulting from the decomposition of the electrodes will.

According to the embodiment of FIG. 1 , the anodes 3 and 3a consist of platinum sheet or also of a ceramic tube or rod which is coated with platinum.

The embodiment of FIG. 2 shows electrodes 3 and 3a made of a material which is a semiconductor in the region of the melting temperature, e.g. B. made of zirconium oxide. The additional electrodes can in this arrangement both as a rod as a tube, plate or as a wall stone, z. B. tub stone, be formed.

According to FIG. 3 , a single additional electrode 3 arranged between the heating electrodes 2 and 2a is provided. The direct current source 4 is kept free of alternating current by means of the filter elements 6 and 6a.

Claims (3)

PATEN TA NS PB ÜC 11 F- # 1. A method for avoiding or reducing the electrolytic decomposition of particularly stressed parts of a melting container, in particular a melting furnace for glass, e.g. B. overflows bridge flows, floats, channels, stirrers, feeders, plungers, characterized indicates overall that this stressed parts is given a negative electrical DC potential over imported into the molten bath anodes. 2. The method according to claim 1, characterized in that the parts to be protected are provided with an electrically conductive coating on the surfaces facing the melted material, for example -, v..eis-e nietall- or graphite are clad. 3. Process according to claims 1 and 2, characterized in that a negative direct current potential is given to the heating electrodes of a melting container heated by Joule heat, which are introduced into the material to be melted or melted. Documents considered: German Patent No. 803 922; French patent specification No. 982 980.