DE726445C - Electrically heated hearth melting furnace for melting light metals or their alloys - Google Patents

Description

Electrically heated hearth melting furnace for melting light metals or their alloys It is known to use metals in crucibles that are outside of electrical Heating resistors are surrounded to melt or for this purpose so-called hearth melting furnaces use. Crucible furnaces for melting oxidizable substances have been known for a long time Heavy metals, in which the metal to be melted into a non-attacking metal molten salt bath is brought, which has previously been brought to the melting temperature of the the metal in question is heated to an excess temperature. The crucible is by the furnace of this type on the one hand placed in the molten salt bath and practically from this surrounded on all sides. The electrodes forming the electrical resistance heating are immersed in the outer weld pool, so there; 3 so the heating of the Melting material in the crucible takes place fairly evenly from all sides. There are too various embodiments of melting furnaces have already been described in which the melting material is housed in a container, the sole of which is mainly is formed by one electrode, while the other electrode is formed by the top or is inserted laterally into the melting chamber. The melt itself is at facilities this kind of a layer of slag over or under or is located - between an upper and lower layer. This acting as an electrical resistance Slag layer can be known in another design of a melting furnace enclosed by an annular or bowl-shaped container be and float on the melting material, one electrode in this layer or immersed in the container.

The melting of the slag layer can neither by direct electrical current pass through or first with the help of an arc of flame be carried out, which is interrupted as soon as the bath is liquid and conductive.

For electrometallurgical electrode furnaces with resistance heating it is also already known that the heavy metal raw material supplied in powder form, al to melt in a melting hearth, the bottom of which is equipped with depressions, which are designed and arranged in such a way that the molten metal outside of the electrodes attached at a comparatively large distance from one another running current path accumulates, so that the electric current flows exclusively through the layer of slag above the melting material runs. The separation of the wells takes place through a wall bridge, and the molten metal is through openings withdrawn from the recesses in the oven sole.

The hearth furnaces also used for melting light metals consist of a brick hearth and were previously attached to the ceiling by Heated resistors, which are useful to protect against splashes from the bathroom a cover made of heat-resistant. Material have been protected. The heating of the ceiling from and through the protective cover requires a high excess temperature of the heating resistors to the melt, so that the heating resistors as a result of their high stress only have a relatively short lifespan.

The hearth melting furnace on which the invention is based has opposite the ovens used so far have the particularly significant advantage that for heating none against. high loads and against the melt or the melted Salt mass sensitive heating resistors known to be made of high quality material more are required, but that usual for. the implementation of the melting process Iron electrodes of simple construction can be used. Because of this, there are also some Protective devices, such as protective covers etc., in omission,. what the heat losses significantly reduced. Compared to the known crucible furnaces, the molten material is liquid in the hearth furnace surrounded and located exclusively by the indifferent hearth lining In contrast to crucible melt, it is known to be due to the type of heating Currents occur within the melt, in complete calm, what a good thing Exhaust gases from the melt made of light metal or light metal alloys are extraordinary % Is good. In addition, the off-gassing of the above-mentioned melting material in the hearth melting furnace made easier by the large bathroom surface.

The invention relates to an electrically heated hearth melting furnace for melting light metals or those alloys under: one at the same time as Salt cover serving as a heating resistor and consists in the fact that in the melting hearth of the Furnace outside of the metal smelting room one or more rooms or depressions are arranged, which receive the electrodes supplying the heating current and with a salt are filled in such a way that the conductive connection with the salt layer of the metal smelting room.

This makes it possible to melt substances that prevent the ingress of air Must be protected by a blanket of molten salt in hearth furnaces to carry out in an impeccable manner, while so far ovens of this type with the usual Type of heating eliminated, as the salt vapors in the shortest possible time both the heat-resistant The cover as well as the heating resistors themselves were destroyed. In these cases I had to heretofore applied to the use of a resistance heated electric hearth furnace waived and the melt z. B. carried out in crucible furnaces, induction furnaces, etc. will.

The measure on which the invention is based can also be used in conjunction with another additional heating device, e.g. B. with the help of special heating resistors, carry out. This can be done, for example, in a hearth furnace, as before, arranging heating resistors and also using the salt cover of the spaces or depressions that exist outside of the metal smelting room arranged electrodes conducts a heating current. That gives you a means in hand to liquefy the melt faster and to a higher temperature than eg with the external heating alone would be possible. This measure is particularly advantageous for alloys that predominantly contain magnesium. Alloys of this type are known to be initially covered by a commercially available Covering salt heated to a melting temperature of about 65o to 700 ° C, what can be done by the external heating alone. Then the melt becomes n-iit dem Cover salt well mixed for refining. The melt must then be as small as possible shorter Time to be overheated to goo "C in order to achieve certain quality characteristics. This rapid heating up to goo ° C, which has so far been extremely stressful the external radiator and required a comparatively long period of time according to the invention without an additional load on the outer radiator, if necessary even under-disconnection of this, can be done in no time. aside from that the electrically heated stove top furnace designed according to the invention is suitable also to maintain certain temperatures of the melt material for a longer period of time, where z. B. the melt, as already mentioned, can be kept at rest can what in some. Cases is beneficial.

In the drawing a device according to the invention is for example and shown in schematic form. The picture shows an electrically heated Hearth furnace in the. Elevation in which the as; Melting hearth formed furnace part. with the reference symbol i and the .above arranged, expediently removable, lid-shaped formed part is designated by 2. In the actual melting chamber 3 is up to to the allowable height. contain the melt 4. Above is the salt cover 5, which completely covers the melting material. The melting hearth is designed in such a way that that in it, namely outside the melting chamber or the actual melting trough; a useful channel-shaped space 6 is also provided, which is also with a Salt is filled and is in contact with the salt cover above the melt. In .dem space 6 are the electrodes, which are normally made of ordinary iron 7 and 8 arranged, which are connected in a suitable manner to a power source. No contact whatsoever can take place between the electrodes and the material to be melted. In order to feed in the material to be melted, feed chutes g are provided which are arranged in this way are that the melting material only falls into the actual melting trough that faces outwards dtiret, doors i o can be opened and closed. The filling of the salt happens through the same gutters or through other openings that z. B. are attached in the lid. The furnace is emptied in a known manner Tilting, by scooping out or through a needle hole.

Claims (2)

PATENT CLAIMS: i. Electrically heated hearth melting furnace for melting light metals or their alloys under a salt cover which also serves as a heating resistor, characterized in that one or more rooms or depressions are arranged in the melting hearth of the furnace outside the metal melting chamber, which accommodate the electrodes supplying the heating current and which contain a salt are filled in such a way that the conductive connection with the salt layer of the molten metal space exists. 2. Melting furnace according to claim i, characterized by an additional heating device.