DE599894C - Device for keeping the casting head liquid - Google Patents

Description

Apparatus for maintaining the casting head liquid It is known for Suppression of the formation of cavities when molding metals the uppermost part of the The poured metal can be kept liquid by heating until the bottom Part of the contents of the form has solidified to such an extent that the formation of cavities in the further There is no danger of getting cold. The heating can be done electrically. To carry out this process z. B. a lid, which is placed on the mold and whose wall is traversed by the current. The heat transfer from the radiator on the metal is made more difficult because it does not come into contact with the lid stands. According to another proposal, an immersion body made of fire-proof, insulating material is used Material for use having resistors embedded inside. Here too the heat cannot be given off directly to the metal. By both Arrangements will therefore heat the resistors to a harmful temperature must, in order to achieve the necessary heat gradient between Achieve resistance and metal. The radiators are destroyed all the more quickly when they do not represent homogeneous bodies, but rather made of different materials have existing parts, so that also the difference in the expansions that occur will contribute to the destruction of the radiator. Another suggestion for heating of the upper part of the block form goes to use a dip body in which the liquid block metal can penetrate through thin channels, so that the circuit between the electrodes used in the immersion bodies via the liquid Block originating metal closed and in the liquid columns thus formed Heat is generated.

In contrast, the invention consists in that as a material for the Immersion body is a refractory mass that becomes electrically conductive at high temperatures is used, which encloses an electrode, the one pole of the electrical Current, while the other pole is formed by the block metal itself, so that the entire voltage drop is only within the area surrounding the electrode refractory mass takes place. As a result, the heat from the immersion body act very evenly on the upper part of the block.

The drawing shows, for example and schematically, an embodiment of the subject matter of the invention and shows its application in two examples.

Fig. R is a vertical section through the immersion body according to the Invention and illustrates its use in connection with a mold for casting of a steel block for rolling purposes. Fig. Z is also a vertical one Section and shows the immersion body in use during the casting of a rolling mechanism cylinder.

The device comprises an immersion body i made of refractory material 2, which acts as an electrical insulator at ordinary temperatures, but at high temperatures Temperature becomes weakly conductive. This immersion body is through the connection element 3 current is supplied after it has previously been approximated to the temperature of the in the mold q. or contained steel was preheated and then immersed in this. Of the The immersion body is connected to the power source on the one hand via a highly conductive one Body 3, e.g. B. graphite, on the other hand via the steel bath. Since the resistance of the Substance: 2 is plentifully high even at high temperature, so the current develops in the immersion body Joule heat, which this partly by conduction to the upper Layers of the metal bath contained in the casting mold is released, so.dass one premature cooling of these layers cannot take place. That way will any formation of cavities is suppressed. A particularly cheap means of supplying power can can be achieved in that liquid metal in the cavity 3 of the immersion body brought and this is connected to one pole of the power source.

Claims (1)

PATENT CLAIMS: i. Device for keeping the casting head liquid by an electrically heated immersion body, characterized in that the immersion body consists of a refractory mass that is electrically conductive at high temperature, and that he the electrode (3) forming a current supply line against the liquid Metal closes, while the other power supply to the immersion body through the liquid Metal itself happens. a. Device according to claim i, characterized in that that the current transfer between the electrode (3) and the immersion body (i) by liquid Metal is conveyed, which is located in the cavity of the immersion body.