DE1558595B1 - Composite metallic container - Google Patents

Description

1 2

The invention relates to a combination of a cylinder ring 2, on which a cover 3 with set metallic container for inductive loading a pipe 4 sits and the pivot pin 5 carries, handling of metals in the molten state. The shape elements 1 α consist of fields such as

The treated metals are the input, for example one in FIG. 3 is shown, which is subjected to action of high intensity fields, two engaging strips 5 1 b and two Eingriffsvertiefundie by a Wecnselstrom induction circuit very gen 1 c to the composition with identical Nachniedriger or low frequency are generated. having bar fields.

These fields call the parallel and meridian- The pan bottom 9 shown in Fig. 2 is

surfaces of the container following induction currents in the same way through the composition of self-short-circuit, and it results from this io flat fields 9 α created, a heating of the container, which is all the less. The elements 1 α and 9 α consist of a non-

is, the more the container made of non-magnetic metal magnetic and refractory alloy, such as. B. exists and the lower the frequency is. austenitic steel, e.g. B. by pouring with

For very low frequency currents, e.g. B. equal reduced tolerances were made, with the or below 2 Hz, it is possible to pre-pan the liquid, in the 15 dimensions of the ridges and depressions contained metal to stir, but it is very much seen that the elements according to their difficult, if not impossible, inside the assembly according to the construction principle easy Metal have an induction current of sufficient gaps, e.g. 1 to 2mm, that Intensity to develop in order to mean the temperature of the between all mutual contact surfaces Bath or, what is often desirable, 20 suitable spacer wedges from an insulating fire seal Temperature on the desired solid connection for casting, such as. B. expanded poly value to increase, e.g. B. during and after a styrene must be adhered to.

gassing. In fact, the non-magnetic begins before the union of the elements they become

Scaffold to melt before the frequency and exposed to oxidation that give them a first Intensity in the inductor provides the required value 25 insulation layer.

achieved. During the assembly of the container, the

The object of the invention is to provide a non-spacer wedge according to the attachment of the To create magnetic container that does not de- attach elements.

malleable and of high mechanical resistance.

Stability, which is also composed of high temperatures, the aim is to inject the resistant cement under pressure, which is resistant to underpressure or overpressure, until the intermediate seal holds and which is suitable for fields of high interstices 1d between the elements la (Fig. 4) are filled without any noticeable warming happening. Let suitably arranged seals Ie, which prevent leakage losses from induction currents more suitably. ^

Frequency arise. 35 A refractory thermosetting is used

In the case of a container, this task is performed by a cement of low viscosity. In particular, lets According to the invention, a clay sludge made from a solves that he is in the heating zone from a combination of binders based on ethyl silicate, alcohol and of metallic shaped elements made of a non-refractory material of a certain grain size, such as magnetic and refractory alloy, e.g. B. consists of 40 sillimanite, zirconia, etc., Austenitic steel, by means of with play in each other

gripping tenons and mortises on this silica gel, which is a drying and the beginning Elements exists and that these elements result from the hardening. The whole thing will be connected The refractory cement placed in the joints is then roasted and brought to the final hardening temperature are electrically isolated from each other. 45 heated to the order of 900 °

According to a further feature of the invention to give insulation seals their final strength, A reconnection to the heating is expedient. The operations mentioned lead to a

Zone arranged consisting of at least two layers of monolithic containers of large mechanical strength threads or bands, one of which is rightly valued, subject to fields of great intensity of the generating lines of the cylindrical surface 50 can be generated by induction currents for the arranged holder and the other as a helix to the intended treatment of the metal bath sufficient the first layer is wrapped around. high frequency.

The invention is based on the in the drawing In order to avoid displacements, which by

illustrated embodiment in more detail er alternating heating and cooling arise

purifies. It shows 55 could, the container according to the invention in FIG

F i g. 1 is a perspective overall view with the one from the assembled elements

Partial removal of a container that provides a casting standing zone with loop lashing.

pan represents, this loop is made of threads or ribbons,

Fig. 2 is a view of the bottom of the container, such as glass fibers of excellent mechanical

F i g. 3 is a perspective view of a component 60 properties, or made up of wires or ribbons

of the cylindrical container body, metal that is non-magnetic and insulated from each other

4 shows a section on a large scale.

Speaking IV-IV of Fig. 1 to illustrate a The wires or ribbons are in at least

Isolation seal between two container elements. two layers arranged; the first of these layers

The in F i g. 1 shown pan consists of 65 is made of wires or ribbons 6, which along the a cylindrical container 1, which is on the entire generating line of the cylindrical container 1 an-Heizhöhe are ordered by the union of form elements; for this purpose are protrusions or la is formed; the upper part of the socket consists of corresponding organs, which are shown in Fig. 1 with 7

are drawn, provided on the cylindrical edge 2 of the container to tension the wires or bands, which are attached under the floor 9 as wire fleece or parallel bands; the second layer consists of Wires or bands 8, which are wound as a helix around the first layer.

Each of the layers is coated with varnish or paint and finally the whole thing before it is put into operation placed in a heating cabinet.

Claims (4)

Claims: IO 1. Composite metallic container for the inductive treatment of metals in the molten state, characterized in that it is in the heating zone from a union of metallic shaped elements (1 a) made of a non-magnetic and refractory alloy, for. B. austenitic steel, by means of interlocking pegs (1 b) and peg holes (1 c) on these elements and that these elements are electrically isolated from each other by a refractory cement introduced into the joints (1 d). 2. Metallic container according to claim 1, characterized in that a lashing around the heating zone is arranged. which consists of at least two layers of wires or tapes, namely one made of wires or strips (6), which correspond to the generation lines of the cylindrical container are arranged, and the other made of threads or ribbons (8), which as a helix wrapped around the first layer. 3. Metallic container according to claims 1 and 2, characterized in that the tension wires or tapes (6, 8) are made of glass fibers. 4. Metallic container according to claims 1 and 2, characterized in that the tension wires or strips (6, 8) consist of metal wires that are non-magnetic and insulated from one another are. 1 sheet of COPY drawings