DE219575C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- JVl 219575 - CLASS 21 / *. GROUP

CHARLES ALBERT KELLER in PARIS.

carbon free material.

Patented in the German Empire on November 14, 1907.

The invention has a floor for electric ovens to the subject, as an electric Head is intended to serve, namely in electric ovens, in which the entry of the flow through one or more vertically and movably arranged above the ground Electrodes takes place while the return of the current takes place through the conductive ground, the one with one of the poles of the circuit

ίο is connected.

In the ovens with conductive floors known up to now, the current is passed through the floor either through a carbon conductor or through a metallic plate that is cooled by a flow of water, or finally by metal blocks that are more or less removed from the stove, which can also be used as required are subjected to artificial cooling, directed.
The arrangement forming the subject of the invention consists essentially in the fact that the conductive carbon base is replaced by a carbon-free base which is conductive only at a higher temperature, as a result of which the product does not absorb carbon as in the case of bases which consist of carbon.

For a better understanding of the innovation is a drawing accompanied by a beispiels- _i have execution
Fig. Ι the vertical section,

FIG. 2 shows the horizontal section through the furnace from FIG. 1.

In this drawing, 1 represents a bundle of iron rods with a plate 2, which the Connecting rods at their lower end, forming a single body that contains the electrical Supplies electricity. There is a firmly pounded one between the sticks and around the bundle and fire-resistant dam 3, suitably made of magnesia. The soil thus created is inserted into a metallic box 4, from the walls of which he. through a fire-resistant Masonry 5 is insulated. This floor, whose conductive cross-section is partly made of metal, partly made of there is fire-resistant mass, so it is designed so that it has sufficient resistance at the highest temperature of the material in the furnace with which it is in contact comes, able to offer. In spite of this, it is due to the fact that it is a part of iron contains, a body that conducts electricity well even at low temperatures.

Thanks to its properties, this floor is particularly suitable for treating metals, for example of cast iron and steel and still has the advantage that it is fire-resistant and because of the iron rods, which it contains, does not bend under the pressure of the products that weigh on it.

In the well-known ovens, one would use the coal floor only at a high temperature replace thermally conductive soil, the soil, since it is initially non-conductive, should are artificially heated, which causes difficulties.

On the other hand, it is clear that the floor formed according to the present invention it penetrating rods 1 until the ground has become conductive, initially alone take over the power line. Since they are made of iron, they are without chemical influence on the treatment of cast metal or steel.

The upper part of the rods can melt without any disadvantages.

(2nd edition, issued on September 3rd igio.J

shout, because then the molten mass rests in a hollow in the floor and cannot escape. This mass solidifies again when the oven cools down and returns to its normal state. Even if it gets smaller, it will be treated by a corresponding part of the oven. Material, which fills the hollows, replaced again.
When treating other metals one becomes

ίο use other metal rods in the floor, e.g. B. in the treatment of copper copper rods are used, with the same effects as when treated of iron and steel are described above.

It is understood that the outer metal walls 4 forming the part of the described Oven must be far enough away from the stove to prevent them from becoming too large Stay protected from heat. In any case, they can be cooled by circulating water and thereby protect the sole of the stove described all the more safely.

The plate 2, which connects the bars 1 to one another, is on a bearing 6 of several Electrodes made of carbon o. The like. Supported, which rest flat on a rigid metal base 7, the can also be cooled by water. Copper plates, ■ those between the electrodes lie, connect them to the outlet rod 9 of the stream.

- ;. The number of vertical electrodes 10 can be be of any size, and the sole can also contain several bundles of rods instead of one, their Number can be different from that of the vertical electrodes.

As the drawing reveals, the ends are the ones that penetrate the hearth mass Sticks regularly over the entire hearth surface opposite the movable electrode distributed. . This offers compared to the oven constructed by G i r ο d, in which also metallic conductors, but in the form of blocks in places made of magnesia Stove mass are embedded (see French patent specification 350524), the following advantages: The furnace can be switched directly to the power supply without any contrivance, by lowering the electrode on the stove,

.50 because the electrode comes into contact with all ends of the furnace when the furnace is cold Bars evenly distributed in the part of the floor that lies under it.

The electric current flows evenly through the entire cross-section of the floor, because all metallic rods are connected in parallel, and also the ramming mass, which is intimately connected stands with the rods, quickly becomes conductive in their entire extent due to the heating.

In the hearth system with individually arranged metallic pole pieces, the opposite is possible the current through the ground mainly through the metallic pole pieces; he distributes in it according to the resistance which each of them offers to the passage of the current. Power distribution inequality can arise and persist even if one of the pole pieces, e.g. B. after tapping the furnace, with very difficult to melt Slag remains covered; the pole piece can practically be de-energized in this way which then results in an irregular distribution of the intensity in the bottom of the oven Consequence. This is not possible with the mixed, single and homogeneous pole, whichever represents the present invention and realizes a block of uniform conductivity.

In the system which is the subject of the present invention, the uniform effect The current flows through the entire cross-section of the evenly conductive hearth a no less steady flow of the current through the bath which covers the hearth. In contrast, in the system with individually arranged pole pieces sunk into the ground The current flows through the bath in bundles that extend in certain directions from the Adjust the lower part of the movable upper electrode after each pole piece. aside from that will prove to be much greater in the latter system than in the subject matter of the present invention assert the fact that the expansion and contraction movements of the metallic conductors are very different from those of the surrounding refractory mass. The lack of unity and composition a furnace bottom designed in this way often becomes gaps and cracks in the bottom or empty Create spaces around the pole pieces for the liquid metal to penetrate.

Claims (1)

Godfather NT-An s PRu cn: Stove electrode for electric ovens, consisting of only at a higher temperature conductive, carbon-free material, characterized in that over the whole, the hearth surface opposite the movable electrode is flush with it Ends of the stove mass penetrating and into a power supply plate carrying the stove recessed rods made of iron or another metal, depending on the material to be treated, regularly are distributed. 1 sheet of drawings.