DE249081C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- M 249081 CLASS 21 / #. GROUP

"PHOENIX"

in HORDE.

Circuit for multiphase electric ovens. Patented in the German Empire on February 27, 1909.

The present invention relates to an electric melting furnace which is operated with multiphase alternating current, in such a way that the zero point of the multiphase system is moved to the molten bath c and part of the phase voltage is connected to the electrodes b, which are in direct contact with the molten material is, while the phase voltage to individually adjustable

ίο electrodes α guided over the weld pool will.

For larger electric melting furnaces, those with adjustable electrodes and arc heating work, make the necessary large dimensions of the electrodes very uncomfortably noticeable. The weight of the electrodes becomes, very large, and with it the demands on the regulating mechanism increase and the energy

ao fluctuations with the size of the amounts of energy supplied by the electrodes. on the other hand makes it difficult to cool the electrodes and the vaulted ceiling of the furnace is blocked by the large openings the electrodes very weak.

The furnace construction described below eliminates these drawbacks by using the Arc heating is combined with induction and resistance heating, whereby the z. B. arc heating required to achieve a thin slag is reduced to the utmost. At the same time, of course, the consumption of electrodes is also significantly reduced.

In the present furnace design, in addition to the amounts of heat that are supplied by electrodes α and arcs hanging in the melting chamber from above, polyphase alternating current is also supplied directly to the melting material by electrodes b in the furnace walls and the arrangement of the current flow creates a strong rotating magnetic field within the furnace evoked.

The arrangement and circuit of the electrodes is clear from the circuit diagram and voltage diagram in the drawing emerged. A three-phase alternating current is assumed in the drawing.

From the transformer to lower the mains voltage to the working voltage of the electric furnace (without a transformer, due to the low furnace voltage and high currents, you will seldom get by for economic reasons, but of course nothing would stand in the way of drawing the electricity directly from the generators) once at a low voltage e corresponding to the ohmic resistance of the melting material, a high current intensity is fed directly through electrodes b in the hearth walls and the melting material is heated as a result of an electrical resistance, then secondary induction currents occur

in the melt material as a result of the generated magnetic field and contribute to the heating, and furthermore the phase voltage required for arcing at the electrodes α is taken from the same or a separate transformer and the remainder of the required amount of heat is obtained by arc heating.

To achieve the highest possible arc voltage E with a low phase voltage, the electrodes above the melting material can be offset by one phase in the direction of rotation of the magnetic field relative to the electrodes in the hearth wall.

With this arrangement and circuit, the course of the current in each electrode remains almost independent from the current flow to the

their parts, since the electrodes are neither parallel nor one behind the other over the melting material are switched.

Claims (1)

Patent claim: Circuit for multiphase electric ovens with simultaneous heating by means of arc electrodes protruding into the melting chamber from above and by means of electrodes in contact with the molten bath, characterized in that the arc electrodes the entire phase voltage is carried, while lower voltages for the hearth electrodes from the phase lines be removed. 1 sheet of drawings.