CS218166B1 - Arc furnace - Google Patents

Abstract

The invention belongs to the field of electrothermal technology, metallurgy and solves a universal single-phase two-electrode furnace. The arc furnace consists of two rod electrodes, each of which is connected to one phase current supply and a ladle, the bottom of which is conductively connected via two rectifier circuits to both phase current supplies. The possibility of use is in the field of metal smelting.

Description

The invention relates to an arc furnace with two rod electrodes, which is fed with a single-phase current and which has a melting vessel connected via two rectifier circuits to both current inputs.

Previously known arc furnaces are supplied single-phase and three-phase. Single-phase arc furnaces are usually equipped with a single rod electrode and a conductive ladle, the arc burning between the rod electrode and the melt. In these arc furnaces it is difficult to start the arc. In three-phase arc furnaces, three rod electrodes are used, and the arc burns when the melt bath is heated ₍ between the electrodes and only after the melt is melted, the arc is allowed to burn between the rod electrodes and the melt).

The above drawbacks are overcome by the arc seal according to the invention, which consists of two rod electrodes connected to one phase power supply and a ladle whose bottom is conductively connected via two rectifier circuits to both phase power supplies. .

By connecting both rod electrodes to the two phase current leads, it is possible to burn the arc between the two rod electrodes, which is important at the start of melting, for example when it is necessary to melt the scrap at the bottom of the ladle. After the liquid melt has been formed in the ladle, it is possible to burn an arc between the rod electrodes and the melt, with an electric current flowing between the two rod electrodes, alternating or one-way rectified, through the respective rectifier circuit. This increases the RMS current value by 100% for each rod electrode and by 200% for the entire arc furnace. Another advantage of the wiring according to the invention is that it is possible to use single-phase furnace transformers without modification. Current flows through both rectifier circuits by removing AC current without a DC component from the transformer. In this case, the rectifier elements are only loaded by a portion of the furnace flow.

In the accompanying drawings, an exemplary embodiment of an arc furnace according to the invention is shown in FIG. 1 is a circuit diagram; FIG. 2 shows the current flow taken from the furnace transformer, and FIG. 3 and 4 are waveforms flowing through the individual rectifier circuits; FIG. 5 is the resultant current flowing through one rod electrode; and FIG. 6 is the resultant current flowing through the second rod electrode.

The feed from the single-phase arc transformer 1 is connected to two rod electrodes 2 and to two circuits with baffles 5, which are connected to the conductive bottom of the vessel 4 with the melt 3. The electric arc burns either between the two rod electrodes 2 as the melt 3 melts. Thereafter, the current flows through the melt 3, superimposing the current supplied through the two circuits with the rectifying members 5, so that one half-wave current flows through each rod electrode 2, both half-wave giving an additional alternating current which is approximately equal to twice the flowing current. directly between the two rod electrodes 2.

By using thyristors instead of diodes, it is possible to introduce economical power control, with only a controlled portion of the furnace flow flowing through the thyristors, thereby reducing the number of thyristors.

Claims (1)

OBJECT OF THE INVENTION An arc furnace consisting of two rod electrodes, each connected to a single phase inlet and a ladle, characterized in that the bottom of the ladle (4) is conductively connected via two baffles (5) to both phase inlets (1) of the current.