SU89493A1 - Electric smelting furnace - Google Patents

Description

Figures 1, 2 and 3 show general types of the proposed furnace in three versions, and FIG. 4 and 5 the corresponding electrical diagrams, diagrams of the first and second variants are identical}.

The furnace has a crucible 1 (fixed - according to the variant in Fig. 1 and varaijUiiomuiicfl-but variants in Figs. 2 and 3), around which at the poles 2 of the colpear magnetic core 4 the phase primary windings 10 are located, exciting a rotating magnetic field. This latter produces induction heating of the charge inside the crucible.

For the additional barrel Harpiesa, in the melting space of the CTI30 crucible through the roof 3, rotating (Fig. 1), regardless of the crucible, together with M, the feed line 4, electrodes 5 are introduced. The arcs are powered from the secondary windings 6 located at the poles 2 and attached to, ele1 grodam.

A secondary short-circuited winding in the form of squirrel cage 7 is located around the crucible on its lining.

As a result of the interaction of the rotating field with the currents induced by it in this secondary winding and the occurrence of the electrodynamic forces, the magnetic field of the -1 conductor 4 occurs in the direction opposite to the rotation of the magnetic field. The control of the speed of rotation of the magpire line 4 is provided by means of a corresponding brake; 8 device 8 in the range from zero to synchronous, i.e., to the speed of rotation of the magnetic field; in this case h: astrota is regulated accordingly from normal to zero.

In order to further control the frequency from normal to higher, the magnetic core 4 is rotated from the driving motor 9 (turbines) in the direction of rotation, the fertile field, as a result of which the distance is reached | In the neck, the frequency control of the secondary currents in the limit from normal to some maximum determined by the maximum number of revolutions reported by the danglator to the magnetic cable 4. Thus, by adjusting the blueness of the rotation of the magnetic circuit 4 on the motor, the frequency of the induction currents is limited to 1x from zero to normal. By adjusting the rotational speed of the magnetic ribbing on the generator mode, the frequency can be regulated in the range from normal to max.

4ic, on the other hand, relates to secondary currents that feed the arcs, then so; as electrodes 5 are connected here with the secondary windings 6. at the poles, and interlock with them both in one and in another hundred) it is still stationary, Then, the currents feeding them have a normal network frequency at all changes in the frequency of ethereal induction currents.

In the second embodiment, nra | Amenable furnace (Fig. 2), before with: .trivayutsya in іsmzhnost1 azchgllchchticheskogo vrandeni crucibles / as a result of mutual influence and vrani1nogosti field with currents, Close the winding 7 on the lining and the occurrence of electrodynamic forces. The rotating platform 12 of the crucible is equipped with a braking device //, which allows reging the speed of the crucible. The crucible has the property of self-rotating - without a special power drive, both in the motor and in the generator mode, with a non-CHANGE direction of hold, which makes it possible to influence the current frequency in the crucible, i.e., to increase the flexibility of control of the furnace in this regard .

The purpose of eliminating gliding cocks for transferring current to the electrode, 5 Å, is the third embodiment of the proposed furnace (Fig. 3) squirrel cage 7 on the crucible lining / there is a phase winding 13, made similarly to the winding of the phase rotor asichron; This winding is connected by free ends to electrodes 5, then produced through arch 3 into the smelting space for forming n, and feeding the arcs. Thus, the phasic winding 13 on the lining of the crucible feeds the arcs with currents induced in it and at the same time creates the rotary crucible for relative rotation of the crucible and the magnetic lead 4, and the first in the direction of rotation of the magnetic nol, and the last in the direction n. .

Subject invention

Claims (3)

1. An electrofusion furnace of combined heating equipped with a magnetic core with multi-phase winding, creating a rotating MiarHHTHOe zero, and with a crucible equipped with electrodes for creating electric arcs connected to the secondary windings of the m; This is so that, in order to expand the range of frequency control of the current in the crucible, the magnetic core is made rotated under the action of its magnetic field and equipped with a braking device for lowering and rotational speed (in comparison with the nominal speed value) a motor to increase the rotational speed. 2. The furnace change according to claim I, characterized in that, in order to expand the range of frequency control of the current in the crucible, the latter is made temporarily and provided with a braking device. 3. Variation of the furnace according to claim 2, characterized in that, with n, el1; elimination of sliding contacts for transferring such to electrodes, the latter are connected to a phase winding located on the rotor (title).  2