SU6447A1 - Device for adjusting the position of electrodes of electric arc furnaces - Google Patents

Description

Voltage-arc electric furnaces are usually controlled by rearranging the electrodes of the electric motor, which act on the winch and are connected to an existing low-voltage network; rotation of the electric motor is dependent on the strength of the current in the electrodes. For adjusting the position. Electrodes of electric arc furnaces use electrical relays to turn on and off these electric motors. In view of the frequency of the switching required and, comparatively, of the strong currents, the switching regulators are subject to considerable wear. The present invention aims to eliminate excessively large wear of the switching bodies and to ensure long-term good and accurate regulation of the electrodes. For this, each electrode is switched by an electric motor acting on the winch, connected according to Leonard's scheme with a starting dynamo and controlled, depending on the electrode current, with the help of a Tyrrill regulator so that the excitation of the inductors of the starting dynamo and, accordingly, the voltage given by the electric motor , continuously changing, passes through a zero value and can get a negative value. As a result, the motor that serves to rearrange the electrode, while at zero voltage at its terminals remains at rest, while acting on it with a positive or negative voltage, it rotates in one direction or another, respectively, by raising or lowering the electrode.

In order to obtain such fine gradations of adjustment, in which, in the case of weak or short-term current shocks, it would act only to an insignificant degree, with more strong current fluctuations — with greater force, one of the lever arms of the fast-acting regulator it becomes astatic, and is held between the springs in such a way that, in its average position, it is astatic or approximately astatic, with the same returning deflection exposed to an increasing force, which tends to return it to the average Assumption. To adjust the regulator, the springs acting on the lever or their stops are made adjustable; the springs can be placed in a special device for damping vibrations.

FIG. 1 shows a general wiring diagram of the device proposed; in fig. 2-device regulator with an astatic middle position in combination with the general scheme.

Electrode 1 is replaced by a motor 2 with a constant excitation, which receives current from dynamo 3, turned on by the Leonard system. The drawing shows three-such dynamos, corresponding to three electrodes of a three-phase furnace, but the regulating device as a whole is shown only for one electric electrode. All three Leonard starting dynamos are driven in rotation by a common three-phase electric motor 4. A direct current electric motor can also be used for the drive. The dynamo 3 has an excitation winding 6 and a second excitation winding 7 with a doubled number

ampere-turns connected to the same network 5, but the opposing winding 6. The connection of the winding 7 to the DC source 5 is made through a fast-acting regulator, for example, a Tyrrill system, on the coil 8 of which through the current transformer 14 a current flows through the electrode . The voltage of the Tirrill coil 9 is created by successively turning on the voltage of the Leonard dynamo and a higher constant excitatory voltage 3 in such a way that the coil 9, which reacts to a change in voltage, never receives zero voltage. This is possible, for example, when the DC voltage in the network 5 is 220 U, and the Leonard dynamo voltage can fluctuate between - {- llOv and - lOOv. The vibrating contact 10 and the contact of the auxiliary relay 11 Tyrrill work in a known manner already in a matching cycle. Besides; Regulatory resistors 12 and 13 are provided for fine adjustment, which is performed as follows: at a certain current strength in the electrodes, the excitation winding 7 is turned on a unit of time so often that the motor for shifting the electrode is almost at rest; when, due to an increase or decrease in the electrode current, this state of equilibrium is disturbed, the fast-acting regulator turns on winding 7 more or less often than it should be in equilibrium, as a result of which motor 2 rotates in one direction or another, respectively raising or lowering electrode 1.

FIG. 2 shows three electrodes 1, 1, 1, of which each can be adjusted separately. In the drawing, in order to simplify the circuit, the regulation is shown only for electrode 1. The latter is raised or lowered by motor 3, which is powered by a Leonard 3 dynamo and is constantly energized by an excitable dynamo 15. Leonard 3 dynamo and an exciter 15 are driven by a three-phase motor current 16. The Leonard 3 dynamo machine has an adjustable (to get a certain excitation) winding b and an excitation winding 7 which is in opposition to it, which is influenced by the fast-acting regulator The vibrating contacts 10 are located at the ends of the levers 17, 18. The coil 9 of the fast-acting regulator is affected by a composite voltage, which is composed of a constant voltage of the excitant mask 15 and the oscillating voltage of the dynamo-mash Leonard 3. already in a manner consistently coming into action by the springs 19. The lever 18 is acted upon by the roller 8, which is influenced by the current transformer 14, in accordance with oscillations of the electrode current. In addition to the equalizing load 20 already provided for in a known manner, springs 21, 22 are located on the lever 18 located between the stops 23, 24. These stops are mainly made adjustable, for example according to the drawing, in the form of screws. In such a case, they are installed in such a way that the lever 18 in its middle position is either not supported at all or supported to a small extent; with an increasing deflection, one spring is always deformed more strongly, so that the counteracting or returning force increases continuously.

The effect of these auxiliary springs is, therefore, that with small or short-term oscillations of the electrode current, the regulator reacts only slightly, with more severe or prolonged jolts

E. S.

current it acts with full force. The springs 21, 22 may be arranged so that they allow adjustment for operation with greater or lesser force. The extension springs 21, 22 may not be sheet, as shown schematically, but coiled, and can be placed, if necessary, in devices that dampen the vibrations. In the drawing, the damping device is shown schematically in the form of a cataract 25.

The high-speed regulator produces, through an intermediate relay 11, a periodic short-circuit for a short resistance 27 of the excitation winding 6, as a result of which, depending on the regulator's stroke, the electrode 3 stops, lifts or lowers.

The subject of the patent.

A device for adjusting the position of the electrodes of electric arc furnaces, in which electric motors used for raising and lowering electrodes are switched on according to the Leonard scheme and controlled, depending on the current strength in the electrodes, by means of fast acting regulators that change the excitation of dynamo rotating motors, characterized by that the Tyrrill system regulator is used as a fast-speed controller, the coil 9 of the vibrating contact 10 of which is connected to the dynamo circuit, in series with Independent excitation, the voltage of which circuit exceeds the voltage of the dynamo, changing the position under the influence of the oscillations of the electrode current, the lever 18 is mounted between the springs 21, 22, equipped with adjustable stops 23, 24 and assigned, for the purpose of smoother regulation, to create, with significant leverage deviations, increasing opposing force (Fig. 2). to the patent of the Electricity company of the company „Universal Companion No. 6447

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