SU906041A1 - Device for automatic regulating of electric mode of multi-phase electric arc furnace - Google Patents

Description

c, despite the fact that the power input to the furnace is less dependent on voltage fluctuations in the network, the power used is injected into the furnace, the highest use of the furnace transformer is the most complete, and the specific energy consumption is minimal.

The purpose of the invention is to improve the quality of regulation.

This goal is achieved due to the fact that the output of the reference voltage source is connected to the input of the comparison unit via a switching element, the control input of which is connected to the output of the threshold element connected to the phase voltage sensor.

Ia drawing shows a diagram of the device.

The device contains a furnace transformer 1 with a voltage level switch 2, a current sensor 3. connected through a matching element C to a cpa block, the output of which 5 is connected via an reversible amplifier 6 to an actuator for moving the electrode 7, a voltage sensor 8 that through a threshold element 9 and amplifier 10 are connected to the control input of the switch 11 connected between the comparison unit 5 and the input of the source of the reference voltage 12, the input of which through the second switch 13 is connected to the switch of the voltage steps 2 ommutatory 11 and 13 may be formed, for example, on guides magnitoupravl contacts or optocouplers.

When there is a voltage 11 on the electrode, the signal from the voltage sensor 8 is supplied to the threshold element 9 that operates and switches on the switch 11, which connects the reference voltage unit 12 to the comparison unit 5. At the same time, the signal from the comparison unit 5 is fed to the input of the reverse amplifier 6, controlling the mechanism for moving the electrode 7 causing the electrode to move downwards.

In the case of a simultaneous approach to a solid charge or liquid metal of at least 2 electrodes, between each of the electrodes and the solid charge or liquid metal arcs are ignited the amount of current through which is determined by the value of the voltage obtained from the reference source 12,

If the electrodes do not fit the charge simultaneously, then when you touch

the electrode of a solid or liquid metal, the voltage measured by the sensor 8 and supplied to the input of the threshold element 9. is missing or less than its threshold, when

This output signal of amplifier 10 is not present; switch 11 disconnects the reference voltage from the source of the reference voltage 12 to the input of the comparison unit 5. As a result, there is no signal at the output of the comparison unit 5, which causes the electrode to stop moving. With the approach of the second electrode to the solid charge or liquid metal between it

and a solid charge or liquid metal ignites the arc, and the operating short circuit flows through the stopped electrode and, due to the absence of a reference voltage in the comparison unit 5, the electrode begins to move upwards with maximum speed until the voltage on the arc becomes equal to the trigger voltage the threshold element 9 and as a result of its operation, the source of the reference voltage 12 is connected to the comparison unit 5- Further movement of the electrode upwards is proportional to the difference between The value of the reference voltage and the value of the voltage proportional to the current flowing through the electrode, which from the current sensor 3 through the matching element k is fed to another input of the comparison unit S-Since this difference decreases as the electrode moves up, the electrode approaches the operating point given by the reference voltage at a speed equal to zero. The voltage of the source of the reference voltage 12 during the smelting process is changed by the switch 13 in accordance with the change in the step of the furnace transformer 1 by the switch of the voltage step 2. This allows the value of the reference voltage to be varied in accordance with the value of the rated current flowing in time

Claims (2)

operation of the furnace in its primary winding. This allows the current in the secondary circuit of the furnace transformer to be maintained during the melting of the charge and, therefore, in an arc equal to the nominal, and much more accurately than in the case when the regulation is carried out according to the magnitude of the secondary current with a constant reference voltage and significant non-sinusoidality. Another advantage of the proposed control device is that the elimination of short circuits in this case occurs at the highest possible speed, since the reference voltage is completely removed, and at the same time, the approach to the operating point is carried out smoothly, which eliminates overshoot arc. The proposed device allows to increase the value of the useful power introduced into the furnace, more fully use the furnace current transformer, to reduce the specific consumption of electric resistivity. All this leads to an increase in furnace productivity by reducing the melting time and reducing power consumption. l6 claims The device for automatic regulation of the electric mode of an arc multiphase electric furnace, comprising, for each phase, a phase voltage sensor and a current sensor connected to the first input of the comparator unit, the second input of which is connected to the output of a reference voltage source connected to the step switch furnace transformer, and the output of the comparator unit is connected to the executive mechanism for moving the electrode, which, in order to improve the quality of regulation, s output source of the reference voltage input of the block with the comparison done via a switch element controlled yustsy input coupled to the output of the threshold element is connected to the sensor input phase voltage. Sources of information taken into account during the examination 1. Svenchansky AD and others. Automation of electrothermal installations. M ,, Energie, 1968, pp. 231-236. 2. The same, p.217-219