SU1702546A1 - Dc arc furnace power supply - Google Patents

Abstract

The invention relates to electrical engineering. The aim of the invention is to improve the technical and economic performance of the furnace by reducing the power of the supply transformer. The converter, made in the form of two three-phase valve sets 2 and 3 connected in series, is additionally equipped with a valve set made according to a three-phase zero scheme, which also includes a bridge circuit with part of bridge 2, and a single-phase unmanaged set 7. Automatic switching of the valve control system outputs Set 2 allows two modes of operation of the furnace power source: a) when the arc voltage in the furnace is high, the arcs connected in series to the arc operate in series kits 2 and 3; b) while reducing the voltage on the arc, valve set 3 with valve sets 7 and a three-phase bridge composed of valve set 8 and part of valve set 2 work in parallel with the arc circuit. Switching modes is automatic using a voltage sensor 18, threshold elements 19, 20. block of switching elements 17. At low currents, the valve set 3 is turned off by a signal from the threshold element 21. The furnace is powered in this case from a converter composed of a valve set 3 and part of the valve set 2. 4 Cf files, 4 sludge . VI you ate

Description

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Claims (5)

Claim 1. A device for powering an arc DC furnace, comprising a voltage sensor connected between the electrode; and bottom, the first and second controllable valve sets, made according to a three-phase bridge circuit with two groups of valves - cathode and anode and each equipped in series with a current sensor connected to the first input of the comparison unit, the second input of the comparison unit is connected to the reference unit, and the output to the input a current regulator connected by an output to an input of a pulse-phase control system with two three-phase groups of outputs, the valve sets being connected in series with the first DC outputs and the second terminals of the first and second valve sets are designed to connect respectively to the electrode l of the conductive hearth, the AC terminals are connected to the terminals of the independent windings of the supply transformer, while the first group of three-phase terminals of the pulse-phase control system of the first valve set is connected to the control inputs of the valve group, intended for connecting to the furnace electrode, the terminals of the pulse-phase control system of the second valve set are connected to the control and its valve inputs, characterized in that, in order to improve the technical and economic parameters of the furnace by reducing the installed power of the supply transformer and increasing the furnace performance, it additionally introduces a third valve set made according to a three-phase zero circuit on controlled valves, a fourth valve set made according to a single-phase circuit on uncontrolled valves and a block of switching elements, the DC output of the third set is designed to be connected to a conductive not a furnace, its AC terminals are connected to the AC terminals of the first valve set with the formation of a three-phase bridge circuit with its first group of valves designed to connect to the furnace electrode, the fourth set of terminals is connected in accordance with the valves of the first valve set between its direct current terminals, the second the group of three-phase outputs of the pulse-phase control system of the first set is connected through the block of switching elements to the corresponding control inputs of the second group the valves of the first valve set and the introduced third set. 2. The device according to claim 1, with the exception that the first and second valve sets are equipped with current-limiting chokes included in the DC circuit. 3. The device according to claims 1 and 2, characterized in that the block of switching elements is made on a transistor, two relays, two diodes and two resistors, the base of the transistor is connected through the first resistor to the negative pole of the power source and through the second resistor to the second input of the block, the collector of the transistor is connected through a series-connected NC contact of the second relay and the control winding of the first relay with the positive pole of the power source, the emitter of the transistor is connected to the zero output of the power source and through the winding of the second relay with the third input of the block, parallel to the control windings of the first and second relays, the first and second counter diodes are connected, respectively, with each input of the group of inputs designed to connect to the second group of outputs of the pulse-phase control system of the first valve set through an opening contact the first relay is connected to the output of the unit, designed to connect to the control inputs of the second group of valves of the first valve set, and through the make contact with the output, p designed for connection to the control inputs of the third valve set. 4. The device according to paragraphs. 1-3, with a roil ', in that, in order to increase the stability of the arc, two threshold elements are introduced into it, the output of the voltage sensor is connected to the input of the first threshold element, the output of which is connected to the second the input of the block of switching elements, the input of the second threshold element is connected 5 to the output of the current sensor of the first valve set, and its output is connected to the third input of the block of switching elements. 5. The device according to paragraphs. 1-4, characterized in that, in order to increase the power factor while decreasing the current below the reference current, a third threshold element is introduced into it, the input of which is connected to the output of the reference unit, its output is connected to the inhibitory input of the pulse-phase control system of the second valve set . Fig.Z