RU2845265C1 - Device for controlling power in an arc steel melting furnace - Google Patents

Abstract

FIELD: electrical engineering.

SUBSTANCE: invention relates to electrical engineering, specifically to a device for controlling power of an electric arc steel melting furnace. In power control device there performed is automatic switching of magnetization windings in throttle connected from primary side of transformer of arc steel melting furnace, which makes it possible to control arc power due to change of throttle resistance depending on arc current. Said switching of the magnetizing windings in the throttle is carried out by means of three contactless voltage relays that allow switching the throttle biasing windings, wherein the sensitive part of the proximity voltage relay is powered from the secondary winding of the transreactor, and the power part is connected to the supply mains, the power winding of the transreactor is in series connected to the electrode of the steel melting furnace.

EFFECT: faster operation of electric furnace power controller.

1 cl, 1 dwg

Description

The invention relates to electrical engineering, namely to automatic power regulation in arc and induction furnaces.

A power regulator for an electric arc furnace is known [RU 82400 U1, IPC H05B 7/148 (2006.01) G05B 11/00 (2006.01)], comprising a measuring and comparison element connected by its first input to a setting element, by its second input to a mode measuring element, and by its first output via an amplifying element to an actuator and a mechanism for moving the electrode of an electric arc furnace containing an electrode and a furnace bath, wherein the regulator is provided with first and second nonlinear amplifiers, first and second multiplication units, an integrating element and an adder, wherein the first multiplication unit is connected by its output to the input of the adder, and by its first input to the output of the amplifying element connected by its input to the first output of the measuring and comparison element, and by its second input to the output of the first nonlinear amplifier connected by its input to the second output of the measuring and comparison element, which is also connected by its third output to the input of the second nonlinear amplifier connected by its output to the second input of the second multiplication block, connected by its first input to the output of the integrating element, connected by its input to the fourth output of the measuring and comparison element, and by its output to the adder, connected by its output to the actuator.

The disadvantage of this device is the complexity of the power regulation circuit with the control element, which leads to a decrease in the speed and reliability of the entire device as a whole.

Also known is a power controller for an electric arc steel-making furnace [RU 2448165 C2, IPC C21C 5/52 (2006.01) H05B 7/148 (2006.01)], comprising for each phase of the furnace a power setter, a first controlled switch with two control inputs, a dead zone unit, second and third controlled switches, a second timer, two sources of constant voltage and a summer. The output of the summer is connected to the input of the first controlled switch and to its first control input. The output of the first controlled switch is connected to the input of a controlled reversible converter, to the output of which an electrode movement motor is connected. The output of the first timer is connected to the second control input of the first controlled switch, the first input of which is connected to the output of the power setter, and the second - to the output of the second controlled switch, the input of which is connected to the output of the first constant voltage source, and the first control input - to the second control input of the first controlled switch, to the first control input of the third controlled switch, to the output of the first timer and to the input of the second timer, the output of which is connected to the first control input of the second controlled switch, the second input of which is connected to the output of the second constant bias voltage source, and the output - to the third input of the adder.

The disadvantage of this device is the complex control circuit, which leads to a decrease in the reliability of the device.

The closest analogue is the device adopted as a prototype for regulating the power of a three-phase electric arc furnace [RU 2239295 C2 IPC H05B 7/148], which contains in each phase an arc current sensor and an arc voltage sensor, the outputs of which are connected to the inputs of a comparison unit, the output of which is connected via an amplifier to the input of the electrode movement mechanism, which form an electromechanical circuit for regulating the electrode position, and also contains a mode coordinate controller, the first input of which is connected to the output of the setter of this coordinate, and its output via a device for regulating the inductive resistance of the choke is connected to the input of the choke, which is included in the circuit of the primary winding of the furnace transformer. The device also contains an arc power sensor, the inputs of which are connected to the output of the arc current voltage sensor, and its output is connected to the second input of the mode coordinate controller, which together with the setter of the mode coordinate, the device for regulating the inductive resistance of the choke and the choke itself form a high-speed electric circuit for regulating the arc power. Technical result: the dynamic and static accuracy of regulation of the electric arc furnace power is improved, which is expressed in a decrease in the value of its dispersion, and the dispersion of the arc current, reactive power and voltage of the network from which the electric arc furnace is powered is reduced.

The disadvantage of this device is the complexity of the control system, which leads to a decrease in the reliable operation of the entire device as a whole, as well as due to the use of thyristors with a controlled opening angle in the three-phase supply network.

The technical result of the device for regulating the power in an electric arc steel-making furnace consists in expanding the arsenal of contactless technical means intended for high-speed automatic regulation of the arc power in electric steel-making furnaces with an improved form of the control signal of the controlled chokes.

Fig. 1 shows a diagram of a power control device in an electric arc steel-making furnace.

The proposed device for regulating power in an electric arc steel-making furnace contains a regulation device 1 (UR), an adjustable throttle 2 (Dr) and a transformer reactor 3 (TR).

The control device 1 (UR) contains three contactless voltage relays 4 (BRN1), 5 (BRN2), 6 (BRN3), which contain a sensitive part that responds to voltage changes 7 (CH1), 8 (CH2), 9 (CH3), and three power parts 10 (SC1), 11 (SC2), 12 (SC3), which switch the windings of the adjustable choke 2 (DR).

Each voltage relay contains an opto-relay with normally open contacts 13,14,15, additional resistors 16, 20, 24, resistors 17, 18, 19, 21, 22, 23, 25, 26, 27, thyristors 27, 28, 29, diodes 30, 31, 32, capacitors 33, 34, 35. The power sections contain three thyristors 36, 37, 38 and three diode bridges 39, 40, 41, with twelve diodes 42, 43, 44, 45, 46, 47, 48, 49, 50, 51, 52, 53. The adjustable reactor has three magnetization windings 54, 55, 56.

The power control device in an electric arc steel-making furnace contains a device for controlling the inductive resistance of a choke 1 (UR) and the choke 2 (Dr) itself, the network winding of which is connected in series with the electrode of the steel-making furnace.

In the power section 10 (SC1) of the contactless voltage relay 4 (BRN1), the anode of the first thyristor 36 is connected to the cathodes of the first 42 and second 45 diodes in the first common point 57 of the diode bridge 39, and its cathode is connected to the anodes of the third 43 and fourth 44 diodes of the diode bridge 39 in the second common point 60. The anode of the second diode 45 is connected to the cathode of the fourth diode 44 of the diode bridge 39 in the third common point 58 connected to the eighth common point 62 of the second diode bridge 40 and to the first terminal of the supply network. The anode of the first diode 42 is connected to the cathode of the third diode 43 of the diode bridge 39 in the fourth common point 59, connected to the first terminal of the first secondary winding 54 of the controlled choke 2 (DR). The second terminal of the first secondary winding 54 is connected to the second terminal of the power supply network. The control electrode of the first thyristor 36 is connected through the first resistor 19 to the first plate of the first capacitor 33 of the sensitive part 7 (ЧЧ1). The cathode of the first thyristor 36 is connected to the second plate of the first capacitor 33 of the sensitive part 7 (ЧЧ1). Also in the power section 11 (SC2) of the second contactless voltage relay 5 (BRN2), the anode of the second thyristor 37 is connected to the cathodes of the fifth 46 and sixth 49 diodes of the diode bridge 40 to the fifth common point 61, and its cathode is connected to the anodes of the seventh 47 and eighth 48 diodes of the diode bridge 40 to the sixth common point 64. The anode of the sixth diode 49 is connected to the cathode of the eighth diode 48 of the diode bridge 40 to the seventh common point 62. The anode of the fifth 46 diode is connected to the cathode of the seventh diode 47 to the eighth common point 63, connected to the first terminal of the second magnetizing winding 55 of the controlled choke 2 (DR), the second terminal of which is connected to the second terminal of the first magnetizing winding 54. The control electrode of the second thyristor 37 is connected to the first plate of the second capacitor 34 of the sensitive part 8 (ЧЧ2) through the second resistor 23. The cathode of the second thyristor 37 is connected to the second plate of the second capacitor 34 of the sensitive part 8 (ЧЧ2). In addition, in the power section 9 (СЧ3) of the contactless voltage relay 6 (БрН3), the anode of the third thyristor 38 is connected to the cathodes of the ninth 50 and tenth 53 diodes of the diode bridge 41 to the ninth common point 65, and its cathode is connected to the anodes of the twelfth 52 and eleventh 51 diodes of the diode bridge 41 to the tenth common point 68. The cathode of the eleventh diode 51 is connected to the anode of the ninth diode 50 of the diode bridge 41 to the twelfth common point 67. The anode of the tenth 53 diode is connected to the cathode of the twelfth diode 52 to the eleventh common point 66 connected to the seventh common point 62 of the second diode bridge 40, connected to the first terminal of the third magnetizing winding 56 of the controlled choke 2(Др), the second terminal of which is connected to the second terminal of the second magnetizing winding 55. The control electrode of the third thyristor 38 is connected through the third resistor 27 to the first plate of the third capacitor 35 of the sensitive part 9(ЧЧ3). The cathode of the third thyristor 38 is connected to the second plate of the third capacitor 35 of the sensitive part 9(ЧЧ3). The anode of the light-emitting diode of the first opto-relay with a normally open contact 13 of the sensitive part 7 (CH) is connected to the first terminal of its normally open contact, the first terminal of the first additional resistor 16 and the first terminal of the second additional resistor 20 of the sensitive part 8 (CH2) of the sensitive part 7 (CH1), the second terminal of the first additional resistor 16 is connected to the second terminal of the normally open contact of the opto-relay 13 and the first terminal of the fourth resistor 17, the second terminal of which is connected to the anode of the first diode 30, the cathode of which is connected to the control electrode of the fourth thyristor 27, the cathode of the light-emitting diode of the first opto-relay 13 is connected to the first terminal of the fifth resistor 18, the second terminal of which is connected to the anode of the fourth thyristor 27, the cathode of which is connected to the first terminal of the first capacitor 33, the second terminal of which is connected to the second terminal of the second capacitor 34 of the sensitive part 8 (CH2). The anode of the light-emitting diode of the second opto-relay with the normally open contact 14 of the sensitive part 8 (ЧЧ2) is connected to the first terminal of its normally open contact, the first terminal of the second additional resistor 20 and the first terminal of the third additional resistor 24 of the sensitive part 9 (ЧЧ3), the second terminal of the second additional resistor 20 is connected to the second terminal of the normally open contact of the second opto-relay 14 and the first terminal of the sixth resistor 21, the second terminal of which is connected to the anode of the second diode 31, the cathode of which is connected to the control electrode of the fifth thyristor 28, the cathode of the light-emitting diode of the second opto-relay 14 is connected to the first terminal of the seventh resistor 22, the second terminal of which is connected to the anode of the fifth thyristor 28, the cathode of which is connected to the first terminal of the second capacitor 34, the second terminal of which is connected to the second terminal of the third capacitor 35 of the sensitive part 9 (ЧЧ3) of the third contactless voltage relay 5 (BRN2). The anode of the light-emitting diode of the third opto-relay with normally open contact 15 of the sensitive part 9 (ЧЧ3) is connected to the first terminal of its normally open contact, the first terminal of the third additional resistor 24 and is connected to the first terminal of the transreactor 3 (ТР), the second terminal of the third additional resistor 24 is connected to the second terminal of the normally open contact of the third opto-relay 15 and the first terminal of the eighth resistor 25, the second terminal of which is connected to the anode of the third diode 32, the cathode of which is connected to the control electrode of the sixth thyristor 29, the cathode of the light-emitting diode of the third opto-relay 15 is connected to the first terminal of the ninth resistor 26, the second terminal of which is connected to the anode of the sixth thyristor 29, the cathode of which is connected to the first terminal of the third capacitor 35, the second terminal of which is connected to the second terminal of the transreactor 3 (ТР).

The proposed device for regulating the power in an electric arc furnace operates as follows.

When the electrodes of the steel-smelting furnace are short-circuited with metal, a short-circuit current will flow along the short line of the furnace, the maximum value of E is induced in the secondary winding of the transistor reactor 3 (TR), current will begin to flow along the control circuits of thyristors 27, 28, 29 of the sensitive parts 7 (ЧЧ1), 8 (ЧЧ2), 9 (ЧЧ3) and along the circuits of these thyristors, turning on the LEDs of the opto-relay 13, 14, 15 and charging the capacitors 33, 34, 35, simultaneously all the LEDs close their normally closed contacts, shunting the additional resistors 16, 20, 24, thereby reducing the return coefficients of the contactless voltage relays 4 (BRN1), 5 (BRN2), 6 (BRN3), charged capacitors 33, 34, 35 send a signal to open the thyristors 36, 37, 38 and the magnetization windings 54, 55, 56 of the choke 3 (Dr) are connected to the power supply network, thereby increasing the voltage drop in the primary winding of the controlled choke and reducing the voltage on the electrodes of the steel-smelting furnace. After the electric arc occurs, the current flowing through the short line decreases, accordingly, E in the secondary winding of the transreactor 3 (TR) will decrease, the current flowing through the control circuits of thyristors 36, 37, 38 will be insufficient to open thyristor 36 and, accordingly, the contactless voltage relay 4 (BRN1) will turn off its magnetization winding 54 reducing the voltage drop in the primary winding of the choke 3 (Dr), a further decrease in the current in the short line of the furnace will lead to the disconnection of the contactless voltage relay 5 (BRN2), etc.

The sequence of disconnections of contactless contactors depends on the choice of the value of additional resistors 16, 20, 24.

Claims (1)

A power control device in an arc steel-making furnace, comprising a device for regulating the inductive resistance of a choke and the choke itself, the network winding of which is connected in series with the electrode of the steel-making furnace, characterized in that in the power section of the contactless voltage relay the anode of the first thyristor is connected to the cathodes of the first and second diodes in the first common point of the diode bridge, and its cathode is connected to the anodes of the third and fourth diodes of the diode bridge in the second common point, the anode of the second diode is connected to the cathode of the fourth diode of the diode bridge in the third common point connected to the eighth common point of the second diode bridge and to the first terminal of the supply network, the anode of the first diode is connected to the cathode of the third diode of the diode bridge in the fourth common point connected to the first terminal of the first secondary winding of the controlled choke, the second terminal of the first secondary winding is connected to the second terminal of the supply network, the control electrode of the first thyristor through the first the resistor is connected to the first plate of the first capacitor of the sensing part, the cathode of the first thyristor is connected to the second plate of the first capacitor of the sensing part, in the power section of the second contactless voltage relay, the anode of the second thyristor is connected to the cathodes of the fifth and sixth diodes of the diode bridge to the fifth common point, and its cathode is connected to the anodes of the seventh and eighth diodes of the diode bridge to the sixth common point, the anode of the sixth diode is connected to the cathode of the eighth diode of the diode bridge to the seventh common point, the anode of the fifth diode is connected to the cathode of the seventh diode to the eighth common point connected to the first terminal of the second magnetizing winding of the controlled choke, the second terminal of which is connected to the second terminal of the first magnetizing winding, the control electrode of the second thyristor is connected to the first plate of the second capacitor of the sensing part through the second resistor, the cathode of the second thyristor is connected to the second plate of the second capacitor of the sensing part, the anode of the third the thyristor is connected to the cathodes of the ninth and tenth diodes of the diode bridge to the ninth common point , and its cathode is connected to the anodes of the twelfth and eleventh diodes of the diode bridge to the tenth common point, the cathode of the eleventh diode is connected to the anode of the ninth diode of the diode bridge to the twelfth common point, the anode of the tenth diode is connected to the cathode of the twelfth diode to the eleventh common point, connected to the seventh common point of the second diode bridge connected to the first terminal of the third magnetizing winding of the controlled choke, the second terminal of which is connected to the second terminal of the second magnetizing winding, the control electrode of the third thyristor is connected through the third resistor to the first plate of the third capacitor of the sensitive part, the cathode of the third thyristor is connected to the second plate of the third capacitor of the sensitive part, the anode of the LED of the first opto-relay with a normally open contact of the sensitive part is connected to the first terminal of its normally open contact, the first terminal of the first additional resistor and the first terminal of the second additional resistor of the sensing part of the sensing part, the second terminal of the first additional resistor is connected to the second terminal of the normally open contact of the opto-relay and the first terminal of the fourth resistor, the second terminal of which is connected to the anode of the first diode, the cathode of which is connected to the control electrode of the fourth thyristor, the cathode of the LED of the first opto-relay is connected to the first terminal of the fifth resistor, the second terminal of which is connected to the anode of the fourth thyristor, the cathode of which is connected to the first terminal of the first capacitor, the second terminal of which is connected to the second terminal of the second capacitor of the sensing part, the anode of the LED of the second opto-relay with a normally open contact of the sensing part is connected to the first terminal of its normally open contact, the first terminal of the second additional resistor and to the first terminal of the third additional resistor of the sensing part, the second terminal of the second additional resistor is connected to the second terminal of the normally open contact of the second opto-relay and the first terminal of the sixth resistor, the second terminal of which is connected to the anode of the second diode, the cathode of which is connected to the control electrode of the fifth thyristor, the cathode of the light-emitting diode of the second opto-relay is connected to the first terminal of the seventh resistor, the second terminal of which is connected to the anode of the fifth thyristor, the cathode of which is connected to the first terminal of the second capacitor, the second terminal of which is connected to the second terminal of the third capacitor of the sensitive part of the third contactless voltage relay, the anode of the light-emitting diode of the third opto-relay with a normally open contact of the sensitive part is connected to the first terminal of its normally open contact, the first terminal of the third additional resistor and is connected to the first terminal of the transreactor, the second terminal of the third additional resistor is connected to the second terminal of the normally open contact of the third opto-relay and the first terminal of the eighth resistor, the second terminal of which is connected to the anode of the third diode, the cathode of which is connected to the control electrode of the sixth thyristor, the cathode of the light-emitting diode of the third opto-relay is connected to the first terminal of the ninth resistor, the second terminal of which is connected to the anode of the sixth thyristor, the cathode of which is connected to the first terminal of the third capacitor, the second terminal of which is connected to the second terminal of the transreactor.