UA74047C2 - Control device for an arc apparatus - Google Patents

Abstract

According to the present invention, a control device for an arc apparatus containing a plasmatron and a plasma-generating gas source is proposed. The control device can be used in automatic control systems for welding processes and contains a starting unit, a unit for exciting electric arc, a high-frequency step-up transformer, a partially controlled three-phase rectifier with diodes and thyristors, a unit for testing the electrical strength of the interelectrode gap of the plasmatron, a temperature transducer for measuring temperature of water in the cooling system of the electrodes of the plasmatron, and a detector for measuring the deterioration of the electrodes. The primary windings of the transformer are connected in series, and the secondary winding is inserted in the circuit of the cathode electrode of the plasmatron. The anode and the cathode electrodes of the plasmatron are connected to the corresponding terminals of the rectifier. The proposed device provides the reliable excitation of arc between the electrodes of the plasmatron as well as extending the stability range and enhancing the operation reliability of the plasmatron due to reducing the amplitude of current and voltage rippling.

Description

Description of the invention

The invention belongs to the field of electrical engineering, in particular to systems of automatic control of electric arc 2 plasma installations, which can find application in plasma metallurgy, plasma chemistry.

A known device for controlling the mode of operation of an electric arc installation, which contains an indirect action plasmatron, a rectifier connected to a power source, connected to the cathode and anode of the plasmatron, a source of plasma-forming gas, a control unit for the start-up mode and excitation of the arc discharge, the output of which is connected to the excitation network arc discharge, and its input is connected to the general network of the rectifier 70 IZ.M. Zsbyan, Plasma-arc apparatus. Kyiv, "GTehnyka", 1971, pp. 137-140).

The disadvantage of the known installation is the impossibility of ensuring a stable mode of arc discharge and regulation of the operating mode, as well as a low service life of the electrodes in indirect action plasmatrons.

The closest in terms of technical essence and achievable result (prototype) is a device for controlling the mode of operation of an electric arc installation, which contains an indirect action plasmatron, connected to the cathode and anode 72 of the plasmatron, a source of plasma-forming gas, a control unit for the start-up mode and excitation of the arc discharge, the input of which is connected to the general network of the rectifier, which differs in that the control unit of the start-up mode and excitation of the arc discharge is supplied with coils of automatic disconnectors with delay lines, which are connected to the network of excitation of the arc discharge of the plasmatron via thermal relays with the help of control contacts. The rectifier is made in the form of a semi-controlled three-phase diode-thyristor rectifier, in each phase of which an auxiliary diode is inserted, and a resistor is connected in parallel with the thyristor (Patent of Ukraine Mo 21208, class H 05 V 7/18, application 11.05.94, publ. 16.10. 2000).

However, this installation does not ensure stable operation of the plasmatron and regulation of its operation modes for the following reasons: during operation, thyristor breakdowns occur due to high current pulsations; p 29 - the excitation unit does not ensure a reliable and stable start of the plasmatron; Go) - reliability control of the electrical strength of the intermediate electrode inserts of the plasmatron is not ensured, which causes them to burn out prematurely; - control over the temperature and overheating of the plasmatron electrodes is not provided.

The basis of the invention is the task of improving the device for controlling an electric arc installation, in which, due to the introduction of new elements and nodes into the control scheme, a reduction in the current and voltage pulsation amplitude, control of the reliability of the electrical strength of the interelectrode gaps, control of the temperature of the plasmatron electrodes and control of their wear, and due to this, reliable starting of the arc discharge, expansion of the range of stable operation of the plasmatron and improvement of the reliability of the entire "I system as a whole are ensured.

З The task is solved by the fact that in the device for controlling the electric arc installation, which contains a plasmatron, a source of plasma-forming gas, a control unit for the start-up mode and excitation of the arc discharge, containing a high-frequency step-up transformer, a semi-controlled three-phase diode-thyristor rectifier connected to the cathode and anode plasmatron, in each phase of which an additional diode, a resistor connected in parallel with the thyristor and a circuit breaker are introduced, according to the invention, in the Z 70 semi-controlled three-phase diode-thyristor rectifier in series with the thyristor, on the anode side, a resistor is connected, and a high-frequency transformer is made from several separate closed ones

Of" magnetic conductors, the primary windings of which are connected in series, and the secondary winding covers all magnetic conductors and is connected in series to the cathode network, and devices for controlling the temperature of the cooling water in the plasmatron electrodes, for example, thermocouples, are introduced into the start-up control unit and arc discharge excitation comparison units, devices for controlling the electrical strength of the intermediate electrode inserts of 7 plasmatrons, each of which includes a high-frequency transformer, the primary winding of which is connected to the "IZ" electrodes through a capacitor, and the secondary winding is connected to the comparison units, a device for monitoring electrode wear, in the form of tubular electrode placed in the cavity of the cathode of the plasmatron with the possibility of longitudinal movement, isolated from the end swirler of the cathode and connected to an additional "Iz" 20 regulating voltage source of negative or positive polarity, connected to the comparison unit, and also - through the flow regulator connected to plasma sources about gas, while the control winding of the circuit breaker tm of the current network is connected through the serially connected contacts of the comparison units.

The introduction of an additional resistor in the three-phase semi-controlled diode-thyristor rectifier in series with the thyristor ensures reliable operation of the rectifier, which makes it possible to expand the range of stable operation of the plasmatron, increase the reliability of its start-up and stable burning of the arc discharge in the range

HF) changes in the operating current due to a decrease in the amplitude of current and voltage pulsations.

Due to the introduction of a device for controlling the electrical strength of the inter-electrode inserts of the plasmatron, constant control of the reliability of the electrical strength of the inter-electrode inserts is ensured, the possibility of maintaining the parameters of the plasma flow over time, and eliminating the possibility of electrode burnout. 60 Introduction to the scheme of the device for controlling the temperature of the cooling water in the plasmatron electrodes, provides control over the temperature and overheating of the electrodes.

The installation is also equipped with an electrode wear control device that ensures reliability and stable burning of the arc discharge, and when the electrode wear exceeds a critical value, the plasmatron is automatically turned off. because in case of any deviation from the set mode in the above devices, the automatic switch-off is triggered,

which prevents the occurrence of emergency situations.

The essence of the proposed invention is explained by the drawing, which shows the scheme of the device for controlling the electric arc installation, which includes a semi-controlled three-phase diode-thyristor rectifier 1, which is connected to a power transformer (not shown in the drawing). Rectifier 1 includes a three-phase diode bridge assembled on diodes 2 and additional diodes 3. Thyristors 4 are connected in series with diodes 3, in the anode power supply network of the electric arc installation, in each phase, with which resistors 5 are connected in series.

In parallel with thyristors 4, shunt resistors 6 are connected to each phase. A circuit breaker 7 is installed in the cathodic network of the installation. The high-frequency transformer 8 is made of several separate /o closed magnetic conductors, the primary windings of which are connected in series, and the secondary winding covers all magnetic conductors and is connected in series to cathode 9 of the plasmatron. Capacitor 10 protects rectifier 1 from high-frequency jets. A limiting resistor 13 with a switch 14 is included in the network between the anode 11 and the intermediate electrode 12. In the cooling channels of the electrodes 9, 11 and 12 of the plasmatron, there are devices for controlling the temperature of the cooling water 15, for example, thermocouples connected to the comparison units 16. Between /5 electrodes 9-12 and 11-12 contain devices for controlling the electrical strength of the intermediate electrode inserts, each of which includes a high-frequency transformer, the primary winding 17 of which is connected to the electrodes through the capacitor 18 and the disconnector 19, and the secondary winding is connected to the comparison unit 20. In the cavity of the cathode of the plasmatron, there is an electrode wear control device in the form of a tubular electrode 21, which is installed with the possibility of longitudinal movement and is isolated relative to the end swirler 22 of the cathode 9. The electrode 20.21 is connected to an auxiliary adjustable voltage source 23 of negative or positive polarity and a comparison unit 24, and also - through the flow controller 25, the plasma generator is connected to the source of gas 26. The control winding 27 of the circuit breaker 7 is connected through the serially connected contacts of the comparison units 16, 20 and 24.

The device works like this. high school

The alternating voltage is supplied to the semi-controlled three-phase diode-thyristor rectifier 1. The voltage regulator (not shown in the drawing) sets the closing angle of thyristors 4, which is equal to 1802 (thyristors 4 and) are closed). Cooling water and plasma-forming gas are supplied to the plasmatron and circuit breaker 7 is turned on. The rectified voltage is supplied to the plasmatron and, at the same time, supplied to the terminals of the start-up control unit and the excitation of the arc discharge. When the current passes through the system of a thyristor and two resistors,

From the scheme, it practically represents a voltage divider and, when adding up the voltage from all phases, the amplitude of the pulsation of the resulting operating current decreases. The current of the control winding 27 of the circuit breaker 7 passes through the serially connected contacts of the comparison units: the device for controlling the temperature of the cooling water 16, the device for controlling the electrical strength of the interelectrode gaps 20 and the device for monitoring the wear of the electrode 24. During operation, if there is a deviation from the specified mode in the above-mentioned devices, winding -

The control 27 of the switch 7 activates and disconnects the power supply from the plasmatron. uh-

With the same dimensions of the plasmatron and the voltage source, an increase in the operating current from 200-220 A to 500-600 A and the operating voltage from 600 V to 1200 V is ensured, which made it possible to increase the power of the plasmatron from 150...200 kW to 600... 700 kW.

Currently, the documentation for the prototype has been developed, tests have been carried out, which gave "positive results." 8 p

From"

Claims (1)

Formulation of the invention Device for controlling an electric arc installation, which contains a plasmatron, a source of plasma-forming gas -I and a unit for controlling the start-up mode and excitation of the arc discharge, which contains a high-frequency step-up transformer, a semi-controlled three-phase diode-thyristor rectifier connected to the cathode and anode of the plasmatron, in each phase of which an additional diode, a resistor and a circuit breaker connected in parallel with the thyristor are introduced, which differs in that in a semi-controlled three-phase diode-thyristor rectifier, a resistor is connected in series with the thyristor on the anode side, and the high-frequency transformer is made of several separate closed magnetic wires, the primary windings of which are connected in series, and the secondary winding covers all the magnetic wires and is connected in series to the cathode network, and devices for controlling the temperature of the cooling water in the plasmatron electrodes, such as a thermocouple, are introduced into the start-up control unit and arc discharge excitation and, with comparison units and 5B devices for controlling the electrical strength of interelectrode inserts of the plasmatron, each of which contains a high-frequency transformer, the primary winding of which is connected to the electrodes through a capacitor, and (F. secondary - connected to the comparison units, and a device for monitoring electrode wear in the form of a tubular co-electrode, which is placed in the cavity of the plasmatron cathode with the possibility of longitudinal movement, isolated from the end swirler of the cathode, connected to an additional regulating source of negative or positive voltage polarity and is connected to the comparison unit, and is also connected to the source of plasma-forming gas through the flow regulator, while the control winding of the circuit breaker is connected to the series-on contacts of the comparison units. b5