RU2154559C1 - Method for stabilizing electric arc process and apparatus for performing the same - Google Patents

Abstract

FIELD: methods and equipment providing ignition of arc and its stable burning. SUBSTANCE: method comprises steps of applying to arc gap voltage corresponding to voltage of arc burning and adding to it voltage value corresponding to voltage of ignition and stable burning of arc; setting arc burning voltage in dependance upon selected mode of welding and without dependance upon demanded electric current; setting booster voltage depending upon electric current. Apparatus includes bridge-type single-phase rectifier 2,3,4,5 whose input is connected with common terminal of initial alternative current source 1 and with its one outlet and whose outlet is connected with arc gap. First leading wires of two capacitors 7,8 are connected to common terminal, their second leading wires are connected respectively with outlet of bridge type rectifier. Common terminal of capacitors 7,8 is connected with second outlet terminal of source 1 through electric current regulator 9. EFFECT: enhanced stability of electric welding process, reduced electric power consumption due to optimization of ignition process and stabilizing arc burning process. 5 cl, 3 dwg

Description

 The invention relates to techniques using electric arc processes, and in particular to methods and devices that provide ignition and stable burning of the arc.

 A known source of power for the welding arc (AS USSR N 1076227 B 23 K 9/00, publ. BI N 8 1984), containing a bridge rectifier, the input of which is connected to the secondary winding of the power transformer, and the output to the output of the power source In this case, a two-board switch and two capacitor banks are introduced into it, the first conclusions of which are connected to one of the ends of the secondary winding of the transformer, and the second conclusions through a two-board switch are connected respectively to the output of the rectifier.

 The method implemented in this device includes applying two voltages to the electrode, one of which is supplied from the diode bridge to ensure arc burning, and the other is supplied from the voltage multiplier to ensure stable ignition of the arc.

 The method of stabilization of the electric arc process, implemented in this device, sets the heavy duty mode of the capacitors, in which the charging current is unlimited, and, as a result, pulse overloads in the network, an increase in power consumption, arise from this. The disadvantages of this design of the power source are unsatisfactory weight and size characteristics due to the presence of a bulky capacitor bank.

 A known method of regulating the voltage during electric arc welding (USSR patent N1790475, B 23 K 9/06, publ. BI N3 1993), which consists in supplying the initial voltage, increasing the initial voltage to the value of the ignition voltage of the arc and reducing the voltage to the value of the stable burning of the arc while the magnitude of the initial voltage is chosen equal to the burning voltage.

 The disadvantage of this method of voltage regulation is the dependence of the ignition voltage on the initial voltage, for example, to reduce the welding current, it is necessary to reduce the initial voltage, while the ignition voltage will decrease, which will adversely affect the arc excitation process, to increase the welding current, it is necessary to increase the initial voltage, while increasing ignition voltage up to a value exceeding the optimal value, which leads to an increase in energy consumption, since Shih welding currents stability of ignition and arc itself is increased, and there is no need to increase the ignition voltage.

 A known power source for welding ferrous and non-ferrous metals ("Welding in mechanical engineering", T. 4, M., Mechanical engineering, 1979, S. 85-88), in which there are two rectifiers: one - the main one with a rigid external characteristic, designed to power the arc with a steady welding process, the other is auxiliary with an increased open circuit voltage and steeply falling external characteristic, designed to excite the arc at the initial moment of welding.

 The method implemented in this device consists in applying two voltages to the electrode, one from the main converter providing arc burning, and the other from the auxiliary converter providing ignition voltage.

 The disadvantage of this method is the increased energy consumption and low efficiency of the device that implements this method.

 The disadvantage of this power source is the presence of two independent rectifiers, which complicates the design of the power source, worsens the overall dimensions and cost.

 The problem solved by the inventions is to reduce energy consumption and simplify the design of the power source, reduce costs.

 The problem is solved due to the fact that the stabilization of the electric arc process is carried out by supplying two initial alternating voltages from a power source, converting them into constant and supplying converted voltages to the arc gap, while the converted voltages are added before being fed to the arc gap, whereby the first initial voltage chosen so that after the conversion it was equal to the voltage of stable burning of the arc, depending on the selected mode of the electric arc process and independent of the consumption current and the second reference voltage is selected such that after transformation, it was equal to the voltage stability of ignition and arc, which depends on the consumption current and independent of the selected mode arc process.

 In addition, the dependence of the second converted voltage on the current consumption is set variable.

 A device for stabilizing the electric arc process includes at least one source of initial alternating voltages with two outputs and at least one common point, at least one current regulator and at least a single-phase bridge rectifier, the input of which is connected to one of the outputs of the source of the initial alternating voltage, and the output to the arc gap, and at least two capacitors, and the source of the initial alternating voltages is made with at least one common point to which the input is connected single-phase bridge rectifier, the first terminals of the capacitors are combined in a common point which is connected to the second output power source AC voltage through a corresponding current regulator, and the second terminals of the capacitors are connected to the output of the bridge rectifier.

 In addition, the source of alternating voltages is made in the form of a transformer with sectioned windings.

 In addition, the current controller is made in the form of a choke and / or triac connected in series or in parallel.

 The invention is illustrated by drawings, where Fig. 1 shows a schematic diagram of a device for single-phase switching, Fig. 2 is a diagram of the output characteristics of a device that implements a method, and Fig. 3 is a schematic diagram of a device for a three-phase switching.

 The method of stabilization of the electric arc process can be implemented as follows.

,
где U_заж - напряжение устойчивого зажигания дуги.Two source voltages are taken from the source of alternating voltages, the value of one of which is selected based on the selected welding mode, the value of the other is selected by the formula

,
where U _zh - voltage steady ignition of the arc.

 The first voltage is applied to the input of the bridge rectifier, and then the rectified voltage is supplied to the arc gap.

также на дуговой промежуток. При установившемся процессе горения дуги величина выходного напряжения определяется напряжением мостового выпрямителя. Таким образом, устройство, реализующее заявляемый способ, имеет крутопадающую внешнюю характеристику при холостом ходе и в момент зажигания дуги и пологопадающую при горении.The second voltage is supplied through the inductor to the common point of the capacitors, and then in idle mode increased by

also on the arc gap. With the steady-state process of arc burning, the value of the output voltage is determined by the voltage of the bridge rectifier. Thus, a device that implements the inventive method has a steeply dipping external characteristic at idle and at the moment of ignition of the arc and sloping when burning.

 This form of external characteristic provides stable arc excitation, stable arc burning regardless of the type of electrodes used, welder qualifications, low spatter of electrode metal, and energy saving.

 The slope of the external characteristic in the steeply falling section can be changed depending on the selected mode of the electric arc process.

 A device that implements the inventive method for single-phase switching includes a source of two alternating voltages - a power transformer 1 (Fig. 1) with a partitioned secondary winding, a bridge rectifier on diodes 2, 3, 4 and 5, the input of which is connected to the secondary winding of the power transformer 1 so so that it is possible to change the voltage at the input of the bridge rectifier by switching sections of the secondary winding, the output of the diode bridge is connected through the current regulator 6 to the arc gap, capacitors 7 and 8 are connected through edovatelno, wherein the common point capacitor is connected across the throttle 9 to one of the sections of the secondary winding of the power transformer 1.

 The current controller can be made in the form of a choke and / or triac. The choke and triac can be connected in series or in parallel.

чем обеспечиваются условия оптимального зажигания дуги. В режиме холостого хода диоды 3, 5 закрыты и устройство работает в режиме параллельного удвоителя напряжения.The device operates as follows. An alternating voltage U _g is supplied to the input of the bridge rectifier from sections of the secondary winding of the power transformer 1, the value of which is selected based on the selected mode of the electric arc process, for example, welding. At the same time, the voltage U _zh from the same transformer is supplied to the common point of the capacitors 7, 8 through the inductor 9, the value of which in idle mode leads to the total charge of the capacitors 7, 8 to the voltage

what provides the conditions for optimal ignition of the arc. In idle mode, diodes 3, 5 are closed and the device operates in parallel voltage doubler mode.

 The charge of capacitors 7, 8 in idle mode occurs through the inductor 9, which ensures the absence of a reactive component when charging them. When the electrode touches the part, the capacitors 7, 8 are discharged through the arc gap, opening the diodes 3, 5, thereby providing a transition to the mode of a half-wave bridge rectifier with a voltage, the value of which decreased by half and became equal to the voltage of stable arc burning.

 The device for three-phase switching contains alternating voltage sources - secondary windings of a three-phase transformer 10, a three-phase bridge rectifier on diodes 11, 12, 13, 14, 15 and 16, the input of which is connected to the tap of the corresponding secondary winding of the power transformer, and the output to the output of the power source , six capacitors 17, 18, 19, 20, 21, and 22, the first conclusions of which are pairwise combined into common points, the second conclusions are connected to the output of the device, current regulators 24, 25, and 26, connected with their single output to common points of the condensate orov 17 and 20, 18 and 21, 19 and 22, respectively, and others to the taps of the secondary winding of the transformer 10.

 The device operates as follows. A three-phase voltage is supplied to the input of the bridge rectifier from the sections of the secondary winding of the power transformer 10, the value of which is selected based on the selected mode of the electric arc process, for example, welding. At the same time, the common points of the capacitors 17 and 20, 18 and 21, 19 and 22 through the current regulators 24, 25 and 26 are supplied with the ignition voltage from the same transformer, the value of which in idle mode leads to the total charge of the capacitors 17-22, which ensures the conditions optimal ignition of the arc.

 Thus, the implementation of the method allows to increase the stability of the electric welding process, reduce energy losses due to the optimization of the ignition process and stabilization of the arc burning process.

Claims (5)

 1. The method of stabilization of the electric arc process, which consists in supplying two initial alternating voltages from a power source, converting them to constant and supplying converted voltages to the arc gap, characterized in that the converted voltages are folded before being fed to the arc gap, the first initial voltage being selected such that after conversion it is equal to the voltage of stable burning of the arc, depending on the selected mode of the electric arc process and independent of the current consumption power, and the second initial voltage is chosen so that after conversion it is equal to the voltage of stable ignition and arc burning, depending on the current consumption and independent of the selected mode of the electric arc process.  2. The method according to claim 1, characterized in that the dependence of the second converted voltage on the current consumption is set variable.  3. Device for stabilizing the electric arc process, comprising at least one source of initial alternating voltages with two outputs and at least one common point, at least one current regulator and at least a single-phase bridge rectifier, input which is connected to one of the outputs of the source of the initial alternating voltage, and the output to the arc gap, characterized in that it is equipped with at least two capacitors, the source of the initial alternating voltages is made with at least one common point, which is connected to the input of a single-phase bridge rectifier, the first terminals of the capacitors are combined in a common point which is connected to the second output power source AC voltage through a corresponding current regulator, and the second terminals of the capacitors are connected to the output of the bridge rectifier.  4. The device according to claim 3, characterized in that the source of the initial two alternating voltages is made in the form of a power transformer with a partitioned secondary winding.  5. The device according to claim 3 or 4, characterized in that the current regulator is made in the form of a choke and / or triac.

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