SU1602643A1 - Welding power supply source - Google Patents

Abstract

This invention relates to welding, in particular to alternating current sources for aluminum arc welding. The purpose of the invention is to reduce weight and size indicators and increase efficiency. The welding source contains a high-voltage rectifier, an inverter, two low-voltage rectifiers, a coil with two windings, two capacitors, two switching devices and a control unit. The mains voltage is converted by a high-voltage rectifier into a direct current input to the inverter. The current in the secondary winding of the inverter's output transformer is converted by low voltage rectifiers into a constant welding current. When the current is switched from one low-voltage rectifier to another, the direction of the current in the load is reversed. The power supply provides an output current with independent direct and reverse polarity durations, which expands its technological capabilities. 1 hp f-ly, 3 ill.

Description

The invention relates to welding - namely, alternating current sources for arc welding of aluminum,

The aim of the invention is to reduce weight and size and increase efficiency, -

FIG. 2 is a diagram of a welding power source with a separate power supply to switching devices; , 2 - curves of currents and voltages; at fIgoZ - a welding source with a supply of switching devices from additional windings of a transformer of a power source ..

Welding power source (fig, l) contains high-voltage rectifier

 which is connected to a three-phase network, and the output is connected to an inverter 2, which can be performed on transistors or thyristors, the output circuit of which connects the primary winding of the transformer 3 to the secondary winding of which the rectifier 4 is poured; with output terminals 6 o An additional rectifier 7 is also connected to the secondary winding of the transformer 3, the polarity of which is opposite to the polarity of rectifier 4, the output of the rectifier muttel 7 through the additional winding of the drossel 5 soy yn is the output

five

terminals 6, switching devices 8 and 9 are connected to the outputs of rectifiers 4 and 7, and parallel to the secondary semi-windings of transformer 3 are capacitors 10, 11, control unit 12, switches key elements.

The device works in the following way.

The voltage of the three-phase industrial .JQ network is converted by the rectifier 1 into the direct current supplied to the inverter 2, to the control inputs of the thyristors of the inverter 2 comes from the control unit 12 push-pull speed, 5 pulses, due to which the high-frequency switching occurs in the inverter and primary the current of the load in the load is reversed to the winding of the transformer 3, and the switching time due to the appropriate switching on of the windings of the chokes 5 and the high frequency of the inverter current is small (1-1.5 times the current frequency), which ensures reliable re-ignition of the arc. The duration of the flow of the Lp and reverse currents in the load are independent of each other. Switching the output current from reverse polarity to the direct occurs similarly: control unit 12 removes the control current from the thyristors 7 and sends to the thyristors of the rectifier 4, the control impulse is simultaneously fed to the output thyristor of the switching device 9 and to the input

soky frequency (5-20 kHz), Current in the second 20th thyristor of the device 8 switching.

The transformer 3 winding is transformed by rectifier 4 into a constant one, which is smoothed by the corresponding winding of the throttle 5 and fed through output terminals 6 to the welding terminal-25 tu. With a frequency from units to hundreds of Hz, which is determined by technological requirements, the control unit transmits the control current of the thyristors of the rectifier 4 to the thyristor JQy of the additional rectifier 7, to the output thyristor of the switching device 8. connected to rectifier thyristors 4, control impulse (moment of time t, on) due to which the capacitor of this switching device recharges through rectifier thyristors 4 to current flowing through them and capacitors 10, 11, respectively, as well as c Circuit: Drossel winding 5 — the source output circuit of the thyristor of the rectifier 4 is switched off, since the parameters of the elements of the switching device 8, the dross villages 5 and the capacitors 10, 11 are selected taking into account ensuring the recovery time of the thyristors of the rectifiers 4 and 7 In addition, simultaneously with switching on the output thyristor of the switching device 8, the input thyristor of the switching device 9 is also given a control pulse from block 12 and prepares device 9 for further work (using the push-pull switching devices). In this case, the current is switched from rectifier 4 to rectifier 7, the direction

40

50

The current is switched from the rectifier 7 to the rectifier 4, the direction of the current in the load of the welding power source changes, and the switching device 8 is prepared for further work.

Fig. 3 shows a welding power source which, in addition to the source shown in Fig. 1, contains additional windings 13, 14 for transformer 3j to which the pulses 15, 16 and filters 17, 18 are connected, to which the power inputs are connected. Devices 8 and 9 switching. The operation of this source differs from the operation of the source shown in FIG. 1, in that the supply voltage of the switching devices 8, 9 is proportional to the output power of the source, due to which the source efficiency when operating in small output currents is turned off, the output current of the source in FIG. , 1 in this mode is depicted in the Ig diagram on FIG2. Current surges at the moment of polarity switching are explained by the fact that the power of switching devices 8, 9 in this source is calculated on the maximum output current, therefore at low currents this power is It is unnecessary. The source shown in is deprived of this disadvantage (see l in Fig. 2), since the power of switching devices is supplied from the same transformer as the power supply of the output rectifiers of the source. In addition, the weight and size parameters of this source are improved compared to option

the current in the load is reversed, and the switching time due to the corresponding switching on of the windings of the throttles 5 and the high frequency of the inverter current is short (1-1.5 periods of high frequency current), which ensures reliable re-ignition of the arc. The duration of the flow of the Lp and reverse currents in the load are independent of each other. Switching the output current from reverse polarity to the direct occurs in a similar way: control unit 12 removes the control current from the thyristors 7 and supplies the rectifier 4 to the thyristors. A control pulse is simultaneously applied to the output thyristor of the switching device 9 and to the switching device 8 thyristor.

0 th thyristor device 8 switching.

5 Q with -

0

0

The current is switched from the rectifier 7 to the rectifier 4, the direction of the current in the load of the welding power source changes, and the switching device 8 is prepared for further work.

Fig. 3 shows a welding power source which, in addition to the source shown in Fig. 1, contains additional windings 13, 14 for transformer 3j to which the pulses 15, 16 and filters 17, 18 are connected, to which the power inputs are connected. Devices 8 and 9 switching. The operation of this source differs from the operation of the source shown in FIG. 1, in that the supply voltage of the switching devices 8, 9 is proportional to the output power of the source, due to which the source efficiency when operating in small output currents is turned off, the output current of the source in FIG. , 1 in this mode is depicted in the Ig diagram on FIG2. Current surges at the moment of polarity switching are explained by the fact that the power of switching devices 8, 9 in this source is calculated on the maximum output current, therefore at low currents this power is It is unnecessary. The source shown in is deprived of this disadvantage (see l in Fig. 2), since the power of switching devices is supplied from the same transformer as the power supply of the output rectifiers of the source. In addition, the weight and size parameters of this source are improved compared to option

power supply of switching devices from a network power supply unit

Compared to the basic prototype object, the proposed power source provides an output current with independent forward and reverse polarity, with steep leading edges, the efficiency of this source is higher, since there is no other energy conversion stage, and The source does not exceed 1% of the output power, since these devices operate at a very low frequency compared to the frequency of the inverter. For the same reason, they have small overall dimensions. Two outputs Rectifiers have better weight and size parameters compared to an output rectifier and an inverter of a known prototype device, since they work alternately and in the sum is the same current THAT and one rectifier in the source prototype

Claims (1)

Invention Formula 1602643 a transformer, the secondary half windings of which are connected to the first low voltage rectifier, the output of which is connected to the output terminals of the power source through the winding of the throttle, the control unit differs from the fact that, in order to reduce the weight and size parameters and 10 efficiency increases, the source is supplied with an additional winding of the throttles, two switching devices, two codensators and a second low-voltage one .-: a rectifier that is connected to the secondary winding of the transformer opposite to the polarity of the first low-voltage rectifier, and its output is connected to the output terminals of the source through the additional winding of the choke, which is connected to the coagulator. but with the winding of the choke, the switching devices are connected to the output of each of the low-voltage rectifiers, and parallel to each of the secondary 25 half-windings of the transformer are included: capacitors 2 Power source from 20 I with the fact that the transformer is equipped with two additional welding power sources, 30 winding windings to which are connected diode rectifiers with smoothing filters, to the output of which the power inputs of the KOtviMi devices are connected holding a high-voltage rectifier connected to the three-phase network, to which the inverter is connected, to the output of which the primary winding is connected1602643 transformer, the secondary semi-windings of which are connected to the first low-voltage rectifier, the output of which is connected to the output terminals of the power source through the winding of the throttles, the control unit, which differs in order to reduce the weight and size indicators and 0 efficiency, the source is supplied with an additional winding of the choke, two switching devices, two co-distributors and the second low-voltage one .-: a rectifier that is connected to the secondary of the first winding of the transformer. low-voltage rectifier, and its output is connected to the output terminals of the source through an additional winding of chokes, which is connected to the winding of the chokes, switching devices are connected to the output of each of the low-voltage rectifiers, and parallel to each of the secondary 5 half-windings of the transformer are included: capacitors 2 Power source from 0 FIG. one