SU1418011A1 - Power supply source having thyristor transducer - Google Patents

Abstract

The invention relates to welding technology and can be used as a power source for electric arc welding. The goal is to improve the quality of the welded joint by increasing the stability of the excitation and arc burning. A high-voltage converter, the output of which is connected to the interelectrode gap, and a control signal driver and a resistance discriminator are connected to the power source consisting of a thyristor converter and a control system for it. At certain values of the arc gap resistance, at the beginning of the thyristor conductivity interval, a high-voltage pulse voltage is applied to the interelectrode gap. 1 il. you ate with

Description

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The invention relates to welding technology, more specifically to power sources for electric arc welding.

The aim of the invention is to improve the quality of the welded joint by increasing the stability of the excitation and burning of the arc.

The drawing shows a functional block diagram of a welding power source.

The power source consists of a thyristor converter (TP) 1, blocks 2 and 3 for measuring current and welding voltage for a part of their pulsation period, block 4 for converting current and welding voltage information into load resistance information, block 5 for functional information conversion on the load resistance in the information on the magnitude of the time interval of the conduction of the thyristors, the executive unit 6 and the synchronization unit 7, the sensors 8 and 9 of the welding current and welding voltage, the resistance discriminator 10, the former 11 pack equalizing signal and high voltage converter 12,

Input TP 1 is connected to the source

energy, and the output to the interelectrode

the gap. Blocks 2 and 3 of current and voltage measurement are connected by information inputs to the outputs of sensors 8 and 9 of current and welding voltage, respectively, and outputs to inputs of block 5 that convert current and voltage information into load resistance information, koTopo output It is connected to the input of the functional conversion unit 5. The output of the last 40 is connected to the input of the execution unit 6, which is connected by outputs to the control inputs of TS 1. The synchronization unit 7 is connected to the input

the input of TP 1 and the outputs to the synchronization inputs of blocks 2 and 3 of current measurement, welding voltage and conversion unit 4. Current sensor 8 is connected in series to the welding circuit, and voltage sensor 9. is connected in parallel to the interelectrode gap. High-voltage Converter 12 output is connected to the interelectrode gap. The inputs of the driver 11 of the control signal are connected to the output of the execution unit 6 and the output of the resistance discriminator 10. The input of the discriminator 10 resistance is connected with the flow block 5

0

5 0 5 0

5 0 converting and 1forming current and voltage welding to information about the load resistance, and the control input of the high voltage converter 12 is connected to the output of the control signal forming device 1. Protection of TP 1 and control system devices from the effects of the output voltage of high voltage converter 12 is carried out with the introduction of filters and limiters, respectively. Resistance discriminator 10 is a set of threshold elements based on comparators that ensure input information is within a certain range.

The driver 11 of the control signal can be built according to well-known schemes and recommendations, for example, on the basis of a waiting one-shot or multivibrator with an And input element and an output power amplifier.

High voltage converter 12 may be implemented on the basis of any controlled converter with appropriate characteristics.

The power source works as follows.

The beginning of the next cycle of operation of the power source and the end of the preceding cycle are determined by the arrival of an impulse.

on blocks 2 and 3

measure- ment and block 4 preimpulse Reset incoming sync 7. From to

At the beginning of the next cycle, the current of the welding current and the voltage of the block and 2 and 3 of the current and voltage, respectively, continue until the pulse of the information signal arrives from the synchronization block 7. With this signal, information from the current and voltage measurement blocks 2 and 3 is transmitted to conversion unit 4, where its conversion to load resistance information begins at the same time. The conversion ends at the end of the current power supply cycle, i.e. the arrival of a pulse reset. Information about the load resistance from the output of the conversion unit 4 is continuously fed to the input of the functional transformation block 5 "Bla3"

at the end of the Tecup, at its output and at the input of the execution unit 6; its tact of operation is information about the magnitude of the next time interval of the conduction of thyristors in accordance with the functional dependence f (R |). AT. . According to this information, the executive unit 6 determines the moment of supplying the control signal to the TP 1. In addition, information on the load resistance from the output of the conversion unit 4 is simultaneously input to the resistance discriminator 10 S by means of which it is fixed in the current clock of the TP 1 violation of stability arc discharge, or its absence in the presence of contact between the electrode and the product according to the magnitude of the resistance of the interelectrode gap. The resistance of the interelectrode gap in these cases is in a certain range from units to hundreds of ohms. If the violation is detected, a permitting signal is sent from the output of the discriminator 10 to the formation of the control signal by the high-voltage converter 12 by the shaper 11. pulsed voltage for the initial and re-excitation of the arc discharge in order to stabilize it is applied to the electrode gap for certain Achen x nagchale its resistance to the conduction interval of the thyristors each cycle of operation of the power supply, i.e., High-voltage converter 12 does not work with a stable arc, with a short circuit and in idle mode.

180114

Claims (1)

Invention Formula A power source with a thyristor converter containing a thyristor converter, an input connected to an energy source, and an output to a welding circuit, a welding current sensor connected in series to the welding circuit, a sensor 10 welding voltage, connected to the welding circuit parallel to the interelectrode gap, welding current measurement unit, input connected to the welding current sensor output, unit 15 measurement of the welding voltage, the input connected to the output of the welding voltage sensor, the executive unit, the output connected to the control input of the thyristor converter, 20 current and voltage welding information conversion unit into load resistance information, functional load resistance information conversion unit into information about the magnitude of time interval 1 thyristor conductivity and synchronization unit, characterized in that, in order to improve the quality of the welded joint by increasing the stability of the excitation and burning of the arc, a high-voltage converter, the output of which is connected to the interelectrode gap, is introduced into the source, the resistance discriminator and tors, the control signal, one input of a control signal output coupled to the execution unit, and the other input soedsh € ene yield the resistance discriminator, the resistance discriminator input is connected to the output of the current and voltage information conversion unit to load resistance information, and the third input of the high voltage converter is connected to the output of the control signaling device