RU1815060C - Welding arrangement - Google Patents

Abstract

The invention relates to the metal industry and is intended for pulsed arc welding with consumable electrodes. SUMMARY OF THE INVENTION A high-voltage welding device comprising a single-phase welding transformer, a diode bridge rectifier, two thyristors and two chokes, introduced the third and fourth thyristors. The use of the proposed welding device will increase the flexibility of controlling the latter and its cost-effectiveness by eliminating from the Scheme a device with a complicated construction and control key with two-sided conductivity and two-sided blocking. 1 ill.

Description

The invention is intended for use in the metal industry and relates to pulsed arc welding with consumable electrodes.

The aim of the invention is to increase the flexibility of control and the efficiency of the device.

The drawing shows a circuit diagram of the power part of the device.

The welding device contains a single-phase welding transformer 1, to the output of which a bridge rectifier on diodes 2-5 is connected with an ac diagonal. A thyristor 6 anode is connected to the connecting point of the rectifier diodes 2, 3, the cathode of which is connected to the cathode of the diode 3 through a smoothing reactor 7 and at the same time is a positive terminal 12 for connecting the welding fixture of the first post 8, and to the connecting point of the diode 4 and cathode the anode of the rectifier diode 5 is connected to the anode of the thyristor 9, the cathode of which is connected through a smoothing reactor 10 to the junction point of the diodes 3. 5 and is simultaneously a positive terminal 13 for connecting devices for welding the second station 11. General the connection point of the anode of the diode 3, the anode of the thyristor 6 is connected to the anode of the thyristor (trinistor) 14, the cathode of which is connected to the connection point of the cathode of the thyristor 9 and smoothing throttle 10. The common connection point of the anodes of the thyristor 9 and diode 5 is connected to the anode of the thyristor (trinistor) 15, the cathode of which is connected to the junction point of the cathode of the thyristor 6 and the smoothing throttle 7.

The device can operate in two modes, i.e. work simultaneously with two or one-post welding. When the device is operating at two welding stations, the control signals of the pulsed component of the welding current are supplied from the control unit to the control electrodes of thyristors 6.9, and the control electrodes of thyristors 14.15 are switched off in this mode. The pulsed components of the welding current of each welding station flow in two independent circuits. For the first station, the pulsed current flows in a circuit: the top (according to the scheme) terminal of transformer 1, thyristor 6, the arc gap and

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product 8. diode 4 and the lower (according to the circuit) output of transformer 1, Accordingly, for the second post, the pulse current flows through the circuit: the lower terminal of transformer 1, thyristor 9, the arc gap and product 11, diode 2, and the upper output terminal transformer 1. There is a complete claim between the pulse components of the welding current in both posts (1–5 genre mutual influence, since they are powered from opposite half-meshes of the alternating mains single-phase voltage, Nastota; the pulse repetition in each welding station is equal to the frequency of the mains , ie, 50 Hz., The basic currents of both post-welding receive energy from the output winding of the transformer 1 through a bridge rectifier on diodes 2-5, i.e., smoothing the throttle

7. 10 receive an eipf-y every time a power supply is received from a si network network. In the absence of control (L1, #, and the pulse on the control electrodes of themistrists 6, 9, the base t. Ts. (The lead is current for the first part; along the circuit: the upper output is 6 a t | W of the formator 1, diode 3, inductor 7, d with

8. diode, 4Gi lower output of the output of the transfer matora; 1 HBO the second half-period basic TOtcneiSBoro post flows through the circuit: lower | output terminal of the transformer 1, diode 5, DG sirsel, 7, arc gap and product 8; diode 2 and the upper output terminal of the transformer 1, and the second post, respectively - the lower output terminal of the transformer 1, inductor 5, inductor 10, the arc gap and the product 11, diode 2 and the upper output terminal of the transformer 1. Since the base currents in pulse-arc welding Since they have a relatively small value of the total welding current, which excludes the superimposed pulsed component, it is fashionable to neglect the mutual influence between the welding stations.

If it is necessary to operate the welding device at any one of the posts 8 or 11 (for example, for a post with item 11), it is sufficient to supply the control signals of the pulsed component of the welding current not to the control electrodes of thyristors b, 9, but to the control electrodes of thyristors 9,

14. In this mode of operation of the device, the pulsed component of the welding current may have a pulse repetition frequency of currents of both 50 Hz and 100 Hz, depending

from the presence of control signals from the control unit on the control electrodes of the thyristors 9, 14. When the device operates at a single welding station, both the basic and pulsed components of the welding current are obtained using single-phase bridge rectification circuits (for basic bridge, rectifier on diodes 2-5, and for pulse components, respectively, for one post on diodes 2.4 and thyristors

b, 15 a for the second - on diodes 2, 4 and thyristors 9, 14).

The application of the proposed device will increase the flexibility of control of the latter when changing operating modes, and

will also increase its efficiency by eliminating from the device circuit a key with two-sided conductivity and two-sided blocking, on which when the device is working at one welding station

part of the electricity is not wasted productively.

Formula s A welding device containing a single-phase welding transformer, to the output of which an AC bridge is connected by an diagonal of an alternating current, to each arm of an diagonal of an alternating current of which one of two is connected by an anode

thyristors, the cathodes of which are connected through the arc gaps of the corresponding station with the common point of connection of the anodes of the diodes of the bridge rectifier, and through the corresponding smoothing chokes

- with a common point of connection of the cathode diodes of the bridge rectifier, characterized in that, in order to increase the efficiency of the device and the flexibility of controlling it, it is equipped with a third and even.

the fourth thyristor, the anode of the third thyristor connected to the anode of the first thyristor, the cathode connected to the cathode of the second thyristor, the anode of the fourth thyristor connected to the anode of the second thyristor, and the cathode connected to the cathode of the first thyristor.