SU1657312A1 - Mechanized welding rectifier - Google Patents

Abstract

The invention relates to welding, in particular, to power sources (rectifiers) of a welding arc in mechanized welding with a melting electrode in protective gas. The purpose of the invention is to improve the quality of the welded joint by improving the arc stability when powering the rectifier from a single-phase network. The rectifier contains a single-phase transformer with primary and two main secondary windings. An additional choke with two windings and two diodes are introduced into the rectifier. The transformer is equipped with two additional secondary windings. The welding current in the load is composed of the currents of the two circuits — the first main circuit smoothed by a controlled current choke and limited by an additional current choke of the second additional loop. This allows to ensure a stable welding process due to the drop transfer of metal and continuity of the welding current in single-phase sources. 1 hp ff, 1 ill., 2 tab. with C

Description

The invention relates to electric arc welding and can be used to create welding rectifiers, preferably with single-phase power supply, for mechanized welding with a melting electrode in shielding gases with periodic short-circuits of the arc gap.

The purpose of the invention is to improve the quality of the welded joint by improving the stability of the welding process.

The drawing shows a schematic diagram of a single-phase welding rectifier.

The rectifier contains a transformer 1 having a partitioned primary

winding 2, primary 3 and 4, and additional 5 and 6 secondary windings. The main secondary windings through the main diodes 7 and 8 and the main winding 9 controlled (nonlinear) throttle 10 are connected to the terminals 11 and 12 of the welding circuit.

Auxiliary windings 13 and 14 throttles 10 through diodes 15 and 16 are also connected to the terminals of the welding circuit. Additional secondary windings 5 (6) of the transformer 1 are connected in series with the main secondary windings 3 (4). The free ends of the additional windings through the diodes 17 and 18 and the windings 19 and 20 of additional throttle 21 are connected to the positive terminal 11 of the welding

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chains. The zero point 22 of the secondary winding is connected to the clamp 12 of the welding circuit.

One clamp 23 of the original network is connected directly to the beginning of the primary winding. The second terminal 24 of the primary winding is connected via a switch system (toggle switches 25-27) to one of the taps 28-30 or to the end 31 of the primary winding.

The rectifier works as follows.

When voltage -W1 is applied to terminals 23 and 24, this voltage is applied to the primary winding 2 of transformer 1, regardless of the position of the switches (toggle switch) 25-27, to the beginning of the winding and, depending on the position of the switches (toggle switches) to one of the taps 28 - 30 or at the end of the winding 31.

Table 1 (closure table) shows the positions of the switches at different voltage levels.

The switch closure table (Table 1) corresponds to four steps of adjusting the output voltage V, the + sign indicates the upper position of the rocker switch, and the sign - - its lower position. The secondary voltage is applied to terminals 11 and 12 from two parallel circuits. The first circuit: transformer windings 3 and 4, diodes 7 and 8, winding 9 drossel 10, neutral wire (wire between terminal 12 and zero point 22 of the secondary windings of the transformer). The second circuit: the transformer windings 3 + 5 and 4 + 6, diodes 17 and 18, windings 19 and 20 of the choke 21 and the same neutral wire. When the welding load is connected to the clamps 11 and 12, the welding current passes through it, consisting of the currents of the two circuits: the current of the first main circuit smoothed by the choke 10 and the current of the second additional loop limited by the choke 21. The primary circuit current depends on the arc mode, with drip short circuits, due to the presence of auxiliary windings 13 and 14 connected through diodes 15 and 16 to terminals 11 and 12, the inductance of the choke 10 decreases and peaks of the welding current are formed, which facilitate the transfer of a drop of electrode metal. The secondary circuit current, limited by the choke 21, is almost independent of the arc mode and serves to fill the dips in the ripple of the main current, since due to the presence of the throttles 21 there is a phase shift between the current pulsations in both circuits.

The use of the proposed rectifier will make it possible to create simple and reliable current sources for mechanized welding in gases with single-phase power supply, as well as for repair and domestic purposes. The use of the proposed tap switching circuit will ensure simple and reliable regulation of the secondary voltage of the source using r switches (toggle switches) (n + 1) - a voltage regulation step is provided, and any position of any toggle switch excludes the appearance of short-circuited coils of the primary winding.

The proposed rectifier was tested on a single-phase rectifier model.

current 100 A.

Comparative data of the layout of the proposed and well-known rectifiers are given in Table 2.

The proposed straightener (weighing 30

kg) will replace the well-known rectifier (weighing 220 kg) when welding thin-sheet products, which will save material resources and increase productivity by increasing equipment mobility

Claims (2)

1. A generator for mechanized welding with a melting electrode in shielding gases containing a single-phase transformer with a derived zero point of the secondary windings, a rectifying unit and a controlled smoothing choke included in the welding circuit, characterized in that. In order to improve the quality of the welded joint by improving the stability of the welding process, it is equipped with an additional double-winding choke and two diodes, and the transformer is equipped with two additional secondary windings, while the additional windings are connected to the P9 sequentially with the main secondary windings, and their free ends through the diodes and the windings of the additional droplet are connected to the positive terminal of the rectifier. 2. The expander of pop. 1, characterized in that it is equipped with rocker switches, and the primary winding of the transformer is partitioned, while the first and second taps of the primary winding are connected to the fixed contacts of the first switch, and the switch is (n + 1) -th tap and any previous tap (1 - n) of the primary winding, connected to this switch via change-over contacts of the previous switches. Table 1 tn table 2