SU1013170A1 - Three-phase power supply source for contact welding machines - Google Patents

Abstract

THREE-PHASE POWER SUPPLY FOR CONTACT WELDING MACHINES containing rectifier, three controlled valves with artificial switching circuits, six uncontrolled valves and a three-phase transformer, on each rod of which two primary windings and one secondary winding are placed, with. This rectifier is connected to the input terminals of the AC mains. The second terminals of the second sections of the primary windings of the transformer are interconnected and connected to the negative terminal of the rectifier, the first terminals of the secondary windings of the transformer are connected to the first output of the source, and the second terminals of the secondary windings transformer is connected to one another through uncontrolled gates and connected to the second output of the source, and artificial switching circuits are connected in parallel to each controlled the valve, and their first terminals are connected to the anode of each controlled valve, and the second to the cathode connection point Xc1 of the controlled valve and the anodes of each of the uncontrolled valves, characterized in that, in order to increase the source efficiency by reducing losses transformer and rectifier, it is additionally equipped with three controllable gates with artificial switching circuits and three unmanaged gates, with (This is the positive output of the input rectifier through the first sections The primary winding of the transformer is connected to the andesa of each of the three pairs of controllable valves, with the cathode of the first uncontrolled valve from the first pair connected to the cathode of the second unmanaged valve from the second pair and the first output of the third winding of the second section, the cathode of the second unmanaged from the valve from the first pair of connectors, i is not with the cathode of the first uncontrolled valve from the third pair and with the first output of the second winding of the same section, and the cathode of the first uncontrolled-ventilator; l, from the second pair is connected to the cathode of the second uncontrolled valve from the third pair and to the first output of the first winding of the same second section j

Description

The invention relates to welding production and can be used in contact welding machines of direct current, in particular for welding machines of direct current used in robotics.

A three-phase rectifier for resistance welding machines is known, containing controllable and uncontrolled gates and a three-phase transformer, on each rod of which two Primary winding sections are placed, such that each first primary winding section of one rod is connected in series and according to the second primary winding section the other rod, the primary windings are connected through controlled valves in a triangle, the vertices of which are connected to the wires of the supply network. The secondary windings of the transformer are located one on each rod. Some of the secondary windings are combined together. the common potential point, which is connected to the first output of the device, and the other ends of the secondary windings are connected to each other through uncontrolled gates, and their common point is connected to the second output of device I.

Limited scope. The device is due to the large mass and dimensions of the transformer due to the low switching frequency of the operated valves. The low frequency of switching of controlled valves and the large dimensions of the transformer cause considerable durations of current rise periods in the welding circuit, which reduces the productivity during welding

Significant ripple of the output voltage causes an uneven distribution of current across two simultaneously operating phases, which leads to instability of the device, deteriorates the quality of welding and increases energy costs.

The closest to the proposed. is a three-phase power source for resistance welding machines, comprising a rectifier, controlled valves with artificial switching circuits, uncontrolled valves and a three-phase transformer, on each rod of which two sections of the primary winding are placed, each first section of the primary winding of one rod connected in series and according to the second section of the primary winding of another rod; and one secondary winding, the first terminals of the secondary winding of the transformer are connected together and form a common potential point, and connected to the first output of the device, and the second terminals of the secondary windings of the transformer are connected to each other through uncontrolled valves and p. The rectifier is connected to the AC mains, and its positive output with anodes of controlled valves, the anodes of which are combined, and their cathodes are connected to the anodes of uncontrolled valves, cathodes They are connected to the first terminals of the primary sections of the primary windings of the transformer, and the second terminals of the second sections of the primary windings are combined together and connected to the negative output of the rectifier, and the artificial switching circuits are connected in parallel to each controlled valve, the first terminals are connected to the anodes of the controlled valves, the second - to the cathodes 23.

In each of the sections of the primary windings of transformers of such rectifiers, the current flows during only 1/3 of the rectifier operating period. This causes poor use of the material of the primary windings, which increases the weight and size of the transformer.

The increase in the mass and dimensions of the transformer leads to an increase in the average length of the sections of the magnetic circuit and, consequently, to an increase in the magnetizing currents.

The dissimilarity of instantaneous values of magnetizing currents of considerable magnitude causes an uneven distribution of currents in the windings of the transformer and rectifier valves, which leads to an increase in losses and causes overheating, windings and valves.

The aim of the invention is to increase the efficiency of the source by reducing the losses in the transformer and rectifier.

The goal is achieved by the fact that a three-phase power source for resistance welding machines containing a rectifier, three controlled valves with artificial switching circuits, six uncontrolled valves and a three-phase transformer, on each rod of which two sections of the primary winding and one secondary winding are placed , with this, the rectifier is connected to the input terminals of the AC power supply network, the second terminals of the second sections of the primary windings of the transformer are interconnected and connected to the negative terminal rectifier first terminals of the secondary windings for the transformer are combined and connected to the first source output and the second terminal of the secondary windings of the transformer are connected to one another via

uncontrolled valves are connected to the second output of the source, and artificial switching circuits are connected in parallel to each controlled valve, with their first terminals connected to the anodes of each controlled valve, and the second to the connection point of the cathodes of each controlled valve and anodes of each of I uncontrolled valves, the source is supplied with an additional three controlled valves with artificial switching circuits and three uncontrolled valves, with this positive output of the rectifier through the first sections of the first ary winding of the transformer is connected s.anodami each of the three pairs of actuated valves, wherein the cathode is an uncontrolled first valve of the first pair is connected to the cathode of the second an uncontrolled; the valve from the second pair and the first output of the third winding of the second section of the cathode of the second uncontrolled valve of the first pair is connected to the cathode of the first uncontrolled valve of the third pair and to the first output of the second winding of the same section, valve of the first uncontrollable fan from the second pair is connected to the cathode of the second uncontrolled valve from the third pair and to the first output of the first winding of the same second section.

The drawing shows a circuit diagram of the proposed power source.

The source contains a rectifier 1, which is connected to the AC mains, a three-phase transformer 2, on each rod of which two sections 3 and 4 of the primary winding and one secondary winding 5 are placed.

The first terminals of the first sections 3 of the primary windings of the transformer 2 are combined together and connected to the positive terminal, rectifier 1, and the second terminals of the second sections 4 of the primary, the windings of transformer 2 are combined together and connected to the negative terminal of the rectifier 1.

The first terminals of the secondary windings 5 of the transformer 2 are connected together and form a common potential point, connected to the first output of the device b, and the second conclusions of the secondary about, the coil 5 of the transformer 2 are connected to each other through uncontrolled valves 7 and connected to the second output of the device 8.

The artificial switching cells 9 are connected in parallel to each controlled valve 10, with the first terminals connected to the anodes of the controlled valves 10, and the second to the cathodes. The second terminal of the first section 3 of each phase of the primary winding of the transformer 2 is connected to the combined

between the anodes of one of the three pairs of controllable valves 10, —with the anode of the first uncontrolled valve 11 is connected to the cathode of the first of each pair of controlled valves 10; the cathode of the first uncontrolled valve of the first pair is connected to the cathode — the second uncontrollable valve of the second pairs and with the first output of the third winding of the second section, the cathode

0 of the second uncontrolled valve from the first pair is connected to the cathode of the first uncontrolled valve from the third pair and to the first output of the second winding of the second section, the cathode of the first

5, the uncontrolled valve from the second pair is connected to the cathode of the second uncontrolled valve from the third pair and to the first terminal of the first winding of the second section.

0

The device works as follows.

Rectifier 1, for example a three-phase bridge rectifier, when connected to a three-phase supply network

5 provides a constant polo voltage at the first terminals of the first sections 3 of the primary windings of the transformer 2 and a constant negative. valuable voltage on the second outlets of the second sections 4 primary windings of the transformer ..

Control pulses for the opening of control valves 10 are supplied from the control system, or,

5 1/3 of the period corresponding to the selected frequency.

In the steady state mode with simultaneous supply of control pulses to two controllable valves 10 adjacent phases, they are open, and mc5

0 from rectifier 1 will flow in a closed circuit through the first section of 3 per-. primary phase winding, the first controlled valve 10, the uncontrolled valve 11, the second section 4 of the primary winding of the lagging phase, and the other closed circuit through the pervuk) section 3 of the primary winding of the lagging phase, the second controlled valve 10, the uncontrollable

0 valve 11, the second section of the primary winding of the advanced phase of the transformer 2.

With some advance, or simultaneously with the supply of a regular pair of pulses to two controllable valves 10, control pulses are supplied to two artificial switching circuits 9, which are connected in parallel to two controllable valves 10, which operated in a previous interval of 1/3 of the period, and they are turned off .

Thus, the operation of the valves 10 (in pairs) during the .1 / 3 period and the two sections 3 and 4 of the primary windings is provided (alternately).

one transformer core 2 for a period of 2/3 period.

The presence on each rod of two sections 3 and 4 of the primary windings, each of KOTopbLx connected to two of the six controlled valves 10, operating alternately 1/3 of the period, provides a continuous unidirectional change of flow in the magnetic core during 2/3 of the period. I Since the currents each third of the period flow through two groups in series and according to the included sections 3 and 4 of the primary windings connected in parallel and arranged on two rods of the three-core magnetic core of the transformer 2, then. The currents created by the echo currents are closed through the third rod, which ensures the restoration of the magnitude of the induction of this rod to its original state.

Continuous unidirectional flux change in each core of the magnetic circuit during a 2/3 period creates a negative voltage on the terminals of the secondary windings 5 connected to the Cathodes of uncontrolled ventilators 7.

A positive voltage on these leads exists for 1/3 of the period when induction is restored in the cores. When connected to the output pins 6 and 8 of the welding circuit, current flows in it, generated every 1/3 of the period by two simultaneously operating secondary windings 5 of two Phases.

Each valve 7 and each secondary winding 5 operate for 2/3 periods and 1/2 of the load current flows through them.

In each of the sections of the primary windings of the transformer, a current equal to half of the current of the rectifier current flows for 2/3 of the period, which reduces the effective current of the section by 1/41 times. This, in turn, allows to reduce the active copper cross section of the primary windings of the transformer and, consequently, the size and mass of the transformer magnetic circuit. The total mass of the transformer can be. reduced by 16-18% off. transformer mass rectifier known device.

With equal device powers, equal current densities in the windings and equal values of operating inductances in the core of the transformer, the active losses in the transformer of the proposed device will be reduced by 15-18%.

A decrease in the active losses in the Transformer causes a decrease in the current consumed by the device and a decrease in the losses in the rectifier.

The active loss in the proposed device is reduced to 20%.

In DC welding machines made using the invention, the efficiency is increased, as the total active loss in the rectifier is reduced by 18-20%.

In addition, the invention makes it possible to reduce the Mass and dimensions 5 of the transformer of the device, which makes it possible to use it in portable welding machines of direct current.

In the manufacture of a device transformer, the active materials of the primary windings are saved by 28-GZO% and the magnetic core material by 10-12%.

Claims (1)

A THREE-PHASE POWER SUPPLY FOR CONTACT WELDING MACHINES, comprising a rectifier, three controlled valves with artificial switching circuits, six uncontrolled valves and a three-phase transformer, on each terminal of which two sections of the primary winding and one secondary winding are placed, while the rectifier is connected to the input terminals of the power supply AC networks> second terminals of the second sections of the primary windings of the transformer are interconnected and connected to the negative terminal of the rectifier, the first conclusions of the secondary transformer windings are combined and connected to the first output of the source, and the second terminals of the secondary transformer windings are connected one to the other through uncontrolled valves and connected to the second output of the source, and artificial switching circuits are connected in parallel to each controlled valve, and their first conclusions are connected to the anode of each controlled gate, and the second to the connection point of the cathode of each controlled valve and the anodes of each of the uncontrolled valves, characterized in that, in order to increase the coefficient efficiency of the source by reducing the losses in the transformer and the rectifier, but it is provided with three additional control valve with _a synthetic schemes and Q three switching valves unmanaged, the positive terminal of the input rectifier section through the first primary winding is connected to the anodes of each of the three pairs controlled valves, the cathode of the first uncontrolled valve from the first. howl pair is connected to the cathode of the second _h uncontrolled valve from the second pair and to the first output of the third winding "mN. the second section, the cathode of the second uncontrolled *. the connected valve from the first pair is connected with the cathode of the first uncontrollable. ЯяаА, the valve from the third pair and with the first ^; the conclusion of the second winding of the same section. and the cathode of the first uncontrollable-vent-; la, from the second pair is connected to the cathode of the second uncontrolled valve from the third pair and to the first output of the first winding of the same second section * h · ·> 10131.70