RU2053066C1 - Welding transformer - Google Patents

Abstract

FIELD: welding equipment. SUBSTANCE: in compliance with invention there is used one additional immobile winding put over power windings which has alterable number of turns. It is connected in series with one of power windings of transformer. Length of magnetic core exceeds its width by 2.5-3.0 times. EFFECT: enhanced operational efficiency and reliability of welding transformer. 2 cl, 3 dwg

Description

 The invention relates to power sources for the welding (circuit) arc and can be used in all industries and households that use electric energy to power the welding arc.

 A device for welding by modulated current, comprising a welding transformer, on which the primary and secondary windings are located on different rods of the magnetic circuit, an additional winding, in series with which a key is installed, wound on the path of the scattering fluxes, the magnetic field generated by the current of this winding is directed counter to the main magnetic field created by the current of the transformer windings, introduced an additional adjustable source, while the specified source is connected between one of the terminals ADDITIONAL winding and key. However, in this device, the additional windings consist of two parts connected in series, wound over the power windings in the path of the scattering fluxes. These windings are short-circuited with a key or through a current-limiting resistor and connected in parallel with the secondary winding of the transformer, which is relatively complicated and cumbersome.

 This disadvantage is partially eliminated in the known device (prototype), which provides smooth current control without changing the value of the open circuit voltage, where two or one additional windings are used, mechanically moved relative to the power windings of the transformer. When the secondary winding is closed, during the burning of the arc, the magnetic flux is displaced, forming a magnetic field around the transformer, and induces an EMF in the additional windings. Depending on the inclusion of these windings with power windings of the transformer, the magnetic flux of scattering increases or decreases, and with it the current in the load.

 The disadvantage of this device is the mechanical movement of the additional windings relative to the power windings.

 The purpose of the invention is to simplify the design and save winding material.

 The goal is achieved in that mechanical movement of the additional windings relative to the power windings is excluded and the average lengths of the turns of the additional and main windings are reduced. Only one additional winding is used, wound on top of power windings with a variable number of turns, connected in series with one of the transformer power windings, and the length of the magnetic circuit is 2.5-3 times greater in height than its width.

 In FIG. 1 shows a structural diagram of a welding transformer; in FIG. 2 and 3 options for switching power and additional windings.

 The welding transformer consists of a core magnetic core 1, on different rods of the magnetic core there are primary 2 and secondary 3 power windings. An additional winding 4 is wound on top of the power windings 2 and 3. The circuit for switching on the primary winding 2 and the additional winding 4 is shown in FIG. 2. Another embodiment for turning on the secondary winding 3 and the additional winding 4 is shown in FIG. 3.

 To reduce the length of the middle coil of the windings, and therefore, reduce the length of the winding wire, the length of the magnetic circuit in height exceeds its width by 2.5-3.0 times.

 Welding transformer operates as follows.

 When you turn on the additional winding in series with one of the power windings of the transformer, the current flows proportionally to the load current of the transformer, which causes the appearance of a magnetic field directed depending on the inclusion of the additional winding in the opposite direction or according to the main field of the transformer. The total inductance of the welding transformer decreases or increases, which in turn causes an increase or decrease in the current in the welding circuit. The magnitude of the increase or decrease depends on the number of turns of the additional winding, which is regulated in steps depending on the position of the switch in the additional winding circuit. By changing the number of turns of the additional winding and its inclusion, it is possible to change the course of the external characteristic of the welding transformer relative to the main external characteristic, determined only by the inclusion of the main power windings 2 and 3 and the geometry of the windings and the transformer, when the additional winding 4 is not surrounded by current. The open circuit voltage remains virtually unchanged.

Claims (2)

 1. WELDING TRANSFORMER, containing a magnetic circuit, on different rods of which there are power primary and secondary windings, an additional winding wound over the power windings, characterized in that the additional winding is rigidly fixed and equipped with leads for regulating the current value, while it is connected in series with the power winding "counter" to increase the short circuit current or "according to" to reduce the short circuit current.  2. The transformer according to claim 1, characterized in that the length of the magnetic circuit is 2.5 to 3.0 times greater than its width.

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