RU2361308C1 - Arc-welding transformer - Google Patents

Abstract

FIELD: electric engineering.

SUBSTANCE: invention relates to electric engineering. The transformer is comprised of two double-window magnetic cores (1), primary (2) and secondary (3) windings, and hollow rod (4) with wounded choke (5) winding. The said hollow rod is filled with magnetic liquid (6) and connected to tank (11) with magnetic liquid (6) by means of pipeline (7) through reverse switch (9), operated hydraulic pump (8). The above-mentioned switch is installed in electrode (10) holder handle. There is hole (12) in rod wall (4) whereby inner cavity of rod (4) communicates with atmosphere.

EFFECT: smooth remote control of welding current and improved reliability of operation.

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Description

The invention relates to electrical engineering and can be used in the manufacture of welding transformers.

Magnetic fluids are known, which are colloidal solutions of ferromagnetic particles in binding fluids that can be used to switch magnetic flux in magnetic shunts (Rosenzweig R. Ferro - hydrodynamics. - M .: Mir, 1989).

The disadvantage of such shunts is the lack of an adjustable electrical signal.

Also known devices for smooth voltage regulation, having a magnetic circuit with a movable yoke (USSR author's certificate No. 1022229, IPC H01F 29/08, publ. 07.06.1983).

The disadvantage of these devices is low reliability due to the presence of the movable part of the core.

The closest in technical essence to the invention is a single-case welding transformer with a built-in inductor, consisting of a two-window magnetic circuit, on the rods of which the primary and secondary windings are wound, as well as the inductor winding. Part of the core magnetic core is movable and has a screw mechanism with a handle that changes the air gap and thereby regulates the magnitude of the welding current (Fominykh V.P., Yakovlev A.P. Electric welding: a textbook for vocational schools. 5th ed. M .: VSH, 1978).

The disadvantage of this welding transformer is its low reliability due to the presence of a movable core and manual mechanical drive of this movable part, as well as the inability to remotely control the welding current.

The objective of the invention is to ensure the reliability of the welding transformer by eliminating the movable part of the core and manual mechanical drive of this movable part, as well as providing remote control of the welding current.

The task is achieved by the fact that in the well-known single-case welding transformer with a built-in inductor, consisting of a two-window magnetic circuit, primary and secondary windings, the inductor winding, it is proposed to equip the transformer with a container with magnetic fluid, the core of the magnetic circuit with the inductor winding to be hollow and connected through a hydraulic pump to the tank with magnetic fluid, and install the reversing switch that controls the hydraulic pump in the handle of the electrode holder. The cavity of the core of the magnetic circuit is proposed to communicate with the atmosphere through an opening made in the wall of the magnetic circuit at the level of the upper edge of the cavity.

The core of the welding transformer’s magnetic circuit is hollow in order to enable the pumping of magnetic fluid into it or pumping out of it. The cavity of the magnetic circuit is connected via a pipeline through a hydraulic pump to a container containing magnetic fluid, and has an opening in the wall of the magnetic circuit to allow the transfer of magnetic fluid from the cavity to the container and vice versa, and thereby to allow the level of the magnetic fluid in the cavity of the magnetic circuit to be changed.

For remote control of the welding current, a reversing switch that controls the hydraulic pump is installed in the handle of the electrode holder.

The invention is illustrated by the drawing, which shows the design of the welding transformer.

The transformer consists of a two-window magnetic circuit 1, primary 2 and secondary 3 windings, a hollow rod 4 with a winding of the inductor 5 filled with magnetic fluid 6, connected via a pipeline 7 through a hydraulic pump 8, controlled by a reversing switch 9 installed in the handle of the electrode holder 10 with a capacity 11 containing magnetic fluid 6. In the wall of the rod 4 there is an opening 12 through which the internal cavity of the rod 4 communicates with the atmosphere.

Welding transformer operates as follows.

With the maximum pumping of the cavity 4 of the rod 4 with the magnetic fluid 6 by the hydraulic pump 6, there is no air gap in the cavity, the magnetic resistance of the rod 4 is minimal, and the magnetic flux in the rod is maximum, the inductive resistance of the inductor winding 5 is maximum, and the welding current is minimal. In this case, the maximum injection is determined by the upper level of the surface of the magnetic fluid 6 not higher than the hole 12 in the rod 4.

As the magnetic fluid 6 is pumped out using the hydraulic pump 8 through the pipe 7 into the tank 11, the magnetic resistance of the rod 4 due to a decrease in the level of the magnetic fluid 6 in the cavity of the rod 4 and its filling with air through the hole 12 increases. The magnetic flux in the rod 4 decreases, the inductive resistance of the winding of the inductor 5 decreases, and the welding current increases.

Depending on the mode and direction of pumping of the magnetic fluid 6 by the hydraulic pump 8, controlled by a reversing switch 9, a smooth regulation of the welding current is provided.

The free transfer of magnetic fluid 6 from the inner cavity of the rod 4 of the magnetic circuit 1 of the hydraulic pump 8 to the tank 11 and vice versa is ensured by free access of atmospheric air through the hole 12 into the space between the upper edge of the cavity and the surface of the magnetic fluid 6 in the rod 4.

Installing a reversing switch 9 for controlling the hydraulic pump 8 in the handle of the electrode holder 10 provides remote control of the welding current.

The proposed solution allows for smooth regulation of the welding current and to increase the reliability of the welding transformer by eliminating the movable part of the core and manual mechanical drive by this movable part, as well as remote control of the welding current.

Claims (1)

A single-case welding transformer with a built-in choke, consisting of a two-window magnetic circuit, primary and secondary windings, a choke winding, characterized in that it is equipped with a container with magnetic fluid, the core of the magnetic circuit with a choke coil is hollow and connected through a hydraulic pump to the tank with magnetic fluid, and a reversing switch that controls the hydraulic pump is installed in the handle of the electrode holder, in addition, the cavity of the core of the magnetic circuit is connected to the atmosphere through an opening, made what is in the wall of the magnetic circuit at the level of the upper edge of the cavity.