SU1494252A1 - Device for even induction heating of flat ingots - Google Patents

Abstract

The invention relates to induction heating of flat ingots. The aim of the invention is to increase the uniformity of heating and vibration of the device. The coils of the solenoid coil of the inductor on flat faces are made intersecting at an acute angle, and on the end sections there are additional flat coils of triangular shape. The current distribution is equalized over the conductor width. Connecting the main coil windings to different phases of the power source increases the vibration strength of the device. 1 hp f-ly, 3 ill.

Description

The invention relates to induction heating in the field of metallurgy and mechanical engineering, in particular to the heating of flat ingots.

The aim of the invention is to increase the uniformity of heating and vibration of the device.

FIG. 1 shows the device b1 from above} in FIG. 2 is a main solenoid coil composed of a series of located and connected windings of a material with a high electrical resistance, located in the corner of the triangular additional windings.

The device for induction heating of flat ingots consists of two rows of arranged windings 1 and 2, the main solenoid coil is made up of a pig (figure 1). The windings 1 and 2 are connected according to, and their coils on flat edges of the coil are located one above the other and intersect each other at an acute angle. Winding 1 and 2 are connected to different phases of the power source (not shown). The device also contains four flat triangular additional windings 3 and 4 (two of them are shown in Fig. 1) arranged in pairs one above the other so that each of them is adjacent to intersecting conductors of windings 1 and 2. A triangular coil conductor ( Fig. 3) in the corners of the triangular coils is made with an insert made of a material with increased electrical resistance of the inside of the triangular coil at a distance of the current penetration depth into the conductor material.

The device works as follows.

When solenoid windings 1 and 2 and triangular windings 3 and 4 are connected to a power source (the solenoid windings are connected to different phases), eddy currents occur in the heated flat bar, causing it to heat. The intersection of the current to Q wires of the solenoid windings 1 and 2 together reinforces the heating of the wide faces of the flat ingot (Figs. 1 and 2 show a specific example of the proposed J5 device for heating the flat ingots that have wide edges in the traditional rectangular inductor - aluminum, copper flat ingots, for uniform heating of steel ingots, the current leads intersect above the narrow faces that need to be heated). The uniform heating of the ingots is also achieved through the use of aperture requirements.

coal coils that heat the extreme zones of the ingot, and the implementation of the triangular coils in the place of their rotation with the insert also contributes to uniform heating by equalizing the distribution over the width of the conductor in the place of its rotation.

Connecting the solenoid coils to different phases of the power source - Bbmiaer device vibration strength due to the fact that the phases of change - currents and, therefore, the forces acting on windings 1 and 2, do not coincide with each other, but are shifted in time by an angle of 60, which leads to a decrease in the peak of electrodynamic number 1 forces.

The proposed device can be applied for uniform heating of flat ingots of various materials, the pattern of uneven loading and.

which are different in the solenoid rectangular inductor covering them. In one case (heating of aluminum) copper ingots, the solenoid conductors of the windings intersect over wide edges, in the other case (heating of steel, titanium ingots) the conductors of solenoid coils intersect over narrow edges of the ingots.

Claims (2)

1. Device for uniform induction heating of flat ingots, containing an inductor connected to a power source, made in the form of a main solenoid coil with a rectangular window for accommodating the ingot and two additional coils, approximately 1 above and below the main coil on its front sections , wherein the main and additional coils are interconnected according to, characterized in that, in order to increase the heating uniformity, the main coil is made in the form of two rows arranged and connected according to windings, the turns of which on flat edges of the coil are located one above the other and intersect each other at an acute angle, and each of the additional coils is made in the form of two flat windings of a triangular shape, the angular portions of which are internally provided with inserts of a material with a higher specific resistance than the material of the inductor. 2. The device according to claim 1, characterized in that, in order to increase the vibration strength of the device, the windings of the main coil are connected to different phases of the power source. L /one ig.2