EP0266470A1 - Inductor and induction heating device for the edges of a metallurgical product - Google Patents

Abstract

The inductor consists of an ''E'' - shaped yoke (4) with wound poles, having two end poles (6, 7) aligned with a first axis (13) and facing one another, thus defining between them a free no-load air-gap for the passage of one edge of the product, and a central pole (5) pointing along a second axis (14) perpendicular to the first axis (13) and set back relative to the end poles so as not to overlap the said air-gap, the windings (8, 9, 10) of these poles being configured so that, whilst operating, the sum of both the fluxes entering or leaving through the end poles (6, 7) is equal to the flux leaving or entering through the central pole (5). <IMAGE>

Description

The invention relates to the inductive heating of the edges of a metallurgical product.

For a slab rolling installation directly coupled to a continuous casting installation, it is desirable to heat the edges of the slabs, in order to obtain a thermally homogeneous product at the entry of the roughing train. Indeed, the thermal deficit or average temperature difference in the thickness of a slab, between the center and the banks can be of the order of 120 ° C at the outlet of continuous casting, due to the preferential cooling of the banks ( fin effect).

It has already been proposed, to erase the heterogeneities of the edges of a metallurgical product, an induction heating, located on the edges, using inductors with magnetic U-shaped yoke arranged above and below the product, the latter parading horizontally in the air gap formed between two superimposed inductors whose opposite magnetic poles face each other.

Furthermore, the inventor has already proposed (cf. French patent application No. 85 08684 of June 7, 1985) an improvement on the previous device, according to which C inductors are used laterally straddling the product. However, the above-mentioned inductors are more specifically intended for reheating relatively thin products (for example from 30 to 50 mm thick). The reheating of the edges of thicker products (for example 250 mm thick) by known inductors risks being insufficient and not penetrating to the core.

The object of the invention is to propose a new type of inductor more efficient than known inductors, for reheating the edges of thicker metallurgical products, such as continuous casting slabs.

The inductor according to the invention is characterized in that it consists of an E-shaped cylinder head with wound poles, having two extreme poles aligned on a first axis and facing each other at a distance so as to define between aux an air gap, and a median pole oriented along a second axis perpendicular to the first axis and recessed with respect to the two extreme poles so as not to not encroach on said air gap, the windings of the three poles being arranged so that, in operation, the sum of the fluxes entering or leaving both by the extreme poles is equal to the flux leaving or entering by the middle pole.

Such a constitution minimizes the air gap, corresponding to the distance traveled outside the cylinder head by the magnetic field, assuming that the latter follows the preferred path imposed by the cylinder head. On the other hand, this arrangement allows a better concentration of the flow in the product. In the heating device according to the invention, the inductors are installed so that the path of the edges intersects the air gap of said inductors, the extreme poles being oriented in the direction of the thickness of the product.

• - la figure 1 est une vue schématique transversale d'une installation de réchauffage inductif des rives d'une brame montrant deux inducteurs en E conformes à l'invention.
• - la figure 2 est un schéma de branchement des bobines d'un inducteur conforme à l'invention.

Other characteristics and advantages will emerge from the following description of a preferred embodiment. Reference will be made to the appended drawings in which:

• - Figure 1 is a schematic transverse view of an inductive heating installation of the edges of a slab showing two inductors in E according to the invention.
• - Figure 2 is a connection diagram of the coils of an inductor according to the invention.

In FIG. 1, it can be seen that the edges 1 of the slab 2, which scrolls in the direction perpendicular to the plane of the drawing, pass through the air gap of the inductors 3.

These comprise a magnetic yoke 4 which, in the heating position, has the shape of the capital letter E, in the sense that it defines three poles 5, 6, 7 converging towards the banks 1 of the slab and respectively provided with b obines 8, 9, 10. The middle pole 5 is oriented in the width direction of the slab 2 (axis 13), while the extreme poles 6 and 7 are oriented in the thickness direction (axis 14) and face each other distance so as to define between them, when empty (that is to say in the absence of product to be heated) an air gap in which a bank of the product to be heated will pass. To this end, the extension of the middle pole 5 from its location on the main branch of the cylinder head is such that this pole remains recessed with respect to the extreme poles 6 and 7 so as not to encroach on the air gap.

The coils 8, 9, 10 are connected in accordance with the diagram in FIG. 2 so that the intensity of the current flowing in the coil 8 of the middle pole is equal to the sum of the intensities flowing in the coils 9 and 10 of the opposite poles, which intensities are in principle equal. Under these conditions, if the coils have the same number of turns, and if the direction of each winding is appropriate, the incoming flow from the middle pole 5 is equal to the sum of the outgoing flows from poles 6 and 7, and the lines of induction pass through the edge of the slab as shown by the arrows 11, producing the desired local heating. The frequency of supply of the inductors is close to 300 HZ.

The inductors 3 are supported by frames not shown allowing them to be moved transversely (in the direction of the arrows 12 and in the opposite direction) so as to be able to adapt the position of the inductors to different widths of product.

Claims (3)

1. Inductor for the inductive heating of the edges (1) of a metallurgical product (2), characterized in that it consists of a cylinder head (4) in "E" with wound poles, having two extreme poles (6 , 7) aligned on a first axis (13) and facing each other so as to define between them a free empty air gap for the passage of a bank of the product, and a median pole (5) oriented along a second axis (4 ) perpendicular to the first axis (13) and set back relative to the extreme poles so as not to encroach on said air gap, the coils (8, 9, 10) of these poles being arranged so that, in operation, the sum flows entering or leaving both by the extreme poles (6, 7) is equal to the flow leaving or entering by the middle pole (5). 2. Inductive reheating device for strands (1) of a moving metallurgical product (2) of the type comprising inductors (3) installed so that the path of the strands intersects the air gap of said inductors, characterized in that the inductors (3) conform to the inductor according to claim 1. 3. Device according to claim 2, characterized in that the inductors (3) are mounted on movable supports transversely to the direction of movement of the metallurgical product.

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