SU803133A1 - Inductor for higt-frequency heating of thin metallic articles - Google Patents

Description

(54) INDUCTOR FOR HIGH-FREQUENCY HEATING OF THIN METAL PRODUCTS

made movable in the direction of the smaller side of the magnetic circuit.

The implementation of the extreme elements of the composite magnetic circuit of a non-magnetic material reduces the concentration of the induced current at the edges of the heated product and thereby prevents overheating of the edges of the products and improves the heating uniformity across the width of the products. Making the elements of the magnetic circuit movable allows for more precise adjustment of the heating across the cross section of the product, as well as the heating of products of different widths in one inductor.

The drawing schematically shows the proposed device.

The induction wire 1 is placed in the grooves of the magnetic circuit D. Under the inductor there is a heated article 3 that moves in the process of heating in the direction indicated by the arrow. On the opposite side of the heated product 3 there is a composite magnetic circuit consisting of elements 4 made of packages of sheets of transformer steel and monolithic elements 5 of conductive non-magnetic material, for example copper. Elements 4 of transformer steel and non-magnetic elements 5 can be moved in the directions indicated by the arrows. In addition, their number can be reduced {while the remaining elements are shifted together) to heat products of lesser width in the same inductor.

The inductor works as follows. The magnetic flux generated by the current flowing through the induction wire 1 penetrates the heated product 3 and closes in the elements 4 of transformer steel. The magnetic flux, the passage through the product 3, creates in it an induced current. The induced current is created by the magnetic flux also in the elements 5 of non-magnetic material. The magnetic flux created by the induced current in the nonmagnetic material elements 5 attenuates the magnetic flux created by the inductive wire 1. Thus, the induced current at the edges of the product in the area of the non magnetic material elements 5 is weakened. This makes it possible to obtain a uniform distribution of the power of the induced current, and hence a uniform distribution of temperature in the product.

If it is necessary to further adjust the power of the current, elements 4 and 5 can move relative to the heated product 3 in the vertical direction, changing the gap between the product 3 and the elements of the composite magnetic circuit. Such movement can be carried out using known mechanical or pneumatic-hydraulic devices, after which elements 4 and 5 are fixed in the desired position.

Iduktor's design allows changing the width of the composite magnetic circuit by changing the number of elements 4 of transformer steel. This allows heating of narrower products in the same inductor, while the heating uniformity is maintained. In the proposed inductor it is possible to uniformly heat the products by about 30-40% already of the nominal value for which the inductor is designed.

Claims (2)

1.Paisakhovich V.A. Energy relations when heating a metal tape in a transverse magnetic field. Works VNIITVCH, 1966, vol. 7 sec. 41, Fig. one. 2. US patent number 3444346, cl. 219-10,61, 1969. lilt Hctnpad / ieHue cross section of mpc (HC (popMCftorny cma / iu Hcinpad / iehue engine Hffnpa8 / teHue displacement A HCf cfZffumHbix sections