SU907878A1 - Induction heating device - Google Patents

Description

(54) INDUCTION .HEATING DEVICE

I

The invention relates to electrical engineering, namely to induction heating of metals.

An induction heater is known, which is a non-magnetic device that provides a flat channel with an open end into which a strip material is fed. The device contains a large number of single-layer inductors on opposite sides of the bottom channel. These inductors have wires that span the channel. The wires are located on opposite sides of the channel, parallel and lie in planes perpendicular to the channel. Inductors form longitudinal magnetic fluxes in opposite directions in the channel between the inductors. The conductors are directed so that they cause a current in one of the inductors in a clockwise direction, and in the other inductor in a counterclockwise direction. Device

includes at least a pair of identical inductors on different sides of the channel. Each iductor has an axis that intersects the bottom channel. The conductors connecting the active coils of the inductor are located farther from the channel than from the active lateral sides. Inductors are connected via a resonant circuit to an alternating current source. A group of parallel-arranged active inductor wires on one side of the channel is installed opposite a group of wires on the other side of the channel. The alternating current in the groups of parallel wires of the inductor flows in one direction and in the opposite direction with respect to the wires of the adjacent group TI.

Claims (2)

However, the device has significant drawbacks. It is suitable for heating the strip across the entire width and cannot be used if it is necessary to heat a defined part of the body (tap, middle, end, etc.). End heating of billets, for example, for heating before hot landing on a forging valve in this heater, is completely excluded. One of the most serious drawbacks of this device is the unevenness of the magnetic flux 5 intersecting the process gap in places of group inductors and in the plane of their axial section. Due to the fact that the magnetic flux of these planes passes through peaks of maximum and minimum values, and the length of the group inductors is finite, the heating of the strip and any other body introduced into this field is uneven. The closest to the present invention is an induction heating device comprising a heating chamber and inductors installed on its opposite sides and made in the form of flat spiral windings installed in one plane, each of which is provided with leads for connection to a power source 2}. However, in the known device, there is also no uniform magnesium flux at the junctions between the coupled inductors. The purpose of the invention is to increase the heat distribution. The goal is achieved by the fact that in the device each of the windings is made in the form of an equilateral triangle, the pair of windings are inverted to each other, and the inductors on opposite sides of the chamber are set to offset along the geometric center of one of the triangle heads each pair of windings on one side of the chamber with the tops of the triangles of a pair of windings on the opposite side. FIG. shows the location of the windings on the walls of the heating chamber; FIG. 2 shows a winding connection circuit; FIG. 3 and 4 are located on the opposite sides of the chamber. The induction heating device comprises a heating chamber I with side walls 2 and 3, a roof and a bottom 5. The active conductors of the inductor windings 6 and 7 are located in the vertical or horizontal planes along the axis of movement of the heated parts supported by the stops of the transport mechanism of the heated parts. The side wall 2 in the heating chamber may be missing. Flat heating windings 6 and 7 are three-coiled spirals 8, which are definitely located and connected to an AC power source using current-carrying water-cooled tires 9 and 10. The upper 6 and lower 11 groups of windings of current-carrying coils have a geometric center 12 which are coaxial with point 13 matching vertices of opposite windings. The device works as follows. The heated metal parts are loaded with the whole volume and a certain zone between the current-carrying parts of the group sections and in the process of moving into them are heated under the influence of an electromagnetic field. Due to the shifted axial magnetic flux intersecting the chamber in the transverse direction of movement of the parts, uniform heating of the predetermined section is achieved. Thus, the device allows to achieve uniform heating of parts with high electrical efficiency, and also increases the nominal power of the heater and increases the productivity of heating. Claims of the invention: Induction heating device comprising a heating chamber and inductors installed on its opposite sides and executed in the form of flat spiral windings installed in one plane, each of which is provided with leads for connection to the source of litany, characterized in that, in order to improve uniformity heating, each of the windings is made in the form of an equilateral triangle, the pair of windings are vertices facing each other, and the inductors on opposite sides of the chamber are Credited offset along the longitudinal axis of the chamber to align the geometric center of one of the triangles of each pair windings on one side of the chamber with the vertices of the triangles of a pair of windings on the opposite side. Sources of information taken into account in the examination of s I. US Patent 2A19P6, cl. 219-10.51, 1947. 2. Copyright Certificate of the USSR IP657070, cl. C 21 D 1/12, 1977.