SU992597A1 - Induction heating apparatus - Google Patents

Description

The invention relates to the induction heating of metals and may be used for heating billets in forging, rolling and thermal production. A known installation for induction heating, comprising a sectional inductor, supporting water-cooled guides and a water-cooled support located between them, associated with the mechanism of step motion 1 Also known installation for induction heating; containing a sectional inductor, fixed supports and movable supports with a step-by-step mechanism for moving parts. Parts to be heated are supplied to water cooled supports passing through the inductor. The middle ones, having the ability to reciprocate, are made so that the blanks on them are easily held. In their movements, they lift parts from extreme fixed supports and move them in steps through inductor C2 3. In the known assemblies, with scale under the movable supports, the scale keeps them constant, moving them vertically, as a result of which the part does not fall onto fixed supports parts through the inductor; heating time increases, resulting in metal burnout and unrecoverable scrap. Getting into the cracks of the concrete layer of the scale inductor induces an electrical breakdown of the inductor coils to the support ground, which causes damage to the inductor sections and the need to replace them, which in turn drastically reduces the performance of the installation. The purpose of the invention is to improve the reliability and performance of the installation for induction heating. This goal is achieved by that the installation for induction heating, containing a sectional inductor, fixed supports and movable supports with a mechanism for stepping movement, is provided with ferromagnetic cores fixed on mobile supports and placed inside the inductor section. 1 FIG. 1 shows the installation, cross section; FIG. 2 shows section A-A in FIG. 1; in fig. 3 shows a kinematic diagram of the operation of the device within the boundaries of the front and rear position of the ends of the section.

The installation consists of a semiconductor inductor 1, water-cooled stationary supports 2 and movable water-cooled supports 3, ferromagnetic cores 4, made of a set of electrical steel sheet mounted with an offset from the middle of the sections 5 of the inductor and mounted on the movable supports 3 in the final heating section. Fixed support 2 is partitioned along the length of two sections. The portions of the supports 2 in the zone of the final process temperature at the finishing section of heating have the ability to rotate synchronously.

The installation works as follows.

Parts 6 to be heated are fed from a hopper or cassette to supports passing through an inductor. Parts are easily supported by movable supports 3.

Supports 3 having cores 4,. inform the reciprocating movement in a closed path in the direction of movement from the mechanism of step motion (not specified). In movement of the support 3 they lift the parts b and move them one step further down to the fixed supports 2 and return to their original position. The cycle repeats with a certain rhythm due to the capacity of the installation. As it progresses along the inductor, the part falls on constantly rotating sections of the supports. 2 liters begins to rotate, leveling the temperature throughout the entire volume of the metal.

Formed during the period of heating on the surface of the part, the scale remaining in the intra-inductor space is taken out of the inductor limits automatically by means of a 4X core.

The core 4 of electrical steel in the magnetic field of section 5 of the inductor 1 is the core of an electromagnet.

When moving the supports 3 according to the kinematic scheme (Fig. 2) from bottom to top, forward to down-back (package position 1 ... IV), the intensity of the magnetic field at the poles of core 4 varies depending on the location of the ends (poles; core in the section inductor.

When the end of the core 4 is inside the section 5 of the inductor 1, the scale is attracted to it and held by a strong magnetic field, when the pole of the core leaves the coil, the field weakens, and the scale falls into the descaling boxes 7 located between the inductor section.

The use of a core of electrical steel in conjunction with movable guides inside the inductor sections of the installation for induction heating allows you to automatically free the intra-inductive space of harmful metallic formations (scale), which helps to equalize the temperature throughout the entire volume of parts with their free rotation, moving parts along the inductor without breaking the rhythm and turning off the metal burn-through, reducing the danger of the electrical sample of the coils of the inductor sections, and therefore fits the quality of the products, increases the reliability and performance of the induction heating unit.

The economic effect from the introduction of the proposed installation will be 30 40 thousand rubles.

Claims (2)

1.Slukhotsky A.E., Ryskin S.E. Inductors for induction heating. Energie, 1974, p. 248, fig. 17-8. 2. Shamov, AN (Bodazhkov, VA, Design and Operation of High-Frequency Units, i-ed. 2nd, L., 1974, pp. 89-92. .4-4 /