SU985075A1 - Induction heating device - Google Patents

Description

(54) DEVICE FOR INDUCTION HEATING

Claims (2)

The invention relates to the induction heating of metals and can be used in the forging and thermal industries of machine-building enterprises. A known installation for induction heating of the ends of the blanks, containing a transporting rotor with face slots for holding the blanks C. A disadvantage of the known installation is unreliability in operation and low efficiency due to overheating of the drum of the transport rotor under the influence of the electromagnetic field of the inductor. A machine for hardening parts is also known, containing a transporting rotor mounted on a shaft (drum), a drive for its rotation, a loading mechanism, a heater, and a resetter. In this machine, the drum is grooved and made in the form of a ring and a disk, between which spring-loaded clamps are installed. The ring and the disk are interconnected by bolted joints through several spacer sleeves placed around the circumference and form a one-piece frame, which is subject to heating by the induced contour currents o1 of the inductor electromagnetic field. Cam clamps with springs are located in the zone of influence of electromagnetic fields and are not protected from them by a screen, which leads to overheating of the springs {2. Known machine is not reliable in operation due to overheating of the transporting drum and springs .-. The purpose of the invention is to increase the reliability of the induction heater. This goal is achieved by the fact that in a device for induction heating of products containing a slit inductor transporting a rotor with guide sleeves and. lever spring clips connected to a rotational drive, a mechanism for loading and unloading blanks, the rotor is made in the form of a water-cooled hollow multilobe disk with coolant inlet and outlet assemblies, and the springs of the clips are located above the rotor. FIG. 1 given a device for induction heating, general view; in fig. 2 - time 3985 cut A-A in FIG. one; on fng, 3 - section bb in fig, 2; in fig. 4 shows a section B-B in FIG. 2; in fig. 5 is a section of YYD in FIG. 2; in FIG. 6 is a section d-d in FIG. 3. A device for induction heating of the ends of the blanks comprises a housing. 1, on which the drive 2, a slot inductor 3 is installed, drain the tank. 4. In the cantilever part of the actuator 2 there is a transporting rotor 5 with a vertical axis of rotation carrying the workpiece. The rotor 5 is made of welded steel non-magnetic sheets in the form of a 6-leaf hollow disk, in the center of which is the hub 6. Each lobe 7 is welded to stupira 6 and has a water channel 8 inside. The channels of adjacent lobes are connected at the hub by transition channels 9. V The hub has an opening 10 for supplying water and an opening 11 for diverting water. Both apertures extend into annular undercuts 12 and 13 of the hub, which are connected. with channels node 14 supply and drainage. Node 14 is mounted in the axis 15 of the rotor,. hermetically, through a system of sealing vk lok and rings. At the periphery of each petal 7, along the outer circumference of the rotor, guide bushings 16 are installed, which serve as nests for blanks, as well as lever clamps 17 with springs 18, which are mounted above the rotor behind the water screen formed by the channels of the petals and rest on insulating bushings 19 which prevent the induction of secondary loop currents in the springs. The rotor itself, divided into several parts (petals) is a screen that prevents the appearance of secondary loop currents and, thus, overheating of the rotor parts as well as the springs of the clamps. The hub of the rotor has grooves 20 in the upper end face, into which there are splines and 21 with text-based insulating dryers 22 for when the rotor is water. Rotation is transmitted to the rotor through the leading spindle 23 and crackers 22. To set the overhang of the workpiece to the required height, the support 24 is installed on the body. The proposed device works as follows .. With the aid of the actuator 2 (for example, the rotor 5 is rotated and the cooling water is fed through the node 14 By means of a loading mechanism (not shown), the workpiece 25 enters the guide bushes, is exposed for a heating length on the support 24, and is pushed by a lever clamp 17 before entering the slotted inductor 3. The inductor turns on to work (starts heating the workpiece) only when it is filled with 2/3 cold workpieces.After heating the desired temperature of the workpiece, at the exit from the inductor, it is sent to the next operation with the help of the workpiece discharger. The workpiece is loaded and unloaded , in this case, the heating in the slit inductor is carried out continuously, methodically. Continuous methodical heating of the blanks into the inductor has a positive effect on the operation of the inductor, since it does not experience sharp fluctuations in the load on the tube, which increases the reliability of operation and the efficiency of the inductor. The arrangement of the clip springs behind the water-cooled screen also has a beneficial effect on the durability and reliability of the heater. Apparatus of invention for heating the blanks, comprising a slotted inductor, transporting a rotor with guide sleeves and lever spring clips, connected to a rotating drive, a mechanism for loading and unloading blanks, characterized in that, in order to enhance the iade, the Rutor is filled with water in the form of water-cooled a hollow multi-petal disk with coolant inlet and outlet nodes, and the clip springs are located above the rotor. Sources of information taken into account during the examination 1.Slukhotsky A.Ye. Ryskin S.E. Inductors for induction heating. L., 1974, p. 242, fig. 17-2. 2. USSR author's certificate N 595397, cl. C 21 D 1/10, 1975. i % / X 18 . / luf i9 Dl