PL42576B1 - - Google Patents

Description

The invention relates to a transformer for high-frequency induction heating provided with a device for changing the inductance. In an induction heater, a transformer is usually used between the working loop, i.e. the inductor and the generator, in order to obtain the optimal resistance matching. The transformer connected to the oscillating circuit of the generator aims to transform the low operating resistance into a higher value. The increase of the inductance of the coil through which the alternating current flows is achieved by coupling the ferromagnetic core to the coil. In high-frequency currents, magnetodielectrics are used on the coils' core, i.e. iron of high frequency. Changes in inductance are made, for example, in such a way that the transformer ratio is changed by the use of a section that is axially inserted into the inner coil, which, depending on the depth of its penetration, changes the inductance of the coil, and thus the transformer ratio. known way to change others-. For ductivity, supply coils are used with a contact slider, sliding either in the direction of the coil axis or along a path (individual coils. The disadvantage of such devices is unreliable and inaccurate contact. The invention aims to avoid the disadvantages of these known devices. According to the invention, the known method of obtaining a greater inductance in the transformer by means of high-frequency iron rods embedded inside the core sleeve is used. Due to the remagnetization, eddy currents arise in these rods, which generate a considerable amount of heat, which is carried away by adequate water cooling In order to achieve a faster adaptation of the working resistance to the resistance of the generator, the transformer for induction heating by means of a high-frequency current, according to the invention, is so designed that inside the high-frequency iron cores made of soft magnetic material mainly non-metallic ferromagnetic ferrites of ferric oxide and one or more oxides of divalent metals and mixed crystals or chemical compounds of a generally known composition, a control coil is built-in, powered by a direct current or alternating current of low frequency, for controlled initial magnetization rods. In order to avoid induced stresses in the rods, a copper wire of three millimeters as a control coil is poured inside the rods, mixed with water glass, and a high-frequency iron core mass mixed with the rods. The single-filled coil wires are connected in series and powered by a direct current or alternating current of low frequency, which saturates the iron. The desired inductance change is achieved depending on the degree of saturation, which can be regulated by regulating the under-magnetizing current. According to the invention, the inductance in the device is controlled in such a way that the inductor connected to the transformer produces the same power density on the surface of the heated object. An embodiment of the invention is illustrated in more detail in the accompanying drawing. The high frequency transformer shown in FIG. 1 has a secondary coil 2 made of only one turn to which the inductor is attached. The primary winding 1 of the transformer is connected to the vibration circuit so that the load resistance can be matched to the resistance of the generator. The number 3 denotes a core sleeve containing high frequency iron rods 4, the axes of which are distributed over the cylindrical surface. These rods are filled with the control coil wires 5. Fig. 2 shows a core sleeve 3 with high frequency iron rods 4 and a control coil 5, viewed from above. The control coil conductors are connected in series so that the coil forms a meander. t PL

Claims (2)

Claims 1. High frequency induction heating transformer with an inductance change device having a high frequency iron core made of rods of soft magnetic material based on non-metallic ferrite ferrites with iron oxide and one or more divalent oxides -. of metals and crystals of mixed or chemical compounds of known composition, characterized by the fact that it has a built-in control coil (5) powered by a direct current or alternating current of low frequency, it serves for the controlled magnetization of the core, with the individual wires of the control coil they are placed inside tubular iron core rods (4), the axes of which are arranged on the cylindrical surface, and the individual coil conductors are connected in series so that the coil forms a meander. 2. The method of induction heating by means of a transformer according to claim 1 or 2, characterized in that the inductance is controlled so that the inductor produces a constant power density on the surface of the heated object. VEB Werkzeugmaschinenfabrik "Hermann Schlimime" Deputy: mgr Józef Kaminski, patent attorney For patent description No. 42576 Fig. I and PL