SU41093A1 - Coreless induction furnace feeding method - Google Patents

Description

; To obtain the high and high frequency currents required to power an electric furnace without an iron core, mechanically high frequency generators and, in some cases, cathode-lamp generators are commonly used. However, furnaces equipped with such generators have a number of disadvantages, of which relatively low returns and expensive operation in lamp furnaces and some bulkiness in furnaces equipped with high-frequency generators should be noted.

In order to obtain a furnace with high output and simple equipment, in which setting it when changing furnace parameters during the metallurgical process would go as simple as possible, a device is used in which a magnetron generator is used, consisting of one or several ION tubes magnetic control principle.

The present invention relates to methods for feeding such kind of electric furnaces. The essence of it is that in order to change the frequency

(527)

current, depending on the mode and voltage, change the frequency of the magnetic control current of the ion tubes of the generator. According to the invention, such a frequency change can be obtained by changing the rotational speed of the motor generator feeding the control winding of the equilibrium tubes.

Ion tubes are powered directly from the mains via a multiphase system, without a suitable rectifying device.

In drawing 1, a furnace without an iron core is represented, 2 is a capacitor to compensate for furnace-free power, 3-ion tubes, 4-coils through which a high-frequency current assigned to the magnetic control, a high-frequency or high-frequency generator, magnetic control 6-motor driving this generator, 7-shunt rheostat serving to change the frequency of the magnetic control generator 5, 8-reactive coils connected to the multiphase current supplying the ion tubes 9-blocking generator device capacitors.

The proposed device, in view of the low voltage drop in the ion tubes, provides a high efficiency of the entire furnace, much higher than that of a pure electron tube. In addition, the insignificant magnitude of this drop makes it possible to work with high efficiency and with a small cost of the entire device at relatively low voltages, which are necessary for the operation of a high frequency furnace. Under this last circumstance, this installation can be operated without an intermediate transformer between the generator, the device and the furnace. Having the ability to easily change the frequency of the magnetic control current, and hence the frequency of the current feeding the furnace itself, makes it possible to avoid switching off and switching the naturative capacitors at the furnace, as is the case in the furnace power supply system directly from a high or high frequency generator. At the same time you can also avoid interruptions in work, which

Needed for extracting high-frequency generator generator gfi furnace loop rebuilding.

In addition to the above scheme, it is also possible to implement the scheme not with parallel powering, but with sequential powering of the furnace, which, however, in most cases should be considered less rational.

The subject matter of the invention.

Claims (3)

1. Method for feeding a coreless induction furnace, characterized in that in order to change the frequency of the current depending on the melting mode, the frequency of the current of the magnetic control of the generator ion tubes is changed. 2. A method according to Claim 1, characterized in that the speed of the motor-generator that feeds the control winding of the ion tubes included in the kiln power target is changed. 3. In the method of claim 1, the supply of ion tubes via a multiphase system directly from the network. --TW - Fri