DE510599C - Method for operating induction melting furnaces with multiple channels - Google Patents

Description

Form a specific group of induction furnaces for melting metals those furnaces in which the heat is generated in a completely filled melt channel will. In this case, the capacity of the melt channel is only a fraction of the total furnace content. Even if these ovens are also highly efficient because of their high efficiency ίο Power factor must be very economical However, one can reckon with the disadvantage that precisely because of the narrow dimensioning of the Melting chute feeding the furnace in these places becomes unusable, the furnace goes out of service and has to be delivered again. Clogging of the gutter Non-conductive foreign bodies, overgrowth of the same, breakthroughs in the metal through the Feed through as a result of overheating ao are the cause of this. When calculating of the operating costs for such a furnace are therefore the prime costs for the Feed is a major factor.

The present invention makes it possible to reduce the amount of these costs substantially by multiplying the life of the chuck. Fig. Ι and 2 shows the design of an induction furnace. The melting channel d, which forms the secondary side of the transformer with the primary coil β and the yoke / ', opens into the bath space α at b and c. Above the gutter d a further groove g is indicated, which, however, is not related to the bath room so far in compound h as the mouths and are terminated by plugs i from the ^r for the furnace \ erwandten lining material after the bath room through.

The furnace is currently working with the channel d. This lies here in the plane of symmetry kl of the primary coil e. If the channel becomes unusable due to the above-mentioned circumstances, the furnace is emptied, the bottom of the furnace is filled up to the lower edge of channel g (Fig. 3), the opening points h and i are pierced and the same electrical conditions for the new channel as To achieve in the earlier channel, the transformer coil moved so far that it is now symmetrical to the channel g . The furnace can then be put back into operation for the second time. This continuation is possible as long as appropriate reserve channels are formed. This extends the service life many times over with only a small amount of additional lining material.

It happens that when the stove is kept warm on Sunday due to a power failure the gutter cools down and then tears off shortly before it flows into the bathroom. Through this In normal cases, the furnace would have to be relined. At the given This arrangement is not necessary. Because only like that when keeping the oven warm there must be a lot of metal in the furnace so that it covers the channel that is in operation, it is now possible to open the next channel up, new liquid Fill in metal and thus make the furnace operational again. The out of order Gully that has gone is then steadily dissolved again by the liquid metal and so on this channel will also be preserved for operation.

Claims (1)

Claim: Method for operating induction melting furnaces with several troughs, characterized in that the troughs are put into operation individually and one after the other and that the displaceably arranged primary winding is shifted so that the newly commissioned g ₅ trough operates under the same electrical conditions as the channel that was previously in operation. 1 sheet of drawings