DE1055715B - Vacuum induction melting furnace - Google Patents

Description

GERMAN

The invention relates to a vacuum induction melting furnace with two of one and the same alternating voltage fed, single-layer induction coils connected in parallel, which enables high temperatures to be achieved and allows the melting of large metal inserts.

It is known to use small amounts of metal contained in crucibles in evacuated furnaces Melt induction heating. This melting technique has proven to be useful for the production of small, high quality Melts and cast ingots proved to be extremely suitable. So far, however, resulted for the application of induction heating for the operation of larger vacuum furnaces that require higher Require coil voltage for the purpose of increased energy supply to the melt charge, especially considerable difficulties for high vacuums in the range of fractions of a millimeter of mercury and obstacles. These are based on the creation of undesired arcs and erosion ao phenomena caused by ionization and glow discharges between the furnace housing or other Form metal parts of the crucible and the zones of high potential of the coil or the leads. The need for intensive water cooling of the coil itself and the leads adversely affects the operational safety, since large leaks occur due to burn-off in contact with the highly refractory building material and / or with the metal Amounts of water vapor or hydrogen occur in the furnace housing that are extremely high Internal pressure or even to the destruction of the furnace by oxyhydrogen explosions, with the oxyhydrogen gas ignited by the molten metal. Such cases of damage are already at various Furnace setups occurred.

In view of the aforementioned difficulties when using higher voltages, the general endeavor has emerged not to solve the problems of ionization or glow discharge and arcing, but to avoid their occurrence by using relatively low voltages for the application of the induction coil, which do not exceed 300 to 400 ^{1 VoIt.} The adaptation of the increased energy requirement to the above-mentioned limit value of the voltage makes it necessary to use high currents and heavy conductors for coils with only a few turns. Accordingly, the given energy requirement for an adequate melting rate of a larger batch has practically led to a decrease in the efficiency of the furnace, which is due to the combined effect of ohmic losses, eddy current losses and the SMn-

Applicant:

German gold and silver refinery

formerly Roessler _r
Frankfurt / M., Weißfrauenstr. 9 ·

MiIo PeIc Hnilicka Jr., Concord, Mass. (V. St. A.),
has been named as the inventor

effect is based in massive ladders. Even the uniformity the energy coupling between the charge and the induction coil, which is only a few Includes turns with very large cross-sections, is adversely affected.

The theoretical limit for the maxim;
Melting chaxge is given by the inductive resistance of a coil with a single turn, which on the one hand must surround the molten charge and on the other hand must not exceed the upper limit of the voltage at the desired high current. In practice, a single turn coil is not applicable. For these reasons, up to now a maximum of more than half a ton of melt material could not be safely processed in a vacuum furnace. to generate the high capacitive currents at low voltages to tune the coil.

They are induction coils connected in parallel and fed with the same voltage from the same power source known, wherein two furnace coils are wound in opposite directions. One would like that Using coils in a vacuum furnace would also work across the narrow gap between the Crucible frames and / or the hot refractory material near the pouring spout a large one Voltage gradients arise, so that undesirable in particular when metal vapors occur Arc and burn-off phenomena can occur, which are caused by ionization and glowing

909 507/477

3 4

discharges between the furnace housing or other occasional melting process required energy supply

Metal parts of the crucible and the high zones are reduced by a factor of 2, while the

Form the potential of the coil or the leads. Current through each coil conductor to a quarter of the

According to the present invention, this amount is reduced, which has to be applied with difficulties compared to the prior art 5 with current arrangements. As a result, the two induction coils also reduce the ohmic losses and the vortices are wound in opposite directions in a known manner entire tion coil with the adjacent inner ends of the coil assembly is significantly improved.
io distributed over the upper and lower part of the crucible, of course, the construction of a coil is connected to other induction coils, whereby the conductors, whose cross-section is reduced to 25% of the usual circuit for the other induction coil by one, is considerably simpler,
bridge connecting their outer earthed ends from the standpoint of simple construction and that is closed. Installation is simplified after a

Accordingly, the preferred embodiment of the double coil arises over the narrow gap 15

between the crucible frame and / or the hot energy through a coaxial, three-conductor

high-melting material supplied in the vicinity of the casting standing supply element. The inner one

don't breathe a stress gradient. The alternating current conductor is preferably connected to the

potential increases linearly with the turns of the coil end of the central coil, while the outer to the end

leads from zero at the outer ends of the half-coil to the other end and the middle conductor is advantageous

a maximum at the connection of the power supply earthed and so with the outer ends of the two

to the central coil. Because this current half-coil is connected.

Feeds at the connection points of the central The object of the invention is based on the Coil with the half-coils, which are further explained on the largest schematic Fig. 1. To club potential stand above the crucible frame; in a quarter of the total coil length of coil, part of the coaxial supply organ that at each end is the area of the power supply and a small section of the The maximum potential of the coil is shown at a convenient distance from the vacuum furnace. The vacuum tight the top and bottom of the crucible, d. h "that the furnace wall is denoted by 10, while the all-voltage gradient (V / cm), the one between the 30 common arrangement of the crucible indicated by the dashed line cut the coil and the crucible support body, line 12 is set. The crucible has a pouring thru this arrangement below the ionization nozzle 13. 14 denotes excerpts from the threshold can be maintained. On the central grounded metallic. Carrier for the crucible. Around Coil and the two sections of the half-coils can lie the crucible, the central coil 15 and the two the full generator voltage of, for example, 35 half-coils 16 and 18. At the two ends of the 800 volts are abandoned. However, since the over-inner coil 15 is the supply lines 20 and bridge is grounded to the outer coil, results 22nd, which is connected to the high voltage ends of the coil 16 that the coil with respect to the crucible at one end and 18 are chained accordingly. The outer ones operates with a potential that is not higher in each case. The ends of these half-coils are connected to a bridge 23 than + 400VoIt is. At the same time is connected to the other 40, which is grounded. The lead 24 is in End a negative voltage of 400VoIt and dis- connect to the grounded middle conductor 32 speaking the other way around during the next half, the one to the coaxial feed member 26 period, so that no section of any coil ever belongs. This supply organ consists of the mais more than half of the generator voltage inner conductor 28, an insulating layer surrounding it (400 volts) to earth. If it is desirable 45 30, the middle grounded conductor 32nd, another appears, the center point of the central insulating layer 34 and the outer conductor 36. This Coil to be grounded, preferably with the arrangement is insulated at 38 and vacuum-tight through Help a little resistance. the furnace wall 10 out. The power supply lines

This arrangement of the induction coil, which the connections 44 and 46 connect the coaxial feed member

application of a higher generator voltage, connected to a suitable generator 40 and a condenser

with a reduction in the voltage gradient satorbatterie 42.

After a preferred embodiment of the safe operation of the coil at a higher level, the generator operates at a frequency energy level which the above-mentioned limits of one of 960 oscillations per second. The coils beSpule significantly exceeds one turn. Also 55 are made of copper pipes, which can be cooled economically by means of suitable water connections The figure is not reduced in size of the fixed capacitor, with a water passages shown below in the coaxial feed-in transformer, if necessary, being provided without any device 26. Such can become. The arrangement of the coil in accordance with the order causes the uniform distribution of the invention thus makes it possible, on a technical scale, cooling water flow in both coils.
The present invention offers the additional advantage of lead and cast ingots of several tons in that they provide improved coupling and energy eyes. It thus represents a considerable technical gie distribution effect when the crucible is only partially advanced to increase the capacity of vacuum-charged with molten metal. When the furnace is the first batch melted, the crucible is usually

Because the applied generator voltage is twice as much only half filled. In the known device large is like the actual maximum potential at gene with two coils connected in parallel results in the the coil, the generator current for the 7 ° presence of molten metal in the lower

Claims (3)

reti coil and the lack of metal in the top coil make a quite significant difference in the inductive resistance of each coil. This leads to a very serious imbalance in the currents in the coil fields. In the known device, in order to avoid this disadvantage, one of the coils connected in parallel is switched off, so that only one of the coils is still effective. In the present invention, on the other hand, this imbalance is effectively eliminated without the use of a switch by distributing the effect of a half-full crucible between half of the central coil and the lower half-coil. Therefore, each of the coils operating in parallel consists of the same number of turns with and without molten metal, so that an imbalance is avoided. Claims: 20 1. Vacuum induction melting furnace with two fed from one and the same alternating voltage, in parallel switched single-layer induction coils, the magnetic fields of which have the same direction, thereby characterized in that the two induction coils are wound in opposite directions in a manner known per se are in such a way that the connections of the middle induction coil with the neighboring inner ends of the other induction coil distributed on the upper and lower part of the crucible are connected, with the circuit for the other induction coil through one of its outer the bridge connecting the earthed ends is closed. 2. Vacuum induction melting furnace according to claim 1, characterized in that the middle Induction coil wound in opposite directions to the upper and lower part of the other induction coil is. 3. Vacuum induction melting furnace according to claim 1 or 2, characterized in that the Induction coils are fed via a feed member with three coaxial conductors, the inner conductor with one end and the outer conductor with the other end of the middle induction coil is connected and the middle conductor is grounded. Considered publications:
French patent specification No. 713 498. 1 sheet of drawings © 909-507 / 477 4.59 DRAWINGS SHEET ISSUE DATE: APRIL 23, 1959 KL.21h 18/10 INTERNAT. KL. H 01 b I I ty ,,