DE652048C - Device for the direct conversion of low-frequency three- or multi-phase current into medium- or high-frequency single-phase current with the aid of converters - Google Patents

Description

There has recently been the use of power converters provided with grids for the direct conversion of low-frequency three- or multi-phase electricity into medium- or high-frequency single-phase electricity for any purpose, e.g. B. for feeding induction ovens suggested. The supply transformer for the anodes of the converter is often on the Primary side with double windings in opposite directions per phase and on the secondary side is provided with a single-phase winding. Known bodies of this Art have the disadvantage that the grid control is very cumbersome.

It is also known to control the grid by the consumer himself by inductive, to make capacitive or galvanic coupling with the grid circles. Furthermore is the feedback control is common in high frequency transmission technology. The mode of operation of the control grid is, however, in the case of discharge paths with gas or steam filling completely different from the high-vacuum transmitter tubes. In high vacuum transmitter tubes it is about the modulation of the Discharge path through the grid control, in the case of discharge paths in gas or steam but the ignition point is influenced by the control grid. Will in the latter case So-called extinguishing grid is used, so in addition to the ignition, the premature Cancellation of the discharge can be brought about so that it is possible to reduce the anode currents at any time within the burning time of the respective working anode extinguish and re-ignite.

The invention is based on the idea of the feedback grating control for the To bring the purpose of feeding induction furnaces by converters into use.

The subject of the invention is thus a device for direct reshaping from low-frequency three- or multi-phase current to medium- or high-frequency single-phase current, especially for the operation of induction furnaces, with the help of self-commutated converters with gas or vapor discharge path and a supply transformer, which primarily has double windings in opposite directions for each phase, in order to achieve the simplest possible control of the grid according to the invention for the grid control control grid can be used, which extinguishes the anode currents at any point in time allow within the burning time of each working anode, and that for the Control of the grid during the furnace operation, the furnace circuit itself as a single-phase Grid power source is used.

In the drawing, an embodiment of the invention is shown schematically, in which a tube generator with an oscillating circuit as a high-frequency power source supplies the grid control. 1 means the low-frequency three-phase network with neutral 0 and 3 the feed transformer for the anodes 5 of the three-phase direct current converter 4. The feed transformer 3 has

in a known manner, primarily double windings per phase a, d or b, e or c, f opposite winding directions and a secondary single-phase winding g. The Einphasenwicklungg "feeds the furnace coil of the induction furnace ii. In series with the furnace coil, the capacitor 12 is connected to the reactive power compensation. To prevent overvoltages to / of the supply transformer during the current breaking of the anode current when · Delete thereof in the windings A of the Streuindukivität of the transformer windings arise, the double windings of each phase of the supply transformer are connected by diverting capacitors 14. Such capacitors can also be provided between the anodes and the cathode. The six anodes 5 of the converter 4 are preceded by extinguishing grids 15 are fed in the same direction by current flowing transformer windings, ie the grids 15 associated with the anodes 25 fed from the windings a, b, c or d, e, f are connected in parallel and via resistors 10 to the tube generator 16 supplying the control potential with oscillation circuits s 17 connected. The transformer connected upstream of the generator supplying the grid potential has a center tap which is connected to the cathode of the converter via the battery 8 which supplies a negative or possibly also positive grid bias voltage. A relay is also designated by 9, which is controlled by the current transformer 13 on the primary side of the supply transformer 3, and which short-circuits the generator in the event of a short circuit or backfire and thus blocks the grid control.

The method of operation of the device is as follows: The anodes 5 of the converter 4 receive low-frequency alternating voltage via the windings α to f of the supply transformer 3. As with a conventional AC / DC converter, only those anodes can take up current here that have a positive potential with respect to the cathode. In addition, only the positive anode whose grid is positive in relation to the cathode can ignite. The grid of the anode fed from the windings a, b and c are always positive with one another, ^ if the grid of the windings d. e and / fed anodes are negative, and vice versa. This also controls the grids of the anodes that are in the blocking phase, but can only ignite one anode at a time, namely only the one that currently has the highest positive voltage relative to the cathode. Since the grids used have the property of extinguishing a burning anode current, it is possible to control the current flow of a phase of the three-phase current '-'within the positive 120 ⁰ electrically in the rhythm of the high-frequency control alternately via the associated Transformer windings α and d, b and e, c and / to force. By selecting the grid bias, the ignition point of the detaching anode can either be set simultaneously with the extinguishing point of the burning anode or before or after the same. Measurements have shown that the anode current is extinguished in a very short time, because the state of quasi-neutrality in the space between the grid and anode is disturbed extremely quickly by the negative grid voltage. If a short circuit occurs in the load circuit or if reignitions occur on the anodes as a result of overloading or excessively high mercury vapor density, these are suppressed by short-circuiting the positive grid voltage by the relay 9, because then all the grids are negatively charged relative to the cathode and further anodes can no longer ignite . In view of the short service life of the tube generators, it is advisable to use them only when the induction furnace is put into operation, but for continuous operation to use a coil 18 connected in parallel to the oscillating circuit of the tube generator, coupled to the furnace field of the induction furnace and dependent on its natural frequency . After the furnace has started operating, this coil 18 is switched parallel to the oscillating circuit 17 of the tube generator 16 by the switch 19, the tube generator being shut down at the same time by opening the switches 20, 21. As a single-phase high-frequency power source, the coil 18 then supplies the grid control voltage for the converter in continuous operation of the induction furnace

An induction machine can also be used as a high frequency power source, at the z. B. while avoiding break contacts, the current by changing of magnetic resistance is generated. The single phase high frequency power source can either be sinusoidal or pointed, symmetrical or asymmetrical to the time axis Deliver curve shape.

Claims (5)

Patent claims: i. Device for the direct conversion of low-frequency three- or Multi-phase current in medium or high-frequency single-phase current, especially for the operation of induction furnaces Help from self-commutated converters with gas or vapor discharge lines and a supply transformer, the primary double windings per phase opposite Winding sense, characterized in that control grids are used for the grid control, the extinguishing of the anode currents at any point in time within the burning time of the respective working anode allow, and that for the control of the grid during the furnace operation, the furnace circuit itself as a single-phase grid power source is used. 2. Device according to claim i, characterized in that the high-frequency power source has a center tap and that this has a current source supplying a grid bias is connected to the cathode of the converter. 3. Device according to claim 1 and 2, characterized in that the high-frequency power source can be short-circuited by a relay that responds to a short circuit or backfire. 4. Device according to claim 1 to 3, characterized in that a tube generator supplies the grid control voltage with an oscillating circuit as a high-frequency power source. 5. Device according to claim 4, characterized in that one with the Apparatus fed by the single-phase current of the converter and dependent on the natural frequency of the same Coil is provided which is parallel to the oscillating circuit of the tube generator can be switched, and when the latter is switched off, the control potential for the anode grid of the Converter supplies in continuous operation. 1 sheet of drawings