DE931610C - Arrangement for switching or regulating three-phase consumers with the help of gas discharge paths - Google Patents

Description

Arrangement for switching or regulating three-phase consumers with the help of gas discharge paths For switching or controlling three-phase consumers with the aid of gas discharge paths, a circuit with four gas discharge vessels has hitherto been available applied, two of which in the supply lines to two phase windings of the three-phase consumer lie, while there is no gas discharge vessel in the third winding of the three-phase consumer is provided. In these known circuits occurs in the two power supply lines, which contain the gas discharge paths, the burning voltage drop, while in no such drop occurs after the third feed. If you use the known If you want to avoid this asymmetry in the circuit, you also have to use the third conductor use two gas discharge vessels, so that a circuit with six gas discharge vessels results. With this known arrangement, the task of the invention is therefore only with relatively large effort to solve.

The invention relates to an arrangement for switching or regulating three-phase consumers with the aid of gas discharge paths, in which symmetrical switching is possible with significantly less effort. According to the invention, a star point of the three-phase consumer is formed for this purpose by gas discharge paths. The invention can be implemented, for example, in that the star point of the three-phase current consumer is formed by three individual gas discharge vessels connected in a triangle. An embodiment of the invention for such an arrangement is shown schematically in FIG. With i, 2, 3 a three-phase network is referred to, to which a three-phase current consumer with the three phase windings 4, 5, 6 is to be connected. Three individual gas discharge vessels 7, 8, g, connected in a triangle and located in the star point of the three consumer windings, are used for switching. This circuit is symmetrical with respect to the three phases. When they are used, it is thus possible to manage with half the gas discharge vessels in comparison to the above-mentioned known devices. In this circuit, however, the operating voltage drop occurs once within a current path and back twice. This disadvantage can be avoided in that, according to the further invention, the star point of the three-phase consumer is formed by a single gas discharge vessel with three cathodes. 2 shows schematically an exemplary embodiment for this. As far as the individual parts correspond to those in Fig. I, the same reference numerals are used. With io in this case, the gas discharge vessel is indicated that ii the three cathodes 12 1 3 has. In the figure, the vessel is only shown in principle. In the practical embodiment of the invention, the three cathodes will not be arranged in a plane but in a circle in order to obtain symmetrical voltage drops. By means of arrangements already proposed in a different context, the mercury level of the three cathodes is maintained at the same level in this gas discharge vessel. Similar to welding clocks, it can be controlled by means of a barrier or ignition pins. A power regulation can take place, for example, by partial control. For this purpose one can use the control of a grid controlled three-phase mercury vapor rectifier.

In Fig. 3 is one of the embodiment of Fig. I corresponding Arrangement shown in which the control of the three vessels 14, 15, 16, which also are connected in a delta here and in this way the star point of the three-phase current consumer 4, 5, 6, with the help of the ignition pins 17, 18, ig takes place. With the help of a double pole Switch 2o can be used to close the ignition circuits for these ignition pins. Similar like a single-phase contactor, consisting of two discharge paths connected in opposite-parallel with ignition pin control and dry rectifier through a mechanical auxiliary contact can be controlled, a three-phase contactor consisting of three discharge paths can also be used with ignition pins and dry rectifier can be actuated by this auxiliary contact 2o.

This arrangement in the star point of the consumer is shown in FIG. The circuit according to FIG. 3 can also be used analogously with a single gas discharge vessel with three cathodes, as indicated in Fig. 2, apply.

For very fast switching sequences, as they are, for. B. is required in resistance seam welding, an electronic control will be used with preference. One can then use, for example, a circuit as shown in FIG. Each of the three provided in the star point of the load 4, 5, 6 zündstiftgesteuerten discharge vessels 14, 15, 16 is classified here in the ignition circuit a grid controlled gas discharge vessel 21 to-22.23. A three-phase symmetry transformer 24 is assigned to the grids of these discharge vessels 2i, 22, 23. From a DC voltage source, in the exemplary embodiment from the battery 25, blocking voltage is supplied simultaneously via a voltage divider 26 for all three vessels 21, 2a, 23 and, when the control switch 27 is closed, control voltage is supplied. The switch 27 itself can also be a grid-controlled discharge vessel.

The circuit according to FIG. 4 can easily also be used for partial control expand by z. B. the corresponding surge windings in the three grid lines of a grid tax rate for three-phase mercury vapor rectifiers and the reverse voltage is increased by the peak voltage of the surge windings. the The switching arrangement shown in FIG. 4 with or without partial modulation can analogously can also be used in arrangements in which instead of the three gas discharge vessels 14, 15, 16 a single vessel equipped with three cathodes according to FIG. 2 for use comes.

Claims (9)

PATENT CLAIMS: i. Arrangement for switching or regulating three-phase consumers with the help of gas discharge paths, characterized in that by gas discharge paths a star point of the three-phase consumer is formed. 2. Arrangement according to claim i, characterized in that the star point is connected by three in a triangle Gas discharge vessels is formed. 3. Arrangement according to claim i, characterized in that that the star point is formed by a gas discharge vessel with three cathodes. 4. Arrangement according to claim 3, characterized in that the cathodes in a circle are arranged to achieve symmetrical voltage drops. 5. Arrangement according to claim i or one of the following associated with the three gas discharge paths Ignition pins, characterized in that the three ignition pins are controlled by a switching device can be connected to each other. 6. Arrangement according to claim 5, characterized in that that each of the three ignition pins has a grid-controlled discharge vessel in its ignition circuit is assigned, which are controlled by a three-phase balun transformer. 7. Arrangement according to claim 6, characterized in that from a DC voltage source (e.g. a battery or a dry rectifier) via a voltage divider and the windings of the symmetry transformer for all three grid-controlled discharge vessels simultaneously Blocking voltage and control voltage supplied when a control switch is closed will. B. Arrangement according to Claim 7, characterized in that the control switch itself is formed by a gas discharge path. 9. Arrangement according to claim 7 or 8, characterized in that the grid feed line to the three grid-controlled Discharge vessels are looped in voltage surge windings, as they are also used for Control of mercury vapor rectifiers with grid control for partial control be used. Attached publications: German patent specification No. 73o 64q ..