SU369858A1 - Device for electric power supply of plasma-arc unit - Google Patents

Claims (1)

(54) PLASMA POWER SUPPLY DEVICE Known are devices for powering a flame arc installation containing an inductively-capacitive current stabilizer, to the output of which a power rectifier is connected via a transformer, and to initiate an auxiliary plasma torch. The installations for powering high-power plasmatrons (1OO-2OO A current) are subjected to a number of requirements, the main ones being the increment of the operating current from a certain minimum value to the nominal and automatic reversal of the auxiliary electrode arc (plasmatron nozzle) on the main (product). A sharp increase in the operating current of the plasmatron from zero to the nominal value is unacceptable, as it leads to double arcing, increased electrode erosion, metal spatter and deterioration of the weld quality (burning) in the initial part of the treatment. . ARC INSTALLATION The proposed device is equipped with a capacitor connected via an auxiliary rectifier in parallel with the auxiliary winding of the transformer. Such an implementation of the device allows us to improve the conditions for starting the plasmatron and bringing it to a predetermined mode of operation. FIG. 1 is a schematic diagram of the device described; in fig. 2 graphs of voltage changes across the capacitor and currents of the main and auxiliary arcs. The device contains a three-phase inductive-capacitive converter (IEP) - current stabilizer 1 (can be assembled according to any of the known schemes), an output matching transformer 2 with a perivic winding NV, and two sets of secondary windings of the main (working) NV and auxiliary (/ j, main 3. aI auxiliary 4 rectifying bridges, starting capacitor 5, oscillator 6, resistors 7 and 8, coil of current relay 9 with contacts 3 and block contacts 11 of the scraper 12. Plzmatron 13 of the arc-arc installation includes electrode 14 and nozzle 15, When When the device is connected to the network by the starter 12, an oscillator that ionizes the air gap electrode 14 is coppo 15. At the same time, the starting capacitor 5 starts charging with (see FIG. 2). Up to the moment t, the voltage Vc increases linearly on the capacitor The charge current does not change due to the presence of IEP (the magnitude of the charge charge in the transformation ratio is less than the output current of the IEP.) The voltage across the gap electrode-nozzle smoothly rises, and at time t, this gap occurs, due to there is a current Lad podo atelnoy arc (chain: 3 mos - current relay 9 - resistor 7 - the coil oscillator 6 sopglo interval 15 - the electrode 14 - the bridge B). The current smoothly increases (at the same time it decreases by the charge of the starting capacitor) and, by the time-b, it assumes the value necessary for the occurrence of the main arc. At this moment, the potential of heating # 16 with respect to the electrode (cathode) 14 becomes higher than the potential of the nozzle 15 and the main arc 14 is automatically ignited — product 16. Current turnips 9 are triggered and the ID contacts disconnects the auxiliary arc. The current d of the main arc at time t ij does not exceed in advance the calculated value oi in H, thereby smoothly increasing to the nominal value S / c as the starting capacitor 8 is charged. At this start, 11PP.CM / 1TrON 1 is completed. Its further operation takes place at a stable nominal current JH PR of the device being switched on from the network. The capacitor 5 is discharged to the resistor 8 with the help of auxiliary contacts 11, preparing for the next operation cycle. The capacitance of the capacitor 5 and the number of turns of the winding Wj are chosen based on the required rate of increase of the arc current. Thus, the use of a starting capacitor allows one to obtain both an automatic transfer of the auxiliary arc to the main and a smooth increase in the operating current. Main and auxiliary plasmatron arcs. This significantly improves the quality of the plasma treatment of metals, since it eliminates double arcing, spattering of metal, and burning products in the initial processing area. Claims An apparatus for supplying power to a plasma-arc installation, comprising an inductive-capacitive current stabilizer, to the output of which, through a transformer, is connected a scrambler, and an oscillator for initiating an auxiliary arc of the plasmatron, characterized in that outputting it to a predetermined mode of operation, it is equipped with a capacitor connected via an auxiliary rectifier parallel to the auxiliary winding of the transformer. . Vug, 2