SU685729A1 - Unit for electrochemical treatment of items with asymmetric current - Google Patents

Claims (2)

(54) INSTALLATION FOR ELECTROCHEMICAL TREATMENT OF PRODUCTS BY AN ASYMMETRIC CURRENT Additional secondary winding, one end of which is connected to the same end of the main winding connected to the junction point of the electroplating baths, and the other end of the additional winding is connected to the middle point of the connection piece and the key- holder cage and the cable is connected to the connection piece of the electroplating bath, and the other end of the additional winding is connected to the middle of the connection piece. elements, the anode of one of which is connected to the anode of the additional bath, and the cathode of the other to the cathode of the main bath, the removal of the main secondary winding is connected to the middle point th additionally introduced and consistently included according rectifying elements, one cathode of which is connected to the anode of an additional bath, the anode and the other - to the main tank ka Tod ,. Such a connection of the windings and valves X to the electroplating baths allows, by introducing a constant component into the forward current pulses, to eliminate the dead time during the formation of an asymmetric current in both baths and thereby to increase the efficiency and productivity of the installation. The schematic diagram of the installation is given in the drawing. The installation consists of a main 1 and an additional 2 galvanic va of an alternating current source 3, a power transformer 4, controlled rectifying elements — thyristors 5–8, and a unit 9 for controlling thyristors. The primary winding of the transformer 4 is connected to the source 3, and the secondary is loaded on the galvanic baths 1 and 2, the secondary winding consists of the main and additional windings connected at point 10 with their similar terminals, i.e. Both windings. Included in the current rstrechno. each other. The number of turns of the main winding is more than additional. Galvanic baths are interconnected according to and sequentially by direct current, p their connection point is connected with point 10 connecting the main and additional secondary windings of the transformer. The secondary winding with its output 1 is connected to the midpoint of the sequential-according to the included thyristors 7 and 8, while the cathode of the thyristor 7 is connected with the cathode 12 of the main bath and the anode of the thyristor 8 - with the anode 13 of the additional bath. The output 14 of the winding is connected to the middle point in series with the connected thyristors 5 and 6, with the anode of the thyristor 5 connected to the main cathode, and the cathode of the thyristor 6 to the anode of the additional galvanic bath. The tap 15 of the main secondary winding of the transformer is connected to the midpoint of the diode 16 and 17 of the diode 16 connected in series with the primary cathode, and the cathode of the diode 17 to the anode of the additional galvanic bath. Thyristor control is performed by valve phase control unit 9. The installation works as follows. If the supply voltage from source 3 is positive. is applied to the tap 15, and the negative to the output 10 of the secondary winding of the power transformer, then at its terminals 11 and 14 there will also be a positive potential relative to pin 10. At this time, one component of the direct current flows from the anode to the cathode through the bath 2, then through the terminal 10, a part of the main secondary; the winding, its tap 15 and the diode 17 to the anode of the bath 2. When the thyristor 6 is opened, another current component is added to this current, also passing from the anode to the cathode of the bath 2, then through the entire main secondary winding from its output 10. to pin 14 to thyristor 6 to anode 13 of bath 2. The average value of this component of direct current is determined by the open state of the thyristor .6 and the parameters of the main secondary winding. At the same time, an additional secondary winding and an open thyristor 7 in the bath 1 from the cathode to the anode flow. A reverse current, the average value of which is determined by the parameters of the additional secondary winding and the open state of the thyristor 7. As the voltage on the windings decreases The direct and reverse components of the asymmetric current decrease and at zero current the diode 17 and thyristors 6 and 7 close. In the next half-period, the polarity of the voltage on the windings is reversed, changed and directed current in both baths. First, a diode 16 is opened, which conducts one direct current component through bath 1; the other component of this current flows through the thyristor 5 after it is opened by the block 9. The thyristor 8 in this same half-cycle ensures the flow of reverse current through the bath 2. Next, the process is repeated cyclically, and an asymmetric current flows through both baths, the average value of the forward and reverse components of which is regulated by the unit 9 for phase control of the valves. This unit can be performed by any known scheme that allows separate control of two pairs of thyristors 5, 8 and 6, 7. Thus, the invention makes it possible to increase both the efficiency of the installation and the efficiency of the electrochemical process as a whole. The invention The installation for the electrochemical treatment of products with asymmetric current according to ed. St. No. 377439, .o tl and with the fact that, with the Purpose of efficiency, the power transformer is provided with an additional secondary winding, one end of which is connected to the same end of the main winding which is connected to the junction point of the electroplating baths and the other end of the 6 96 additional The windings are connected to the midpoint of the series-according to the included controlled rectifying elements, the anode of one of which is connected to the anode of the additional bath, and the cathode of the other - to the cathode of the main bath, the removal of the main secondary winding n to the midpoint of the additionally introduced and sequentially according to the included rectifying elements, the cathode of one of which is connected to the anode of the additional bath, and the anode of the other to the cathode of the main bath. I feZ. l