SU749944A1 - Asymmetric current supplying device for galvanic baths - Google Patents

Description

(54) INSTALLATION FOR POWER SUPPLY OF GALVANIC BATHES The invention relates to the field of galvanic equipment and can be used to supply an asymmetric current deposition bath. A known installation for supplying an asymmetric current to electroplating baths, which includes a voltage regulator connected to a power transformer and a parameter adjustment device (an asymmetric current containing rectifiers, to each of which a rheostat is connected in series. With the aid of resistors, the force current through each transmitter. The current in each arm is recorded by amps. By adjusting the current in one direction and the other, you can achieve any ratio of them, i.e. The value of the change in parameter (the value of asymmetry) also changes the average value of the current.

Claims (2)

The asymmetric current to the former by changing the voltage in the primary winding of the transformer will change the asymmetry parameter. Thus, only in a few steps, you can achieve the setpoint values of the icp - This setting is the closest to the proposed technical essence and the achieved result. A significant drawback of the device is also the difficulty of obtaining an asymmetric current of great values due to the low-tech control of the rheostats. In addition, the inclusion of rheostats in the power supply circuit leads to heat losses and a decrease in plant efficiency. The aim of the invention is to smoothly and independently adjust the parameters of the asymmetric current and increase the efficiency of the installation. The goal is achieved by the fact that the device for adjusting the parameters of the asymmetric current is supplied with an additional regulator, connected in parallel with the first, and an additional power transformer connected in series with the secondary windings with the first, and the thyristors are connected in series and connected to the secondary windings of power transformers so that the anode of one of them is connected to the beginning of the secondary winding, and od another - to a midpoint. In order to obtain a two-half period of the miter, the parameter control device is equipped with a non-switch and a diode, the cathode which is connected to the thyristor, and the anode with the secondary winding of the power transformer through a switch. FIG. 1 is an electrical installation diagram; in fig. 2 - time diagrams of currents. The installation contains a voltage regulator 1 of the average current value, an additional voltage regulator 2 for obtaining the specified asymmetry parameters (p), power transformers 3 l 4, thyristors 5.6 anodic and cathode half-periods, rectifying diode 7, switch 8 mode operation of asymmetric or post-current, a thyristor control transformer 9, DC ammeter 1O, showing the current mean value. At the same time, the output of the regulator of the voltage of the power source 1 is connected to the primary winding of the power transformer 3 and the voltage regulator 2, the output after the black is connected to the primary winding of the power transformer 4. The secondary current windings of the power transformers 3,4 are connected in series. Thyristors 5,6 are synchronized with the mains frequency connected in series and connected to the secondary windings of power transformers 3,4. The advantage of the installation is that it can add a single-half-current from transformer 3 and a sinusoidal from transformer 4 on the load into the anode half-life, and passing only the sinusoidal component from the power transformer 4 through the open thyristor 6 into the cathode half-period. Installation works as follows. The voltage of the single-phase network is fed to voltage regulator 1. Let the thyristor 5 be open and the thyristor 6 closed, then the sum of currents from the transformers 3 and 4 will pass through the load. When the mains supply voltage passes through zero, the thyristor 5 closes and thyristor 6 will open. Then, only the current from the transformer 4 will pass through the load. 2. By varying the voltage on the transformer 4 by adjusting the voltage of the voltage 2, it is possible to smoothly set the required value of the current asymmetry f regardless of the average value of the current. As can be seen from the timing diagram, the average current value is equal to the half-wavelength melee current obtained from transformer 3 and does not depend on the value of b. The value of asymmetry in this setting varies from 2 and above. . In practice, the applied value of asymmetry lies within the limits - 240. By switching the knife switch 8, the installation becomes the current source of the double-wave rectifier. In this case, the thyristor 6 is disconnected from the circuit, and the diode 7 is turned on. The use of two voltage regulators creates a south and a separate and smooth adjustment of the average current value and the asymmetry parameter. The average current value is monitored by an ammeter 1O, and the value is set on a pre-calibrated scale by voltage regulator 2. As a result of using the unit for powering baths during galvanic processes, the quality of the coatings will be improved due to accurate setting of current parameters. The exclusion of rheostats from the scheme will reduce heat losses and increase installation efficiency by an average of 30%. Claims 1. An installation for supplying electroplating baths with an asymmetric current, including a voltage regulator connected to a power transformer, and an asymmetric current parameter adjustment device containing rectifiers, ITO, for a smooth and independent adjusting parameters of asymmetric current and increasing installation efficiency; the parameter adjustment device is equipped with an additional voltage regulator connected in parallel with the first and additional power transformer connected successive secondary windings with the first, and the rectifying elements are made in the form of thyristors with a control transformer, and the thyristors are connected in series and connected to the secondary windings of the power transformers so that the anode of them is connected to the beginning of the secondary winding, and the cathode of the other - from the middle point. 2. Installation according to claim 1, that is, with a full-wave rectifier circuit, the parameter control device is equipped with a switch and a diode, the cathode of which is connected to the trististor, and the anode to the secondary winding of the power transformer black switch Sources of information taken into account when executing 1. Zpshtein A. A. Restoration of worn-out parts using the cold weather method on an asymmetric current. Seri S. - M .: GSSINTI, 1969, Mo 26- / 9-69. R / -W S 0 five