SU101435A1 - Method of supplying electroplating baths from an AC network through an AC-DC converter - Google Patents

Description

There is a method of increasing the performance of galvanic baths by feeding them with a current with a periodic short-term alternating polarity and subsequent longer feeding times with direct polarity.

Changing the polarity of the direct current by switching poles at high currents presents considerable difficulties. There is a need to use bulky and expensive contactors that are unsuitable for this purpose (they do not provide short response times).

The proposed method solves the problem of reversing the DC current in electroplating plants powered from the AC mains through AC to DC converters without switching the poles of the DC circuit, than the process of changing the polarity of this circuit is greatly simplified.

According to the proposed method, the change in the polarity of the power supply circuit of the electroplating bath is carried out

On the AC side of the above converter. In this case, as the latter, a rotating mechanical rectifier can be used, to which the voltage is supplied from a step-down transformer. A software switch can be used to control the polarizing contactor in the AC circuit.

The drawing shows the electrical circuit of the device for carrying out the proposed method.

The device consists of a step-down transformer Tr1, a rotating mechanic rectifier / MB, a program switch, a contactor K on the AC side and a number of auxiliary mechanisms and instruments.

From the AC mains, through the switches P and the fuses Lr, the voltage is applied to the synchronized motor AD, which causes the collector of the mechanical rectifier A1B to rotate. The latter is powered by the Tr1 transformer, which

connects to AC through K1, K2, KZ and K4 contacts

contactor TO .-. 7.

When yabr taet the ends of the primary ooivtQTKH,.,. Transformer Tpi changes the polarity of the J at the output of the mechanical switch, i.e. at the terminals A. n B.

The switching of the ends of the primary winding of the transformer Tp is performed by coitactor K. The latter is controlled by the intermediate relay P, which in turn is turned on by the contacts of the polarized RP relay and program switch KV. The application of the latter provides the possibility of obtaining different time delays at the direct and reverse polarity of the voltage in the DC circuit. The windings of the relay P and the contactor K are fed from the rectifier CB, connected to the secondary winding of the auxiliary transformer Tr2.

The switch is driven by a cam mechanism, which receives the drive through a gearbox (not shown in the drawing) from the electric motor of the AD or a separate low-power synchronous motor.

In order to ensure the correct polarity of the PA terminals in the RP device, it is connected to the terminals A and B through the P2 contact, the rectifier of the rectifier R. In parallel, the RP relay switches on the capacitor C.

If, when the device is turned on, the polarity of the terminals L and S is correct, then the relay relay contacts will take the position shown in the drawing. In this case, the contact KV2 of the program switch will work, having turned on and off the contactor K and the required polarity change at the terminals L and B.

If, however, when the device is turned on, the polarity at the terminals will be opposite, then the contact RP1 of the polarized relay RP will close and the contact RP2 will open. In this case, the KBI contact of the software switch will come into operation. As a result, the polarity on the clips of A and B will change over time in the same way. as in the pervolt case.

Prev m s m and 3 o B R eteni

J. A method of supplying electroplating baths from an AC network through an AC-DC converter, the polarity of which periodically changes for a short period of time, is also distinguished by the fact that, in order to facilitate the process of switching poles, t on the AC side of the above converter.

2. A device for powering electroplating baths, controlled according to the method described in claim 1. characterized in that it consists of a step-down transformer and a rotating g mechanical rectifier.

3. The device for and. 2, characterized by the use of a software switch for controlling a pole-selectable contactor on the AC side of the converter, in order to provide a different time delay for the direct and reverse polarity of the supply voltage.