SU992616A1 - Apparatus for power supply of electroplating bath with cyclical current - Google Patents

Description

The invention relates to electroplating and can be used for the deposition of metals and alloys on metal products.

A device for powering galvanic baths is known, comprising a single-phase transformer, anodes and cathodes connected through rectifier elements to the secondary winding of the transformer. The process is conducted simultaneously in two series-connected baths [1].

A disadvantage of the known device is that for its normal operation, both baths must be loaded equally. In addition, if it is necessary to change the ratio of currents on the main cathode in each bath, it is necessary to change the area of additional cathodes.

• Closest to the proposed device is an electric power supply for a galvanic bath with a batch current, containing a transformer. to the secondary winding of which anodes of a galvanic bath are connected in series with rectifier elements, and cathode L 2 3 in opposite with rectifier elements.

A disadvantage of the known device is that it allows the anodes to dissolve with a periodic current with a 5 reverse pulse when a direct current is passed through the cathode and therefore is used only when the asymmetric current has a negative effect on the cathode deposits.

The purpose of the invention is the intensification of the deposition process and the protection of inert anodes from dissolution by passing through all cathodes a periodic current with a reverse pulse, and through the anode only pulse current.

This goal is achieved by the fact that in the device for electrical supply of a galvanic bath with periodic current containing a transformer, to the secondary winding of which anodes are connected in series with rectifier elements, and cathodes are connected to rectifier elements, cathodes are connected 25 to the secondary winding of the transformer parallel to the anodes moreover, the electrodes through which smaller anode currents are passed are connected to the secondary winding through alternating currents.

Instead of variable resistors, an additional secondary winding can be used, connected to the same poles of the main winding through diodes, and to the working electrodes through thyristors.

The drawing shows a schematic diagram of the proposed device (the phase control unit of the thyristors is not shown in the drawing).

The proposed device contains 10 single-phase transformer 1, the main secondary winding with terminals 2 and 3, rectifier elements (diodes) 4 - 7, through which the anode current is supplied, and variable resistors 10 and 11.

When using instead of resistors 10 and 11 an additional secondary winding with terminals 12 and 13, the device also has thyristors 14 and 15, through which anode current pulses are alternately applied to electro-20 and 16 and 17.

With this combination of rectifier elements, electrodes 18 and 19 are anodes operating in a pulsed mode, and electrodes 16 and 17 are cathodes through which periodic currents with reverse pulses are passed.

The device works as follows.

An option using resistors 10 and 11, which also allows you to use an autotransformer, while the additional secondary winding with terminals 12-13 and thyristors 14.15 are not mounted.

When a positive voltage is applied to terminal 3, the current through and the electrode 18 is supplied to 17. Simultaneously, the current through and the resistor 10 is supplied to 16 and then to the electrode 17. The cathode current on the electrode 17 is determined by the sum of the anode currents passing through the electrodes 18 and 16. The current from electrode 17 through the diode 8 is fed to terminal 2.

When changing the direction of the current, the current from terminal 2 through diodes 4 and 7 (and the resistor 11 is supplied to the electrodes 17 and 19 then to the electrode 16. The value of the anode currents on the cathodes 16 and 17 is set using resistors 10 and 11. The value of the total current is controlled by changing the number turns of the secondary winding.

When using instead of resistors 10 and 11 an additional secondary winding with thyristors 14 and 15, the installation works as follows 60 (circuits with resistors 10 and 11 are not mounted).

When a positive voltage is applied to terminal 3 of the main secondary winding, the current through diode 6, 25 diode 5 diode 5 electrode diode b electrode, the value is closed) and then to the direction t

thyristor 14 but current from and electrode 19 16.

In the case of cathodes, there is a secondary secondary capacitor and an open thyristor 14 (the thyristor is supplied to electrode electrode 17. At the same time, diode 5 and electrode 18 are supplied to electrode 17. When the current changes, the current from terminal 2 'through diode 7 has an additional secondary winding and open thyristor 15 is closed) enters the electrode 17 and then to the electrode 16 'through the diode 9 to terminal 3. At the same time »terminal 2 through the diode 4 enters the electrode

The value of the anode capacitance and 17 is regulated by changing the number of turns of the secondary secondary winding of the transformer of the secondary winding (more than the main one).

If in the proposed "device to change the polarity in" rectifier elements and the succession of thyristors 14 and the effect will work in rhenium.

(the number of turns is always small including <

15, in the device mode, the precipitation process is reversed; thus, the device intensifies the denia by passing ι through all cathodes with a periodic pulse and at the same time prevent the inert anode of platinum, platinum titanium, etc.) from dissolving by passing only 35 pulsed anode current through them.

The economic efficiency of production of coatings (when it is “intensified” and of the process is 50%, practically at the same cost of electricity with the prototype.

(e.g. from

1 £ 4) in comparison

The formula for generating an electric bath perio transforodes, and meeting with elements -

Claims (2)

1. Author's certificate of the USSR 730883, cl. C 25 D 21/12, 1977. 2. Authors certificate of the USSR 623910, cl. C 25.D 17/00, 1976.  1l-alU / U Allaal / LLLAAAL g / hllAll / Hapu z 7 f / Lll /; ii 8 ± f go f