SU1013519A2 - Device for supplying electroplating baths with cyclic back-pulse current - Google Patents

Abstract

DEVICE FOR POWER SUPPLY OF GALVANIC BATHS WITH PERIODIC CURRENT WITH REVERSE PULSE, qo auth.St. No. With the fact that, in order to improve the quality of the coating by extending the range of regulation of the duration of the reverse pulse, between the anodes of the thyristors that form the reverse pulse, a circuit is inserted consisting of a series-connected resistor and diode, the cathode of which, together with the cathode : IDs of two auxiliary diodes are connected to the anode of the thyristor, which forms the falling edge of the reverse pulse, the anode of one of the auxiliary diodes connected to a capacitor and the cathode of an all-inclusive diode, and the anode is a second second auxiliary diode connected to the cathode of the zener diode incorporated in the circuit of the control electrode of the thyristor forming the leading edge return them (L pulse.

Description

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The invention relates to a galvano technique and can be applied to the power of electroplating baths. According to the main auth. No. 933823, a device for supplying galvanic baths with a periodic current with a reverse pulse is known, which contains a tr phase transformer, rectifying elements, a resistor and instruments for monitoring the magnitude of the anodic and cathodic currents, and a meteor, the positive pole of which is connected to the anode of the bath, and the negative pole is connected to the cathode, and the third winding is loaded with a single-phase autotransformer, which is included with the third rectifier The coupling element according to the single-phase half-wave rectifier circuit, the cathode of which is connected to the cathode of the bath, and the thyristor, which forms the falling front of the reverse pulse, is shunted by a counter-on diode; between the anodes of the thyristor, which forms the leading edge of the reverse pulse, and the thyristor, which forms the falling edge of the reverse pulse, the capacitor is turned on and the thyristor cathodes are interconnected LI 1 The disadvantage of the known device is that it cannot receive reverse pulses of short duration, because of repeated operation thyristor, which forms the leading edge of the reverse pulse, the shortest duration of the flow of the reverse current is limited by the time of action of the signals on the control electrodes ditch At the same time, it is known that reducing the duration of the anodic process during one cycle when feeding a galvanic bath with a periodic current with a reverse pulse improves the quality of the coating. Thus, extending the range of adjustment of the duration of the reverse pulse allows one to choose the optimal technological mode of operation of the electroplating bath and to improve the quality of the coatings. The purpose of the invention is to improve the quality of the coating by expanding the range of adjustment of the duration of the reverse pulse. The goal is achieved by the fact that the device for supplying electroplating baths with a periodic Current with a reverse pulse, contains a three-phase transformer, rectifying elements, an resistor and instruments for controlling the magnitude of the anodic and cathodic currents, and two secondary windings of the transformer and two rectifying elements are connected the two-phase half-wave rectifier circuit, the positive pole of which is connected to the anode of the bath and the negative pole to the cathode, and one third of the winding is loaded with a single-phase autotransformer, the relay is connected to the third rectifier element according to the single-phase half-wave rectifier circuit, the cathode of which is connected to the cathode of the bath, and the thyristor forming the falling edge of the return pulse is shunted by the oppositely connected diode forming the back front of the reverse impulse is connected to a capacitor, and the cathodes of the thyristors are interconnected, and between the anodes of the thyristors that form the reverse impulse, a circuit consisting of directly connected to the resistor and the diode, the cathode of which, together with the cathodes of two auxiliary diodes, is connected to the anode of the thyristor, which forms the back front of the reverse pulse, and the anode of one of the auxiliary diodes is connected to the condenser. the cathode and the cathode of the counter-switched on diode, and the anode of the second auxiliary diode is connected to the cathode of the Zener diode inserted into the circuit of the control electrode of the thyristor, form the Piruyuschaya front front of the reverse pulse. The drawing shows the electrical circuit of the proposed device. The device contains thyristors, anodic and cathodic current control devices 5 and 6 and a three-phase transformer 7. Two phases 8 and 9 of the secondary winding of the transformer and thyristors 1 and 2 are switched on according to the two-phase half-wave rectifier circuit, the positive pole of which is connected to the anode 10 of bath 11, and negative - with cathode 12 of bath 11. Third phase 13 of the secondary winding of a transformer 3, loaded with a single-phase auto transformer 1, is connected to thyristor 3 according to the single-phase single-phase rectifier circuit, and the thyristor cathode 3 connected to the cathode of the thyristor k and the anode is counter-connected the diode 15 is connected to the cathode 12 of the bath 11, and the anode of the thyristor -3 and the capacitor 16 are connected to the sliding contact of the autotransformer 1 directly or through a current limiting resistor 17, the other side of the capacitor 16 is connected to the cathode diode 15. Between the anodes of the thyristors 3 and M, which form a reverse pulse, a circuit is connected consisting of a series-connected resistor a 18 and a diode 19, the cathode of which, together with the cathodes of two auxiliary diodes 20 and 21, is connected to the anode of the d Reverse pulse front. The anode of the auxiliary diode 20 is connected to the capacitor 16 and the cathode of the counter-switched diode 15, and the anode of the auxiliary diode 21 is connected to the cathode of the zener diode 22 inserted into the control electrode circuit of the thyristor 3, which forms the leading edge of the reverse pulse. The primary windings 23-25 of the three-phase transformer 7 are connected to the output terminals of the regulator 26 of the voltage of the three-phase current. The supply voltage is applied to the input terminals of the controller. The device works as follows. The voltage of the three-phase current network through the regulator 2b is applied to the primary windings 23-25 of the three-phase step-down transformer. The reduced voltage of the required value from the secondary windings (for example, 8 and 9) of the transformer is supplied to thyristors 1 and 2 and the half-full current of two phases received from them, flowing in the cathode direction, feeds the electroplating bath. During this time, metal is deposited on the cathode 12 of the bath. P. The voltage of the third phase through the single-phase autotransformer is applied to the thyristors 3 and. During a certain part-the period between two successive inclusions of thyristors 3 and the reverse pulse of the third phase is formed. The current of the reverse 19 pulse flows through the galvanic (vanna in the anode direction. The process of forming the reverse pulse proceeds as follows. In one of the half-periods of the voltage on the autotransformer k, when the potential of the sliding contact turns out to be lower than the fixed contact of the winding, a charge occurs the capacitor 1b through the counter-switched on diode 15. In the next half-period, the control electrode of the thyristor 3 receives a signal that determines the instant of the occurrence of the leading edge of the reverse pulse. the reverse pulse front is applied to the opening of the thyristor k. Through the open thyristor k, the voltage of the charged capacitor 1b is applied to the thyristor 3 and the polarity of this voltage is such that the thyristor 3 is locked. The open thyristor k through the auxiliary diode 21 and the zener diode 22 blocks the thyristor control circuit 3 and me allow it to be re-turned on upon receipt of the control signal. To lock, the thyristor C must remain open until the reverse half-period ends on the autotransformer 14. To this end, a circuit is provided consisting of a series-connected resistor 18 and a diode 19 through which the thyristor holding current 4 flows. Thanks to auxiliary diode 21, which isolates the control circuits, the voltage of the anode of the thyristor 4 does not fall into the control electrode circuit thyristor 3. The Zener diode 22 creates the necessary threshold for the thyristor 3 to operate at which it is securely locked. The stabilization voltage of the Zener diode should be chosen higher than the voltage drop on the open thyristor 4. The diode 19 prevents the capacitor 16 from discharging through the resistor 16. The auxiliary diode 20 serves to ensure that the capacitor recharges at the time of formation of the reverse flank of the reverse pulse, does not discharge through a resistor 18. The technical and economic efficiency of this invention is that the control range is s 1013519 l

The increase in the duration of the reverse impulse, thanks to the cheek by 12–15%, and the quality of electroplating of the back impulses of mastic coatings is improved.

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Claims (1)

PERIODIC CURRENT BATTERY POWER DEVICE WITH REVERSE PULSE, ηο ed. No. 935.823, characterized in that, in order to improve the quality of the coating by expanding the range of regulation of the duration of the return pulse, between the anodes of the thyristors forming the return pulse, a circuit is connected consisting of series-connected resistor and diode, the cathode of which together with the cathode: ; two auxiliary diodes under: the keys to the anode of the thyristor, forming the trailing edge of the reverse pulse ^,! moreover, the anode of one of the auxiliary diodes is connected to the capacitor and the cathode * of the counter-connected diode, and the anode of the second auxiliary diode is connected to the cathode of a zener diode inserted into the thyristor control electrode circuit, which forms the leading edge of the reverse pulse. ¹ 101