RU2077102C1 - Device for reconditioning galvanic cells and for storage battery charging with asymmetric current - Google Patents

Abstract

FIELD: electrical engineering. SUBSTANCE: device has three capacitors, two diodes; one lead of first capacitor is connected to first input terminal and its other lead, to positive output terminal of device; first-diode cathode is connected to positive output terminal of device and second-diode anode, to negative output terminal and second input terminal of device; one lead of second capacitor is connected to first input terminal of device and its second lead, to first-diode anode and to second-diode cathode; novelty is that two light-emitting diodes and resistor are additionally introduced; first light-emitting diode is connected through its cathode to positive output terminal of device and its anode is connected in series with third capacitor and first input terminal; second light-emitting diode is connected through its cathode to negative output terminal of device and its anode is connected in series with resistor and positive input terminal. EFFECT: improved design. 1 dwg

Description

 The invention relates to the electrical industry and is intended for charging, forming batteries (AB) and the regeneration of galvanic cells.

 A device for regenerating elements and a charge of an AB by an asymmetric current [1] comprising an alternating current source, two capacitors and two valves, the anode of one of which and the cathode of the other are connected to the output terminals of the device, the alternating current source forms a three-beam star with capacitors, which is connected to one capacitor branch to the common point of the valves, and other branches to the output terminals for connecting the rechargeable battery. The disadvantage of this device is that there is no indication of the battery charge process or the regeneration of chemical elements.

 In this case, a device is known for the regeneration of galvanic cells and battery charge by an asymmetric current [2], which is an analogue containing three capacitors, two diodes, the first capacitor is connected by one output to the first input terminal, and the other output by a positive output terminal of the device, the first diode is connected by a cathode to the positive output terminal of the device, the first diode is connected by a cathode to the positive output terminal of the device, the second is connected by the anode to the negative output and second input terminals devices, an ory capacitor is connected by one output to the first input terminal of the device, and by another output to the anode of the first diode and the cathode of the second diode. This device provides an indication of the charging process directly using a neon indicator lamp. The disadvantage of this device is that for the functioning of the neon indicator lamp for its intended purpose, two additional diodes are required.

 The proposed device for the regeneration of galvanic cells and battery charge with an asymmetric current, containing three capacitors, two diodes, the first capacitor is connected by one terminal to the first input terminal and the other terminal to a positive output terminal of the device, the first diode is connected by a cathode to the positive output terminal of the device, the second connected by an anode to the negative output and second input terminals of the device, the second capacitor is connected by one output to the first input terminal of the device, and the other to the output with the anode of the first diode and the cathode of the second diode, additionally contains two LEDs, a resistor, the first LED is connected by a cathode to the positive output terminal of the device, and the anode is connected in series with the third capacitor and the first input terminal, the second LED is connected by the cathode to the negative output terminal of the device, and the anode is connected in series with a resistor and a positive output terminal.

 The drawing shows a diagram of the proposed device.

 A device for the regeneration of galvanic cells and battery charge with an asymmetric current, contains three capacitors 1, 2, 3, two diodes 4, 5, the capacitor 1 is connected to one terminal with input terminal 6, and the other terminal to positive output terminal 7 of the device, diode 4 is connected a cathode with a positive output terminal 7 of the device, a diode 5 connected to the anode with a negative output terminal 8 and an input terminal 9 of the device, a capacitor 2 connected to one terminal with the input terminal 6 of the device, and the other to the anode of the diode 4 and the cathode d iodine 5, two LEDs 10, 11, resistor 12, LED 10 is connected by a cathode to the positive output terminal 7 of the device, and the anode is connected in series with a capacitor 3 and input terminal 6, LED 11 is connected by a cathode to the negative output terminal 8 of the device, and the anode is connected in series with resistor 12 and positive output 7 terminal.

 The device operates as follows. During that part of the positive half-period of the mains voltage, when the voltage on the capacitor 2 is greater than the EMF of the recharged battery or the regenerated cell (RE), the charging current flows through the capacitor 2, diode 4, the positive output terminal 7 and the battery, or the battery, and the rest of the battery period or RE discharges through capacitor 1, input terminal 5, AC source, input terminal 9, and output terminal 8.

 When the positive half-cycle voltage reaches the ignition voltage of the LED 10, it is ignited in the circuit: AC source, input terminal 6, capacitor 3, LED 10, output terminal 7, AB or RE, output terminal 8, input terminal 9, AC source. During the negative half-cycle, LED 10 does not light.

 In the absence of a charging current (if the charge circuit is broken or a sufficiently large internal resistance of the AB or RE) during the negative half-cycle of the mains voltage, the capacitor 1 is charged to the amplitude value of the mains voltage and this voltage is maintained constant throughout the rest of the half-cycle. In this case, the LED 10 does not light up, since during the positive half-cycle the voltage difference across the capacitor 1 and the instantaneous mains voltage is insufficient to ignite the LED 10.

 When charging an AB or RE to the end-of-charge voltage, LED 11 lights up along the circuit: positive output terminal 7, resistor 12, LED 11, negative output terminal 8. Ignition of LED 11 when the AB or RE is connected to output terminals 7, 8 and before connecting the device to to an alternating current source indicates the inappropriateness of the charge of an AB or RE.

Claims (1)

 A device for the regeneration of galvanic cells and battery charge with an asymmetric current, containing three capacitors, two diodes, the first capacitor is connected by one terminal to the first input terminal and the other terminal to a positive output terminal of the device, the first diode is connected by a cathode to the positive output terminal of the device, the second is connected anode with a negative output and second input terminals of the device, the second capacitor is connected by one output to the first input terminal of the device, and the other output from the anode m of the first diode and the cathode of the second diode, characterized in that it additionally contains two LEDs, a resistor, the first LED is connected by the cathode to the positive output terminal of the device, and the anode is connected in series with the third capacitor and the first input terminal, the second LED is connected by the cathode to the negative output terminal of the device , and the anode is connected in series with a resistor and a positive input terminal.