SU1001310A1 - Storage battery charging device - Google Patents

Description

The invention relates to secondary power sources and can be used for automatic charging of batteries.

A device for monitoring a battery in charge is known, containing a charge node, a load resistor, a discharge current sensor, a display unit, a discharge key, a controlled battery shunting through a discharge resistor, and a multi-level threshold element providing periodic switching of the battery. a torus to a discharge through the above resistor 1. The closest in technical essence to the present invention is a device for charging and automatically disconnecting batteries, which contains a regulating type a torus, a zener, setting a triggering threshold equal to the voltage of a fully charged battery, a comparator circuit, which is a relaxation generator on a single junction transistor with a time reference circuit, including a capacitor. During the charging process, the ak-, cumul torus comparator produces pulses that open the thyristor and

providing a pulsating current in the charge circuit. When the threshold voltage of the Zener diode is reached, generation is disrupted and the source of the charging current of the C2 battery is disconnected.

In this device, the voltage across the battery is measured in charge mode, which does not give

10 sufficiently accurate information on the degree of charge of the battery.

The purpose of the invention is to improve the accuracy of determining the degree of charge of the battery in the process. 15 d.

This goal is achieved by the fact that a device for charging a battery containing a thyristor regulating charge rectifier,

20, a phase control circuit including a capacitor, a drive circuit time and output terminals, parallel to the output terminals, a potentiometer is turned on AND a discharge circuit consisting

25 of a resistor and a key, between the potentiometer slider and one end of the cond (the sensor consists of a chain of two diodes, a zener diode and a thyristor, with the anode of the first diode connected

30 with a potentiometer slider, and a cathode with a zener diode cathode, the second-diode anode is connected to one capacitor plate, and its cathode is connected to the thyristor anode and zener diode anode, thyristor cathode, and the second capacitor plate is one of the potentiometer leads connected to the negative output terminal, and the thyristor control output and the bit of the discharge circuit are connected to the newly entered mode control unit.

The drawing shows a schematic diagram of the device.

The device contains a full-wave single-phase rectifier 1, a regulating thyristor 2, a discharge resistor 3 and a discharge thyristor switch 4, a phase control circuit of the regulating thyristor containing a single junction transistor 5, a resistor B and a capacitor 7 of the reference time, a mode control unit 8, and also a chain consisting of a potentiometer 9, diodes 10 and 11, a zener diode 12, a thyristor 13 and an indicator lamp 14. A charged battery 15 is switched on in series with a regulating thyristor.

The device works as follows.

When the power is turned on, the phase control circuit generates pulses enabling the regulating thyristor 2, and a pulsating current flows in the circuit of the charged battery. Diodes 10 and 11, the thyristor 13 are locked at the same time and do not affect the operation of the phase control circuit. After some time, the mode control unit sends a signal to the thyristor 13 and the bit switch 4 simultaneously. The thyristor 13 is unlocked and the time of the driver circuit is bridged by the Capacitor, which leads to the removal of control pulses from the regulating thyristor 2, which is locked. The battery 15 is discharged through the key 4 and the resistor 3. If the voltage on the slider of potentiometer 9 is proportional to the battery voltage, less than the threshold voltage of the Zener diode 12, then after removing the Signal by the control unit from the thyristor 15 and the discharge key 4, the phase control circuit will begin to generate pulses and a charging current will act in the battery circuit. If the voltage on the battery turns out that the zener diode 12 opens, then in the chain battery 15, potentiometer 9, diode 10, zener diode 12, the thyristor 13 will act direct current, keeping the thyristor 13 in the open state. The removal of the control signal by the mode control unit from the thyristor 13 will not change its state, i.e. it will now be constantly open, and the regulating thyristor 2 will be locked, i.e. there is a disconnection of the charge current that is signaled

Burning indicator light 4.

The use of the proposed device to prevent overcharging of batteries will significantly

to increase the accuracy of determining the moment of the end of the battery charge, which will eliminate the possibility of recharging, as well as increase the reliability and expand the operational capabilities

devices.

Claims (1)

1. USSR author's certificate number 760249 ,, class. H 01-m 10/48, 1978. 2 Patent of Great Britain No. 1468513, cl. G 3 R, 1977. 0-