SU658657A1 - Automatic storage battery charging-discharging arrangement - Google Patents

Description

(54) AUTOMATIC DEVICE FOR CHARGING AND DISCHARGING BATTERY EATAPSti

BACKGROUND OF THE INVENTION The invention relates to battery charging and discharging devices.

An automatic device for charge-discharge of a battery is known, which contains a transformer, a thyristor converter, a thyristor control unit, a stabilization unit, and a power supply unit for the control unit 1.

An automatic charge-discharge device is known that contains input terminals, a power transformer, a thyristor rectifier-inverter, a current sensor, a reversing device, a thyristor control system, a system for stabilizing output parameters made on a magnetic amplifier, an automation unit, a source of direct current and a stop relay with a moderator acting on opening 21 When the device is disconnected from the AC mains, current surges in it are possible due to the reserve of magnetic energy in the power transformer re. Such a mode occurs in Cviy4ae when the device turns off with the presence of a current pulse in the power circuit.

The purpose of the invention is to eliminate this drawback and improve switching when the device is disconnected from the AC network.

This goal is achieved by connecting the start of one of the control windings of the magnetic amplifier to the negative terminals of the DC source and the newly introduced field p1I) of the capacitor, the positive terminal of which is connected to the moving contact, the stop relay contact group, the disconnecting contact of which is connected , and the closing contact - to the terminal of the control winding. The coil winding of the magnetic starter is connected to the input to the yemma through an interrupting contact with the retarding relay.

FIG. 1 shows the 6jroK-cxeMa of the proposed device; in fig. 2 - schematic diagram of the stabilization unit.

The device contains a magnetic starter 1, in the chain of the coils of which contact is made with a moderator 2, acting when the stop relay is activated; push button switch 3 with closing end

TPii-riiiM, 1.1 wigproviiig. iicJiXMa.iijiio otk ü, the 1st contact of the magnetic actuator 4; power transformer 5; an alternator-nipertor 6; recovery unit 7; rechargeable battery 8; current sensor in power penalty 9; thyristor control system, inverter rectifier 10; block stabilization output parameters of the device P; automation unit 12; power supply unit 13 and stop relay 14.

The stabilization unit P consists of a magnetic amplifier with a DC output, which includes a resistor 15 and three control windings: feedback 16, setting 17 n auxiliary 18; polar capacitor 19; switching contact groups 20 of the stop relays and resistors 21 and 22.

The device works as follows.

Pressing the switch 3 triggers the magnetic starter 1, the normally open contact of which 4 bypasses the switch 3, connected to the AC power transformer 5. The thyristor rectifier-inverter 6 starts charging or discharging the battery 8 connected to the rectifier commissioner 6 through the reversing unit 7. The magnitude of the current in the circuit is set by the automation unit 12 by acting on the driver winding 17 of the magnetic amplifier. The output parameters of the device are stabilized by the stabilization unit I, which receives information about the deflected and actual values of toKa from the given value from sensor 9, the voltage which has affected the control winding 16 of the magnetic amplifier. As the current in the power circuit BO3p6cuJee increases, the voltage drop taken from sensor 9, applied plus 5 to the end of control winding 16, affects the magnetic amplifier so that the output voltage taken from resistor 15 increases. An increase in the output voltage leads to an increase in the angle of unlocking of the thyristors 6 formed by the thyristor control system 10. Polar capacitor 19 is connected via a normally closed contact 20 through limiting resistor 22 to the power supply unit 13, from which the circuit of all units of the device is powered. Voltage} ia lining up KJX capacitor 19® in the process of conducting. The scientific research institute of charge mode and discharge becomes equal to the output voltage of the power supply unit 13, which is selected on the basis of the reliable locking by the magnetic amplifier of the stabilization unit 11 and time times; a number of yes defined by a constant time-chain; control winding 8 - capacitor G9 - resistor 21. When the signal is sent from the automation unit 12 to disconnect the device: AC from the AC mains is inserted into

The role of the core and the capacitor 19 is connected to the control winding 18 of the magnetic amplifier through the resistor 21 in such a way that the discharge current is directed from the end of the winding 18 to its beginning.

The flow of discharge current of capacitor 19 leads to an increase in the voltage applied to the control unit, thyristors 10 from resistor 15 to a value that ensures complete locking of thyristors 6. Some time after removing control pulses from thyristors 6, it normally works to close contact 2 with the moderator, acting when the stop relay 14 is activated, and breaks the power supply circuit of the magnetic start coil.

Thus, the device is disconnected from the AC circuit at a zero value of the power current.

The use of the invention will improve the switching processes in the chain of change} south of the current when disconnected from it

charge-discharge device and increase its reliability.

Claims (2)

1. USSR author's certificate number 331457, cl. H 02 J 7/04, 1970. 2. Zorokhovich, L. Ye. N, et al. “Device for charging and discharging batteries,” Energie, M., 1975, p. 185, fig. 6- fin.l