SU744844A1 - Storage battery charging device - Google Patents

Description

voltage is carried out only on one channel, which causes under-utilization of the power of the alternating current source, relates the low transmission rate of its energy to the battery and, as a result, low specific energy indicators of the device as a whole, for example, the maximum value of the source power utilization does not exceed values of about 0.55; thirdly, such a device has a relatively low operational reliability, for example, with the most frequently occurring faults such as capacitor breakage or by: free-flow linear drossel, the device turns out to be inoperable.

The purpose of the invention is to increase operational reliability and improve specific energy indicators.

The goal is achieved by the fact that the device is additionally equipped with two capacitors, some of the plates of which are connected respectively to the positive and negative terminals1.1 for connecting the battery, and others to the outermost leads of the linear throttle; the junction point of the capacitors is the rectifier, and the anode; one and the cathode of the other gates. The rectifier is connected to another terminal of the said source.

The drawing shows a circuit diagram of the device. The device contains a source

1 alternating current with two output terminals 2 and 3, bridge rectified; ite 4 on thyristors 5 and 6 connected in series according to, with the cathode of thyristor 5 connected

to positive 7, thyristor 6k anode negative to 8 terminals of battery 9, and the thyristors connection point is connected to the second output terminal 3 of source 1, capacitors 10 and 11 connected in series, their connection point is connected to terminal

2 of the source 1, while the capacitor plate 10 is connected to the positive, and the capacitor plate 11 to the negative terminals of the battery 9. The device also contains a linear choke, the half windings 12 and 13 of which are connected in series to each other, the thyristor voltage control and control unit 14 and two capacitor 15 and 16.

The electrical energy of the alternating current source is transmitted to the battery through two channels having reactive current-limiting resistances of the opposite nature. Thyristors 5 and 6 together with condensates 10 and 11 form one channel of the egr and battery 9 with capacitive current-limiting reactance. The other two capacitors 15 and 16, together with the linear choke and the thyristors 5 and b, form the second channel of the battery charge; - 9 with a current-limiting reagent ;; inductive resistance.

The inductance of the linear throttle and capacitance of the capacitors of this channel is chosen such that the total reactive resistance of the channel is of an inductive nature. When the absolute value is equal, but opposite in sign, to the current-limiting reactances of both channels, the phenomenon of current resonance occurs in the circuits with the valves

The resistance of the semi-windings of the linear throttle and the capacitors 10, 11, 15 and 16 is chosen so that the source 1 operates with the maximum possible power factor.

In each half-period of variation of the voltage of the alternating current source 1, the duration of the charging pulse increases, its shape approaches the rectangular one, which in turn increases the average value of the charging current.

The device works as follows.

In each half-period of variation of the voltage of the source 1, the charge current of the battery 9 consists of two components flowing in two parallel channels, respectively, with current-limiting reactive resistances of different signs. For example, in one half-period of variation of the voltage of source 1, the component of the channel charge current with a capacitive current-limiting resistance flows through the circuit: terminal 2, capacitor 10, battery 9, thyristor 6, terminal 3 of source 1a Yes, a channel with a reactance of inductive character flows through the circuit: terminal 2 of source 1, gigolobotmotka 12 linear dross. , capacitor 15, battery 9, thyristor 6, terminal 3 of source 1. In the other half-period of changing the voltage of source 1, the direction of the source current is reversed, the thyristor 5 and the component open, and the channel charge current with capacitive current-limiting resistance flows across the circuit: terminal 3 of source 1, thyristor 5, battery, 9, capacitor 11, terminal 2 of source 1, and the charge current component of the channel with reactive current-limiting resistance of an inductive nature flows through the circuit: terminal 3 of the source ika 1, thyristor 5, battery, battery 9, conden

Claims (1)

Claim A device for charging a battery containing an alternating current source with two terminals, a bridge rectifier condenser rectifier made of two capacitors connected in series, the connection point of which is connected to one source terminal, and two valves, for example, controlled, thyristors, the cathode of one valve and the lining of one capacitor is connected to the positive, and the anode of the other valve and the lining of the other capacitor are connected to the negative terminals for connecting the battery, line a throttle reactor equipped with a midpoint output, and a voltage control and valve control unit, characterized in that, in order to increase operational reliability and improve specific energy performance, it is additionally equipped with two capacitors, one of which plates are connected respectively to the positive and negative terminals for connection the battery, and others with the extreme terminals of the linear reactor, while the output of the midpoint of the linear reactor is connected to the connection point of the capacitors ypryamitelya, and an anode and a cathode of another rectifier valves connected to the other terminal of said source.