SU658656A1 - Arrangement for charging storage batteries with asymmetric current - Google Patents

Claims (2)

There is a known device for charging and forming batteries with asymmetric current, containing input terminals for connecting to an alternating current source, a bridge circuit whose two adjacent terminals are formed by controlled three thyristor rectifier terminals two other arms, one of which is negative and the other two are the positive output terminals of the device, to which the booster transformer is connected, and the BLsec voltage control and valve control. One of the diagonapes of the indicated bridge circuit is short-circuited, and diodes shunted by thyristors 2 are connected with the battery successively with the batteries. This device allows using the energy of a discharge pulse for the exchange between two charged batteries. However, it is designed to be powered by a single-phase AC network, which limits its scope. The purpose of the invention is to develop a battery dp charge device with an asymmetrical current from a three phase transformer with a useful use of the discharge impulse energy of a discharged battery. The goal is achieved by the fact that thyristor rectifiers are made in the form of three groups of gates, two of which are connected by cathodes to two positive terminals, and the third group is connected by anodes to a negative terminal, while the additional voltage transformer is connected in series. triac and bit choke. The scheme of the proposed device is shown in the drawing. The source of alternating current through the fuck of the phase transformer 1, whose secondary circuits are connected according to the star or delta circuit, is connected to a three-phase asymmetrical rectifier bridge. The cathode group of gates on thyristors 2, 3 and 4, and the anodic group on diodes 5, .6 and 7. Parallel to the three-phase current source, a simple single-phase three-phase switch is connected, forming the second cathode group of gates made on thyristors 8, 9 and 10, The ends of the two cathode valve groups are connected to the positive terminals of two battery batteries Ni 12, the negative terminals which through the current-limiting choke 13 are connected to the reed switch of the anode group of bridge rectifier valves. The secondary winding of the transformer 14 through the triac .1.5 and the choke 16 is connected to the positive terminals of the two batteries 11 and 12. The voltage on the batteries measures the voltage control unit 17, which is connected to the clock pulse generator 18. The device 19 of the time shift of the pulses is performed on the ring counter. 20 and a decoder 21. The control electrodes of thyristors 2,3 and 4 are connected to control buses 22, thyristors 8.9 and 10 to buses 23, and the triac 15 to buses 24. Control buses are numbered with the digits used in valve designations device diagram. The order of connection of control buses to the decoder (from left to right) imitates the sequence of supply of control pulses to controllable gates. The drawing shows the sequence of supplying control pulses to the thyristors and the triac with a duty cycle equal to two. The principle of operation of the device is as follows. Suppose that at some point in time the control signal supplied from the decoder 21 opens the thyristor 4 of the cathode of the valve group and the current flows through the circuit: battery 12, current limiting choke 13 and diode 6 of the anode valve group. After 60, diode 6 is closed, and diode 5 is opened. After the next 6O, a control pulse is applied to thyristor 3, and then, after the same period of time, to thyristor 2. Charge of battery 12 will continue until control pulses from thyristors 1O, 9, and 8 start to flow from decoder 21. This charge of battery 12 stops and starts charging through the same choke 13 battery 11. A charging device circuit provides variable and amplitude adjustable discharge pulses of one battery, and these pulses are advantageously used in the process of charging another battery. Consider the time period when the battery 11 is charged with the variable source DT. the current, and the battery 12, should be discharged by an impressed current. When charging a battery 1 1 of its charge, the voltage should be slightly higher than the EMF of the battery 12. The ethyl voltage difference will be the greater, the more the battery charge current, Dp in order to use the discharge pulse of one battery of the DPJ to charge another It is necessary to use an additional voltage source (additional device) and the sum of the emf of a discharging battery and the voltage of an additional voltage source should be greater than the charging voltage of the charging battery. The single-phase transformer 14 through the triac 15 and the choke 16 is connected to the positive terminals of the batteries 31 and 12. The rupture impedance from the battery 12 to the battery 1 will flow at that time when the sum of the EMF of the battery 12 and the secondary voltage of the transformer 14 connected between each other, gradually, will become more battery voltage 11. The triac 15 will go out when the discharge current of the battery 12 becomes zero, which happens when the charging voltage and voltage of two series-connected sources are equal. When charging the battery 1; the battery 11 is connected in series with the secondary winding of the transformer 14 and is pulsed to the battery 12 when a control pulse is applied to the lower element of the triac 15. Using the energy of the discharge pulses of one battery to charge the other increases efficiency devices, and the ability to evolve from 566 three-phase AC network is to expand its scope. The invention is a device for charging batteries with an asymmetrical TB, containing input terminals for connecting to an AC source, a bridge circuit with two adjacent arms formed by controlled thyristor rectifiers, the other two by three terminals, one of them. which is negative, and the other two are positive output terminals of the device, to which the booster transformer is connected, and a voltage control and valve control unit, characterized in that, in order to expand the field of application, the thyristor rectifiers are made in the form of three three-beam ones the stars of the valve groups, two of which are connected by cathodes to the two positive terminals of the device, and the third group is connected by anodes through the discharge choke to the negative terminal, while The booster transformer is connected in series with the triac and bit choke. Sources of information taken into account in the examination 1. Zorohovich A. Ye., And other devices of the DPJ charging and discharging battery packs. M., Energie, 1975, p. 203, is. 79.62. USSR author's certificate O 299901, kp. H O2 J 7 / OO, 1971.