SU851570A2 - Device for charging storage battery with stabilized current - Google Patents

Description

one

The invention relates to power supplies and can be used for automatic charging while simultaneously forming (training) batteries.

According to the main author. St. 494807, a device for charging a battery with a stabilized current is known, comprising an alternating current source, a thyristor rectifier, a charge current magnitude sensor and a control element, for example, a trigger connected to a thyristor synchronizer, a synchronizer, two frequency dividers, circuit I and a converter the magnitude of the charge current per pulse frequency.

With the help of a known device, it is possible to exercise and form batteries in a known manner, i.e. by alternating complete charge-discharge cycles

The disadvantage of this device is the duration of the process of forming-9ar and battery, which reaches 36-5 hours.

The purpose of the invention is to reduce the time of formation-charge of the battery.

This goal is achieved by the fact that in a device for charging a battery with stabilized

a current containing an alternating current source, a thyristor rectifier, a charge current magnitude sensor and a control element, for example, a trigger connected to an thyristor IQ circuit, a synchronizer, two frequency dividers, an AND circuit and a converter of the magnitude of the charge current into a pulse frequency, moreover, the synchronizer is connected to the AC source and through the first divider

Frequency 15 is connected to the switching circuit of the control element, the output of which is connected to the input of the AND circuit, the other input of which is connected via a converter with a charge magnitude sensor.

20 current, and the output of the circuit And through the second frequency divider is connected to the control circuit off circuit, a load resistor, an electronic switch, a discharge magnitude sensor are entered

25 current, the converter of the magnitude of the discharge current into the frequency of the following pulses, the accumulator of impulses with the indication given to the battery and given to the load resistor

Claims (1)

30 the amount of electricity, while the load resistor is connected to the battery electrodes via an electronic switch, the controlled circuit of which is connected to the second output of the control element, and the sensor of the magnitude of the discharge current through the converter of the magnitude of the discharge current to the pulse frequency is connected to the first to the input of the pulse accumulator, to the second input of which the output of the converter of the magnitude of the charge current to the pulse frequency is connected. The drawing shows a diagram of the proposed device. The device contains a controlled thyristor rectifier 1, connected to the battery 2 and to the control element - trigger 3, a threshold element 4 connected to an AC network, connected via a divider. 5 with trigger on circuit 3, charge current magnitude sensor 6, connected via converter 7 of magnitude of charge current to pulse frequency per circuit AND 8, the second input of which is connected to the output of trigger 3, frequency divider 9 with trigger off circuit 3 , load resistor 10, connected to battery 2 via electronic switch 11, -controlled circuit of which is connected to the second output of trigger 3, sensor 12 of discharge current value connected through converter 13 of discharge current to trace frequency and pulses with one input of the accumulator 14 pulses, to the other input of which the output of the conversion of the transducer 7 is connected. The device operates as follows. The threshold element 4 generates a pulse sequence, a synchronous and in-phase alternating network, which through divider 5, the division factor of which is determined by the required dynamic control range, triggers 3. Trigger 3 generates an impulse to turn on the thyristor rectifier 1. when the voltage on the electrode is close to zero. A current appears in the battery's charging circuit. The magnitude of the charging current using sensor b and converter 7 is converted into the pulse frequency. The pulse sequence of the C cut And circuit, to the second input of which the control signal from the trigger 3 is already applied, is fed to divider 9. The division factor of divider 9 is determined by the division factor of divider 5. In drive 14, the number of pulses produced by converter 7 is counted -. the amount of electricity reported to the battery 2. The output signal of the divider 9 turns off the trigger 3. The switching-on pulse of the thyristor rectifier 1 is removed. At the same time, the electric switch 11 is switched by the signal from the second output of the trigger 3 and the discharge current starts to flow through the load resistor 10. In the accumulator 14, the pulses produced by the converter 13 and indicating the magnitude of the discharge current are counted. At the beginning of the technological process, the proposed device forms a battery with a gradual transition to a charging asymmetric current, which allows, in addition to reducing the charge forming time, to reduce gas evolution, electrolyte temperature, and sulphation of battery plates. Claims of Invention A device for charging a battery with a stabilized current according to aut. St. 494807, characterized in that, in order to reduce the forming-charge time of the batteries, a load resistor, an electronic switch, a sensor for the magnitude of the discharge current, a converter for the magnitude of the discharge current to the pulse frequency, a pulse accumulator with indication of the accumulator and a resistive amount of electrical current, the load resistor is connected to the battery electrodes via an electronic switch, the control circuit of which is connected to the second output of the control element, and the sensor The size of the discharge current through the converter of the magnitude of the discharge current to the pulse repetition frequency is connected to the first input of the pulse accumulator, to the second input of which the output of the converter of the magnitude of the charging current to the pulse frequency is connected. Sources of information taken into account in the examination. 1. USSR author's certificate 494807, cl. H 01 M 10/44, 1974.