SU1735967A1 - Device for charging and discharging storage batteries - Google Patents

Abstract

The invention relates to the field of electrical engineering, in particular, to forming devices during production and charging (charging) of batteries and batteries (AB), during their operation, and can be used in power supply systems of stationary and mobile autonomous objects with forced charging means. Yes AB is an asymmetric current from an alternating current source (IPT) 1 and a direct current source, such as type AB. The purpose of the invention is to improve the specific energy indices when charging from a three-phase AC source by reducing the power of distortion and asymmetry of its phase currents. The device contains a charged 1 and discharged 2 batteries and an AC source 3 with three phase terminals 11, 12, 13. Positive 4 and negative 5 output terminals of the device are connected to a charged battery 1. Discharging 2 AB is associated with a positive 6 and negative 7 terminals. A diode 8 is connected to terminal 7 and terminal 5. A diode 9 connects positive output terminal 4 to positive terminal 6. A capacitor 10 is connected to the positive output terminal 4 and the phase (line) terminal 11 of source 3. The second phase terminal pin 12 of source 3 is connected via a current-limiting capacitor 14 to terminal 6. Phase pin 13, pin 11 and pin 12 are connected to the windings of source 3, which can be connected according to both a triangle and a star circuit, including the neutral pin. 1 il. Y o Ü 9 (L Ñ vi co so ela che ON VI i 67

Description

The invention relates to electrical engineering, in particular, to devices for forming during production and charging (charging) of batteries and batteries (AB) during their operation, and can be used in power supply systems of stationary and mobile autonomous objects by means of forced charging. Yes AB is an asymmetric current (AT) from an alternating current source (IPT) and a direct current source, such as type AB.

It is known a device for charging (US) AB from two sources: from one IPT - through a rectifier, and from another IPT - through a charge-discharge capacitor (ADMS),

As these sources, for example, two phases of a three phase IPT (TITP) are used, which conduct the constant and variable components of AT through an AB charged current.

These ultrasound systems are characterized by low energy indices, so they are used extremely rarely.

It is also known an ultrasound with two ABs and a voltage inverter connected at the output of a controlled single-phase rectifier rectifier.

The disadvantage of this ultrasound is the need to use an intermediate autotransformer that regulates the charge current of the AB by changing the voltage at the input of the controlled rectifier. This increases the mass of the ultrasound, and the presence in it of two chokes, included in the SA-N circuit, further worsens the specific energy performance of the device as a whole.

It is also known a device for charging and discharging an AB containing IPT, a rectifier, two diodes, a protective current-limiting resistance, positive and negative output terminals for connecting a charged AB and a positive and negative terminal for connecting to a discharged AB.

The disadvantages of such a device are relatively large energy losses during the conduction of the AB charge current pulses, due to the successive switching on of three gates (two in the controlled rectifier and a third - diode), as well as a relatively low quality factor of the charging circuit with the choke and this increase in the size and mass of the ultrasound, which leads to a deterioration of its specific energy indicators.

The closest to the invention in its technical essence is a device for charging and discharging batteries, containing an AC source, two diodes, a charge-discharge capacitor, a current-limiting capacitor, a positive and negative output terminals for connecting a rechargeable battery , the positive and negative terminals for connection to a discharged battery, the anode of the first diode is connected to the positive terminal and through a current-limiting capacitor to the second the phase output of the AC source, and its cathode to the positive output terminal and one plate of the charge-discharge capacitor, the second diode by the cathode

5 is connected to the negative terminal, the anode to the first phase terminal of the source and the negative output terminal.

The sources of energy for charging zA AB are three-phase sources of alternating

0 current, the use of which in the single-phase mode introduces asymmetry in the operation of the phases of the source and thereby worsens its specific energy performance. This is its main disadvantage.

The purpose of the invention is to improve the specific energy indicators when charging from a three-phase AC source by reducing the power distortion and asymmetry of its phase currents.

0 The goal is achieved by the fact that in the device for charging and discharging batteries, containing an AC source, two diodes, a charge-discharge capacitor, a current-limiting

5 capacitor, positive and negative output terminals for connecting a charged battery, positive and negative terminals for connecting with a discharging battery, the anode of the first diode connected to the positive terminal and through the current limiting capacitor to the second phase output of the AC source and its cathode to positive

5 output terminal and one plate of the charge-discharge capacitor, the second diode is connected to the negative terminal by the cathode, the anode to the first phase output of the source and the negative output output, the AC source is provided with a third phase output that is connected to the second charge plate bottom discharge capacitor.

This connection of the conclusions of the three-phase

5 of the alternating current source and the second plate of the ADMS almost eliminates the asymmetry of the phase (linear) currents of the TIPT, balancing the values of the charge-discharge currents of the AB and capacitors, reduces the power of distortions and the asymmetry of the TIPT,

the result is that the energy performance of the device is improved specifically.

The drawing shows the electrical circuit of the device for charging and discharging AB.

The device contains a charged 1 and a discharged 2 AB and an alternating current source 3. Positive 4 and negative 5 output terminals of the device are connected to the charged AB 1, and discharged AB2 - to the positive 6 and negative 7 terminals. Diode 8 is connected to the negative terminal 7 and to the negative output terminal 5. Diode 9 connects the positive output terminal 4 to the positive terminal 6, the charge capacitor 10 (SRK10) is connected to the positive output terminal 4 and to the phase (linear) terminal 11 sources 3, which has two more phase terminals 12 and 13. The second phase (linear) terminal 12 of source 3 is connected via a current limiting capacitor 14 with a positive terminal 6. The first phase terminal of source 3 is connected to the negative output terminal 5. The first phase (linear) terminal waters 13 of the source 3, its second output 12 and the third 11 is connected to the windings of TIPT, which can be connected according to the scheme of both a triangle and a star, including the neutral output.

Due to the fact that the voltage of AB2 is less than its emf by the amount of voltage drop on its internal resistance, and the voltage of the charged AB1 exceeds the EMF by the same amount, to fully use the energy of the discharged AB2 (for example, when forming batteries during their cyclic charges and discharges), when this energy is sewed into an asymmetrical current charged by AB1, an additional source of electrical energy is required, the voltage of which is no less than twice the voltage drop across the internal battery resistance. In the case of pulsed extraction of energy from the discharged AB2, the losses on its internal resistance have a minimum value. Therefore, it is advisable to form the asymmetric current required for effective charging of АБ1, АБ2, by imposing unipolar pulses of discharge of discharged АБ2 on alternating current. - a row capacitor 10, which, the reserve energy of the discharge pulses of the battery, then returns it to the same battery.

When considering the operation of the device, we assume that the phase (linear) voltages of the HIPT are shifted relative to each other by 120 e. hail. We also consider that in the system the direct order of phase alternation, and the phase windings of TIPT are connected in a triangle pattern, although the device is operational

and when connecting them with a star. Conditions

assume that the TK and SRA in the initial state

(before voltage applied. TIPT) discharged.

The device can be divided into 4 groups.

0 a, b, c, d channels: a) energy transfer channels

discharged A62 and TIPT and IR, b) channels

 energy transfer from the charged A61 and

TIPT and ZRK, c) energy transfer channels from

ADMS and TIPT into charged AB1, d) channels

5 energy transfer from the TC and TIPT to the charged AB1.

Through the channels of group a on the chains: 2-6-14-12-13-8-7-2 and 2-6-14-12-11-13-8-7-2, the charge TC 11 is discharged from the discharge 0 my AB2 and TIPT are up to a voltage (Vp), where Vp is the discharge voltage of AB2, V, max is the amplitude value of the source's discharge. This charge ceases at the point in time when the TIPT voltage reaches 5 and reaches an amplitude value.

At the same time, through the channels of group b, the following sub-section (pulsed) chargeable AB1 on the air defense system 10. Air defense missile system

0 10 pulsed to voltage (V3 +), where V3 is the voltage of the charged AB1. This charge pulse ZRK 10 will be completed when the voltage source 3 reaches its peak value.

When the instantaneous value of the voltage of source 3 decreases, the energy stored in the AMS 10 returns to AB1 through the channels of group B along the chains: 10-4-1-5-130 11-10 and 10-4-5-5-13-12 -11-10.

The energy stored in TC 11 is catalyzed through channels of group g along chains: 14-9-4-1-5-13-12-14 and 14-9-4-1-5-13- 11-12-14, AB1 along these circuits is charged to

5 voltages (Up + 2U jnax).

In the process of charging TC, ADMS and energy transfer to the charged AB1, when all channel groups are working, all three phases of TIPT are loaded, which practically eliminates the unbalance of currents of the source phases, all three lines are loaded equally, therefore the power of TIPT phase currents and TIPT close to zero if TIPT windings are connected

5 triangles.

Claims (1)

The invention The device for charging and discharging batteries, containing an alternating current source, two diodes, charge-discharge capacitor, current-limiting a capacitor, a positive and negative output terminals for connecting a charged battery, a positive and negative terminals for connecting to a discharging battery, the anode of the first diode being connected to the positive terminal and through a current-limiting capacitor to the second phase terminal of the AC source, and its cathode is to a positive output terminal and one plate of a charge-discharge capacitor, the second 0 The cathode diode is connected to the negative terminal, the anode to the first phase output of the source and the negative output output, characterized in that, in order to improve the specific energy performance during charging from a three-phase AC source by reducing the distortion power and asymmetry of its phase currents, the source of The current is supplied with a third phase output, which is connected to the second plate of the charge-discharge capacitor.