SU658660A2 - Storage battery charging arrangement - Google Patents

Description

The invention relates to power converter technology and may be used in power supply devices of batteries.

 In the author's certificate N9 584388 Oiiucaiio battery charging device 1y oaTapeii four-step current, containing three of them (transformer with two secondary windings I. connected to a star, the ends of each nz which are connected via triacs to two adjacent phases of the phases of two phases, each connected to a star, connected to a star, through each of the three phases, connected to each other, connected to a star, connected to each other, connected to a star, connected to each other. windings and thyristors to their zero points and output terminals, and two key elements connected between the zero points of the transformer windings and the device's upper terminals associated with the combined anodes and cathodes specified thy thyristors 1.

The disadvantage of the described device is that the adjustment range of the first stage of charging current is too wide.

The smooth phase regulation of the output voltage of the device from 2 Ua to Od leads to a large decrease in the power factor of the device and to an increase

pulsan). charge current, that is, to your ear .. and, to those who are tehn.khnrl-: o-ekono.micheskikh indicators. The purpose of the present invention. is a further refinement of the well-known device for charging ak1 ululator battery | ) in terms of its regulation 1 of its capabilities and the improvement of technical and economic indicators.

The pointer is achieved by introducing an additional key element connected between the zero point of one of the secondary windings of the transformer and an output terminal of opposite polarity.

FIG. Figure 1 shows the principle diagram of the device, which contains the transformer 1, the simstors 2- ° -7; thyristors 8413; the key elements are GGY14-14, and the battery 17. In FIG. 2 a, b, c, d, e shows the working structures of the device charts; of figs. 3 - the diagram is shown

charge current.

Claims (1)

The three-phase transformer I contains two equivalent secondary volts, the compound: g B direct stars. KOHLJLH of each of the secondary windings is connected through triacs 2-r-7 to two CMesJUHh but at the end of the phase 11 opposite to; you can connect the other winding1 and, through thyristors 84-13, to mx iiyjieiiuiM points, through the key elements l4 - lG - to the output terminals of the device, in parallel with which the battery 17 is connected. The key element 16 is connected between the zero, the secondary winding point of the transformer I and the negative output terminal of the device. In the forced charge mode of the batteries, the key elements are open and the control pulses are applied to all the triacs 2-7 and the sprystors 8--13, respectively, of their order. As a result of this, the power cxcNfa turns into a two-fold bridge rectifying circuit with a sequential addition of rectified linear voltages of the two secondary transformer windings (Fig. 2a). Under the action of a voltage drop, equal to the difference between the rectified doubled linear voltage and the battery voltage, a forced charging current of a large magnitude flows. Its value can be maintained permanently by adjusting the firing angle of the valves. When reducing the output voltage of the device from the rectified double linear to the rectified sum of the linear and phase voltages, the control pulses are removed from the thyristors 8, W, 12, the key element 6 closes. The following structures are formed: a pa -circuit for rectifying the sum of the phase voltages of a single secondary winding (a k s) and the linear voltages of the second secondary winding (a c c) of transformer I (Fig. 26). Under the averaged rectified phase and line voltage and battery voltage, a second charge current stage is formed. Upon reaching the start of gas generation, the control removes the control pulses from the thyristors, opens the key element 16 and closes the Key Elements 14, 15, forming a circuit for rectifying only one linear voltage. Moreover, depending on the phase angle of the triacs 24–7, the latter work either as direct turn on thyristors ((FIG. 26) or as reverse turn thyristors {FIG. 2 g), providing the possibility of reverse and charge current iodine action of the difference or rectified linear voltage and battery voltage, or vice versa. After the battery reaches approximately 90-95% level, the charge is removed from the triac 24-7 and applied to the thyristors 8-J1-3 with the key elements 14, 15 closed and the key element 16 open. This forms a new structural scheme of discharge, similar to a six-phase star, which provides for the rectification of the phase voltage of the secondary windings of the transformer 1 (Fig. 2e). This voltage slightly exceeds the voltage of the battery 17, ensuring the flow of a small magnitude of the charge current for a long time. FIG. Figure 3 shows one of the possible charts for controlling the charging current. The introduction of an additional step of regulation with the help of only one key element greatly expands the potential capabilities of the device in terms of implementation and other methods of charging batteries. Due to the presence of a five-step voltage control range, a high power factor of the device is ensured in all charging modes at the minimum possible number of key elements. The invention is a device for charging a battery, according to author's certificate 584388, characterized in that, in order to expand the adjustment capabilities and increase the efficiency of the charging process, an additional key element connected between zero point is introduced in it. oyuy from the secondary winding of the transformer and. output terminal of the device of the opposite polarity. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 584388, cl. H 02 And 7/12, 977 l i j  41 at 2 A iTl a fSKS r -p rj- J l with    f f t F. f, g - $ And 9ig.Z