RU2253174C1 - Power supply and three-phase load - Google Patents

Abstract

FIELD: electrical engineering.

SUBSTANCE: two engineering solutions are proposed which are characterized in common engineering goal and common approach to solution. Power supply has transformer incorporating primary windings 1, magnetic core 2, and secondary windings 3; connected in series with the latter is diode bridge 4 closed through poles to reactor coils 5 and 6. Novelty is that central lead of reactor coils 5 and 6 is connected to neutral of load 7. The latter is connected to supply mains through switch 8. Diode bridge with similar double-coil reactor is inserted in series with neutral of all three phases of three-phase load. Novelty in this alternative is that reactor center tap is connected to neutral of supply mains. Damping (smoothing down current peaks) is effected both when three-phase and single-phase loads are connected.

EFFECT: enlarged functional capabilities, ability of damping inrush load currents.

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Description

The invention relates to the field of electrical engineering. Two technical solutions are proposed, combined by a common technical goal and a common solution approach.

The closest in technical essence and the achieved results is a power source [1], containing a transformer, loads are connected to the terminals of the ends of the secondary windings, and the beginning of the windings are connected to a diode bridge, to the poles of which the reactor is connected. The disadvantage of this device is its limited functionality, since it is applicable only to loads that do not use a neutral wire.

The closest in technical essence and the achieved results to the second embodiment of the invention is a three-phase load [1], the inputs of the three phases of which are connected to the switch, and the conclusions are connected to the diode bridge, to the poles of which the reactor is connected. The disadvantage of the device, as above, is its limited functionality, since it can only be used for loads that do not use a neutral wire.

The aim of the invention is the expansion of functionality due to the application for loads using a neutral wire.

The goal is achieved in the power source due to the fact that the reactor is equipped with an average output, to which the load neutrals are connected.

The goal is achieved in the second embodiment of the invention - a three-phase load due to the fact that the reactor is equipped with a middle output, to which the neutral of the network is connected.

Figure 1 presents a diagram of a power source.

Three-phase transformer contains: primary windings 1, magnetic circuit 2 and secondary windings 3, to the initial conclusions of which a diode bridge 4 is connected. The poles of the latter are connected to two windings 5 and 6 of the reactor connected in series. The reactor may have a magnetic circuit or is air. The final terminals of the windings 3 of the transformer are connected to the load 7 (terminals of phases A, B, C). Neutral N of load 7 is connected to the midpoint of the reactor windings 5 and 6.

Figure 2 presents a diagram of a three-phase load.

Actual payload 7 contains three phases. A three-phase diode bridge 4 is included in the cut of the load neutral, to the poles of which the windings 5 and 6 of the reactor are connected. Neutral N of the network is connected to the midpoint of the windings 5 and 6 of the reactor. Inputs of the load 7 are connected to the switch 8 connected to the network (phases A, B, C). Switch 8 connects and disconnects loads to the network.

Devices work as follows. The transformer receives energy from the network by winding 1 and transfers it through the magnetic circuit 2 to the secondary windings 3, which in turn supply energy to the load 7. The entire energy flow passes through the diode bridge 4 and the reactor with windings 5 and 6. The reactor windings 5 and 6 have the damping effect on the load currents, limiting its peaks during load and network surges, reduce the rate of current rise. The same damping effect of the reactor with windings 5 and 6 exerts when loads 7 are connected. The indicated damping (smoothing of current peaks) is carried out for both three-phase and single-phase loads, which confirms the stated purpose of the invention. The power supply and three-phase load can be used together and separately.

Sourse of information

1. USSR copyright certificate No. 1471245. Device for powering an electric arc furnace. Kl. H 02 J 3/00, H 05 B 137/144, BI 1989, No. 13.

Claims (2)

1. A power source containing a transformer, to the terminals of the ends of the secondary windings of which a load is connected, and the beginnings of the windings are connected to a diode bridge, to the poles of which a reactor is connected, characterized in that the reactor is equipped with a middle terminal to which a load neutral is connected. 2. Three-phase load, the inputs of the three phases of which are connected to the switch, and the conclusions are connected to the diode bridge, the poles of which are connected to the reactor, characterized in that the reactor is equipped with a middle terminal, to which the neutral of the network is connected.

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