SU1169080A1 - Switch for selecting power sources - Google Patents

Abstract

A POWER SUPPLY SWITCH containing contactor contacts between each source and load, and contactors control unit, characterized in that, in order to improve speed when parallel sources are operating on a common load, it opens break contacts with an accelerated opening drive, and The terminals {of the load and the closing contacts of the contactors are connected to the opening contacts, and to the connection points of the closing and opening contacts through the diode rectifying bridge An artificial capacitor switching unit connected to the control unit is connected, the artificial capacitor switching unit consists of a series-connected pre-charged capacitor and parallel-connected circuits according to the number of power sources, which consist of series-connected accelerated I uncoupler control coils source and thyristor.

Description

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o The invention relates to high-speed low-voltage electrical apparatus of alternating current providing uninterrupted power supply to the responsible electric receivers from two or more power sources, namely to the switches of the power sources, serving to ensure the parallel operation of the AC sources with identical voltage parameters to the total load. . The purpose of the invention is to increase the speed and ensure the parallel operation of sources on the total load. FIG. 1 shows a functional diagram of the switch of two three. ny of sources of alternating current; in fig. 2 is a diagram of an artificial switching unit. The switch (Fig. 1) contains contactors 1 and 2 in the channels of the respective sources and installed in series with the main contacts of the contactors in front of the load terminals, additional contacts 3, 4, equipped with an accelerated opening drive and closed in a steady state, respectively, as well as a diode bridge. inputs connected to the connection points of the main and auxiliary contacts, and outputs connected to the block 6 of artificial capacitor switching connected to the control block 7. The artificial capacitor switching unit 6 (Fig. 2) contains a pre-charged capacitor 8, in series with which are connected two parallel circuits, formed from successively connected control drives of the drive of accelerated opening of additional contacts and the channel thyristor of the corresponding source, namely Coils 9 and thyristor 11 channel source 12 and coil 10 and thyristor 13 channel source 14. The switch operates as follows. In the initial state with de-energized load, the additional contacts 3 and 4 are in the closed state, and the main contacts 1 and 2 of the contactors are in the open state. When the load is supplied simultaneously from both sources with identical voltage parameters (i.e., when the sources are operated in parallel with the common load), the circuit closes the main contacts 1 and 2 of the contactors installed at the inputs of the switch. There are no special performance requirements for these contactors. In the event of an accident, in one of the sources, for example, source 12, accompanied either by an unacceptable change in voltage parameters or an unacceptable increase in the surge current of the sources, the emergency source 12 is disconnected in the switch circuit. For this purpose, in block 6, artificial capacitor switching is supplied single pulse. control on the thyristor 11 and sends the command to turn off the contactor 1 synchronously in time. In this case, the precharged capacitor 8 is discharged through the switched on thyristor 11 and the diodes of the bridge 5 to the control coil. 9 drive accelerated opening of additional contacts 3, for example, induction dynamic. The parameters of the drive and the circuit of artificial capacitor switching in the switch circuit are chosen in such a way that the discharge current of the capacitor 8 at the stage of opening the contacts 3 for a distance at which the electrical strength of the interelectrode spacing of contacts 3 is restored exceeds the short-circuit current in the network with a maximum current during the deionization time of the interelectrode gaps of the contacts 3 (since the short circuit current of two and for identical sources, the short-circuit current in the network is equal to the double short-circuit current of the source). Due to the current that the capacitor discharge current exceeds the magnitude of the short-circuit current in the network, the diodes of the emergency bridge 5 at the stage of opening the contacts 3 to the distance at which the electrical strength of the contacts 3 between the electrodes is restored, and the contacts switch 3 is arc-free (since the equivalent voltage drop; on the diodes shunting each open contact, well below the arc voltage). The latter leads to the fact that the restoration of the electrical strength of the interelectrode contact spacing 3 occurs at small distances between the contact electrodes (almost no more than 1 mm).

As a result of using arcless switching and accelerated opening of contacts 3, the speed is high, for example, the time off of contacts 3 when using an induction-dynamic opening drive can be reduced to 0.5 ms. The opening of the contacts 3 in the circuit is carried out briefly, only for the time of the opening of the main contacts 1, after which the contacts 3 are returned to the initial closed state. Full

the disconnection cycle of the emergency source 12 ends by disconnecting the contactor 1. Since the disconnection time of the auxiliary contacts 3 is significantly shorter than the disconnect time of the main contacts 1, the disconnect time of the emergency source 12 in the switching circuit determining the interruption of the power supply to the load is equal to the disconnecting time of the contacts 3. 12, the load will be supplied only from source 14 until the accident at source 12 is eliminated, after which input can be made by switching on Actor 1.

The operation of the switch in the accident at source 14 is similar. The only difference is that when the source 14 is disconnected, a control pulse is applied to the thyristor 13 and a command is issued to turn off the contactor 2.

Claims (1)

A POWER SUPPLY SWITCH comprising contactor contacts of contactors and a contactor control unit included between each source and load, characterized in that, in order to increase the speed of operation during parallel operation of the sources to the total load, disconnecting contacts with an accelerated opening drive are introduced into it, moreover between the load terminals and the closing contacts of the contactors, the breaking contacts are connected, and to the connection points of the closing and breaking contacts through the diode rectifier bridge I connect ene unit artificial capacitor switching soedinenIny with the control unit, wherein the unit of artificial capacitor switching member IE serially connected pre-charged capacitor and parallel chains according to the number of power supplies, each of which consists IE serially connected drive control coil accelerated opening corresponding to the source and the thyristor. SU „„ 1169080 I. 1169080 2