SU1504678A1 - Device for arcless switching of a.c. circuits - Google Patents

Abstract

The invention relates to switching technology and is intended for the arc-free switching of a group of single-phase or three-phase loads, including multi-speed AC motors. The purpose of the invention is the expansion of operational capabilities through the arcless switching of multiple loads. When one or several coils 9-11 of the drive of the main contacts 6-8 are connected, the signal from the current sensor 5 is fed to the control unit 4. At the same time, the corresponding contacts 6-8 are first closed, then thyristors 2 and 3 are turned on. The loads are disconnected in reverse order, first thyristors 2 and 3 are turned off, then contacts 12-14 are kneaded. The device allows for arcless switching of one or several loads connected in parallel, which expands its operational capabilities. 2 Il.

Description

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The invention relates to a switch-1D technology and is intended for fusion-arc switching of a group of single-phase or three-phase loads, in foM the number of multi-speed AC electric motors. ; The purpose of the invention is to expand the operational capabilities by providing arcless switching of several loads,} FIG. 1 is a circuit diagram of a device for arc-free switching of a group consisting of three parallel to one single-phase loads; 11) IG, 2 - an example of connecting a device: 1: TWA to a three-phase multi-speed (three-speed) electric drive. The device contains a single-phase thyristor switch 1 (Fig, -1), made of two anti-parallel thyristors 2 and 3, and thyristor control unit 4 with an element of adjustable time delay for switching on the thyristors current sensor 5. The thyristor switch 1 is connected to the circuit, consisting of 3 main connected in parallel. pins 6-8 with the corresponding Coils 9-11 of the main end drive fraKToB; The loads of the 9-11 main circuits on the 6-V main circuits include the loads 9-11, the coils of the coils 9-11 on one side are connected to a common point and connected to the current patch 5, The parties can be connected to any control circuit. For groups of single-phase loads, only two thyristors 2 and 3 are connected in parallel.

The device for arc-free communication: a group of three-phase active-reactive loads, connected, as an example, to a three-phase multi-speed (three-speed) electric drive (FIG. 2), has a two-phase thyristor switch 15, filled from two pairs of 2,3 and 16,17 parallel thyristors connected in series, which are connected in series with the main contacts 18,19, 20 speed contactors, and a control circuit with a current sensor 5 (current transformer) connected in series to the coils of speed contactors 21, 22 and 23 analogue similar to the circuit for a group of single-phase loads (FIG. 1).

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The device works as follows.

Dp of connection of the consumer 12 to a single-phase AC network, the supply voltage is supplied to the drive 9 of the main contact drive 6. An electric current flows through the sensor circuit 5. From the output of the sensor 5, the signal goes to circuit 4 control 1, which generates pulses to open thyristors 2 and 3 with a time delay equal to the intrinsic time of the operation of the switching apparatus, which ensures the non-arc-i-commutation of the circuit.

When the circuit is disconnected, the voltage is removed from the coil 9 of the main contact 6, the signal from the sensor 5 at the output of the control circuit 4 disappears at the same time, the thyristors 2 and 3 close, the main contact 6 opens. Since the turn-off time of the thyristor switch 1, its control circuits 4 and sensor 5 add up to hundredths of a second, and the proper time to trigger a switch when the known switching devices are disconnected is tenths of a second, the main contact opens without current, i.e. . arc-free circuit switching is provided.

The operation of the device with simultaneous switching on (off) and sequential operation of loads 12-14 is similar to the operation of the switch for one load. The current sensor 5 at the same time monitors the presence and absence of supply voltage on the group of coils 9, 10, 11 of the drive of the main contacts 6-8,

Operation of the arc-free switching device for a group of three-phase loads (for a three-speed electric motor, for example, in FIG. 2) is similar to the operation of a device for a group of single-phase circuits (FNG, 1). In this case, the signals for switching on and off are simultaneously transmitted to all thyristors, and the time of their switching off during natural switching depends on the magnitude of the instantaneous value of the current flowing through the thyristors at the moment of switching off. The maximum off time of the thyristors at an industrial frequency of 50 Hz is 10 ms,

The proposed device, in comparison with the known, allows providing arcless commutation of forest "N, /

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Claims (1)

Claim A device for arc-free switching of AC circuits, containing leads for connecting a power source and leads for connecting a load, power contacts with a drive coil, a symmetric thyristor switch and a control unit, with leads for connecting a power source, a symmetric thyristor switch, power contacts and terminals for connecting loads form a serial circuit, the output of the control unit is connected to the control input of the symmetric thyristor switch, characterized in that, in order to expand the operation To ensure this, by providing a safety switch, a current sensor, additional terminals for connecting at least one additional load, additional power contacts with coils, drives according to the number of additional loads are introduced into the device, each of the specified additional power contacts being connected in series with with the corresponding conclusions for connecting an additional load, all circuits from 15 power contacts connected in series and terminals for connecting loads are connected in parallel but one other, one of the terminals of all the indicated coils of the power contact drives is connected to a common point 20 ', which is connected to the input of the current sensor, the output of which is connected to the input of the control unit. ₄ Compiled by A. Kalyadin