RU2251189C1 - Phase-failure protective gear for three-phase load - Google Patents

Abstract

FIELD: electrical engineering.

SUBSTANCE: pushing START button energizes the coil, contactor operates and closes interlocking contact for self-latching. Load is connected to supply mains by means of three contacts of contactor. Current relay checks phase currents of load. Current relay contacts form series-connected combinations of three pairs, each including two parallel-connected contacts of relays inserted in different phases. Since load neutral is connected to supply mains neutral, load is still operating in the event of failure of one phase, and its disconnection takes place only in case of failure of two or more phases.

EFFECT: enhanced reliability.

1 cl, 1 dwg

Description

The invention relates to the field of electrical engineering and can be used, in particular, in an electric drive.

The closest in technical essence and the achieved results is a / 1 / protection device containing a rectifier connected in series, a contactor coil, a closing contact of the “Start” button, a breaking contact of the “Stop” button, and a closing block-contact of the contactor with one pin connected to a common point of the coil and the “Start” button, and the second output of the block contact is connected to the circuit of the series-connected make contacts of the three current relays, the coils of which are connected between the outputs of the make contacts of the contactors and the load. The disadvantage of this device is the relatively low reliability. The device is triggered when one of the network phases breaks. Meanwhile, in this mode, the device can perform operational functions. So, for example, the electric motor can quite successfully work, including starting when one of the phases breaks. For some critical actuators, ensuring operation in this mode will avoid major accidents (for example, valve actuators). The aim of the invention is to increase reliability.

This goal is achieved due to the fact that in parallel with each contact of the current relay, a contact of the current relay of another phase is connected, so that three pairs of contacts form two out of three combinations, and the zero point of the load is equipped with a connection terminal to the neutral wire of the network.

The drawing shows a diagram of the device.

Button 1 “Stop” and 2 “Start” are connected in series with the coil 3 of the contactor. In parallel with button 2, a circuit is made up of series-connected block contact 4 and contacts 5, 6, 7 of current relays. In parallel to contacts 5, 6, 7, contacts 8, 9, 10 of current relays are included. Coils 11, 12, 13 of current relays are connected between the terminals of contacts 14, 15, 16 of the contactor and load 17. The latter is connected by a star and its neutral terminal is designed to connect to the neutral (N) network. The second conclusions of the contacts 14, 15, 16 of the contactor are intended for connection to the phases A, B, C of the network. The power circuit of the coil 3 is connected to the network through a rectifier 18.

The device operates as follows.

The terminals of the devices are supplied with voltage from the power source. When the “Start” button 2 is pressed, voltage is applied to the coil 3. Coil 3 is activated and closes block contact 4 and contacts 14, 15, 16. Load 17 is connected to the network. Coils 11, 12, 13 of the current relay are activated. Contacts 5, 6, 7, 8, 9, 10 of current relays are closed. Coil 3 becomes self-holding. In this way, the trigger pulse is stored. When the “Stop” button 2 is pressed, the power of the coil 3 is interrupted and the load 17 is switched off.

When one of the phases of the network or load 17 breaks, one current relay, for example, coil 11, is disconnected. Contacts 5 and 8 are opened. But the power supply circuit of coil 3 does not open. Thanks to the rectifier 18, the load is supplied from two phases of the network. Two phases of the load remain in operation, ensuring the flow of the process. In the power mode from two phases with a zero wire, the motor can carry up to 70% of the load without overheating. It also has a starting torque of the indicated magnitude. And only when the second phase of the load breaks, will there be a break in the power circuit of the coil 3 of the contactor.

Sources of information:

1. USSR copyright certificate No. 1092644. Device for thermal protection of an electric motor. Gaponenko V.V., Sadovsky V.F. Published in B.I. 1984, No. 18.

Claims (1)

A device for protecting a three-phase load from phase failure, containing a rectifier connected in series, a contactor coil, a make-contact contact of the “Start” button, a break-out contact of the “Stop” button, and a make-contact block-contact of the contactor with one pin connected to a common point of the coil and the “Start” button, and the second terminal of the block contact is connected to a circuit of series-connected make contacts of three current relays, the coils of which are connected between the outputs of the make contacts of contactors and the load, characterized in that each The current relay contact of the other phase is connected to the current relay contact, so that three pairs of contacts form two out of three combinations, and the zero point of the load is equipped with a terminal for connection to the neutral wire of the network.