SU1341697A1 - Device for protecting three-phase electric installation against phase open-circuit - Google Patents

Abstract

The invention relates to electrical engineering, in particular to devices that disconnect a three-phase load from a source when one of the fuses blows. The purpose of the invention is to increase reliability by reducing the number of elements. The device contains fuses 5-7 included in the power supply circuit of the electric motor 1c by the starter 11. When any of the fuses blows, the protection relay 14 is turned on and its contact 12 opens the power supply circuit of the starter I1. 2il. B i (L & Fig. 7

Description

one

1341

Device Applies to electrical engineering, in particular to devices that disconnect the three-phase load from the source when one of the fuses blows.

The objectives of the invention are to increase reliability by reducing the number of elements and the use of standard equipment.

FIG. 1 shows a diagram of the device; in fig. 2 - stress diagrams in phases.

Consumer 1 three-phase l: is connected to the input terminals 2-4 through fuses 5-7 and closing contacts 8-10 of the actuator 11, the winding of which is connected between the input terminals 3 and 4 through the opening contact Stop and the closing contact Start, and the circuit is parallel to it of the series-connected disconnecting contact 12 and the closing contact 13 of the protection relay and the actuator, respectively. Parallel to the fuse 6, the winding of the protection relay 14 is connected via a diode 15 .. Parallel to the winding of the protection relay, a capacitor 16 is turned on. The common point of the protection relay and diode is connected to two other phases through thyristors 17 and 18, the control transitions of which are connected in parallel to the corresponding fuses through resistors 19 and 20. Diodes 21 and 22, bypass the control transitions and are connected in the opposite direction of the control signal. When voltage is applied to the input terminals 2–4, no current flows to consumer 1, since contacts 8–10 of starter 11 are open. When the contact is closed, the Start through the winding of the actuator 11 is current and the contacts 8-10 and 13 are closed. The blocking contact 13 keeps the actuator 1 1 in the on state, and a three-phase current flows to the consumer 1. The rest of the circuit remains de-energized, since fuses 5-7 are not blown. When any protection fuse blows, the protection relay 14 trips and opens contact 12, thereby de-energizing the coil of actuator 11, it opens its contacts and does not turn on even after protection relay 14 closes contact 12, since contact 13 is open.

697: 2

The inclusion of a protection relay when any fuse blows is as follows.

Suppose that phases A, B, C are applied respectively to the input terminals 2-4 and the fuse 5 in phase A has blown. The voltage of the phase turns on the thyristor 17 creating a control current in the circuit of the resistor 19 when the half-wave is negative at the input and At the input of phase B, the half-wave voltage will be positive, the relay 14 will operate, and the capacitor 16, charged with this half-wave, will keep the relay 14 in the actuated state until the thyristor 17 is turned on again and the capacitor is recharged. The voltage and the time during which the capacitor 16 is charged is shown in the plot as the shaded area (first left). The moment of turning on the thyristor is indicated by a dot (taken arbitrarily). When the fuse 6 in the second fise blows out, the relay 14 is activated, and the capacitor is charged at a positive phase voltage half-wave. This voltage and the time during which it acts are shaded in the second plot on the left. When fuse 7 blows in phase C, thyristor 18 is turned on with a negative half-wave of phase C and the process repeats as it does when blown fuse 5 (in the diagram this moment is shaded third from the left). Since capacitor 6 is periodically charged, the relay is permanently turned on as long as contacts 8-10 and 13 of the starter are closed. As soon as the starter releases the contacts after opening the contact 12 of the relay, the protection circuit of the capacitor I6 will break, i.e. it will not recharge and release the relay 14 after the discharge of the capacitor 16 through the winding of the latter, closing contact 12.

Diodes 21 and 22 are set if the reverse voltages are

thyristor control transitions will be more acceptable. The plot shows the three different switching times of relay 14 and capacitor charging. The subsequent charging of the capacitor is similar to the first one.

The proposed device is simplified, since instead of three diodes, a resistor and a thyristor are inserted in one capacitor. While retaining all the properties of the existing protection, the latter is also more reliable, since the excluded elements constantly experience in the process of operation direct and reverse voltages equal to linear voltages. In addition, the starter in the proposed device is four, not contact-less. The introduction of a capacitor ensures a more reliable operation of the device, since the release of the protection relay occurs with a delay.

Claims (1)

Invention Formula A device for protection of a three-phase electrical installation against phase failure, containing power fuses for the number of phases, a protection relay, a magnetic starter, the winding of which is connected between the phases through sequentially connected contacts of the Stop buttons and Start, Start button is shunted by a chain consisting of a series-connected disconnecting contact of the protection relay and a closing contact of the magnetic starter, two thyristors connected by control switches in parallel to the end-phase fuses through a diode, a diode connected in series with the protection winding, characterized by that,: in order to increase reliability by reducing the number of elements and using standard equipment, it is additionally equipped with a capacitor, and the winding of the protection relay is switched on Allelic parallel capacitor and fuse middle phase through the diode and the output diode and the total point the winding of the protection relay is connected to the thyristor anodes. FIG. 2 Editor T. Parfenova Compiled by V. Orlov Tehred L. Serdyukova Order 4441/55 Circulation 617 Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, st. Project, 4 Proofreader A. Zimokosov