SU767892A1 - Device for protecting electric installation against change in phase sequence of supply mains - Google Patents

Description

(54) DEVICE FOR ELECTRICAL INSTALLATION

from CHANGES OF ALTERNATING PHASES OF FEEDING 1, i ... The invention relates to protective devices of electric drives and mechanisms driven by them. Devices are known for protecting mechanisms from alternating alternating power supply network faults, containing switching elements in the motor control circuit of the mechanism and phase-sensitive elements fl and the closest to the invention in technical terms and the effect achieved is to protect mechanisms from alternating phases of the power supply network, containing switching elements in the motor control circuit of the mechanism and a phase rotation sensor, whose elements are connected to the star from a capacitor, resistors rectifiers feed counter included winding polarized relay. The phase rotation sensor is connected to the input terminals of the reversible contactors and is powered from the same network as the wired motor. When cx is connected, we connect the polarized relay contacts to the three-phase voltage source in one of two positions depending on the alternation of the power supply network and connect the corresponding circuits of reversing contactors and switching elements (buttons, switches) to the power supply network. in the electric drive control circuit p. This device is difficult and does not have sufficient reliability primarily due to the fact that the circuits of reversible contactors and switching elements are fed through the contacts of a polarized relay, the windings of which, in turn, receive power through rectifying bridges and phase-sensitive elements ( resistors, capacitor). The lack of reliability of the device is especially apparent when it is used under shock and vibration conditions. The purpose of the invention is to simplify the device and increase its reliability. This goal is achieved by the fact that in a device for protecting an electrical installation from changing the alternation of the phases of the supply network, containing switching elements — reversible contactors in the electrical control circuit, control buttons for contactors, and a phase-sensitive unit connected to the network phases, phase-sensitive. BbinojuieH blobk Nb thyristor, directly connected to the kag chain

767892

the ears of the reversible contactors, the control electrodes of the thyristors, through the subsequently connected resistor, are connected to one of the phases of the network, and the anodes of the thyristors through the coils of the forward and reverse directions and the corresponding elements of the forward direction are connected respectively to the second and third phases of the supply network simultaneously and , switching elements of the reverse direction, - to the third and second phases of the supply network, the thyristor cathodes through the corresponding disconnecting contacts of the contactors yucheny to the neutral conductor.

The drawing shows the principal CX (this device.

The device contains phase-sensitive thyristor elements 1 and 2, in the circuits of reversing contactors 3 and 4, respectively, of the forward and reverse direction, the forward and 6 reverse buttons 5, contacts 7-14 of the retractors, the current limiting 1.5, providing the necessary delay control signal, and 16 in the control circuit of the thyristors and divisive: common diodes 17 and 18.

The device works with eduk dim about-times. .

When a three-phase supply voltage is supplied to the device with an arbitrary order of phase alternation, for example, corresponding to the one shown in the drawing and the button is closed, 5 forward direction, the thyristor anode 1 and contactor 3 forward direction is connected to the phase B from the center from A of the control electrode of the thyristor, and the circuit of the anode of the thyristor 2 and the contactor 4 of the reverse direction is connected to phase C, which is ahead of phase A of the control elec- trby. The thyristor 1 opens already at the beginning of the positive half-period of phase B with the control current of phase A and the contactor 3 is triggered by the circuit of phase B-thyristor 1-zero wire. Pins 7-10 of contactor 3 are switched accordingly, ensuring the normal operation of the mechanism. The contactor 4 does not operate at this because the thyristor 2 does not open due to the toga; that the voltage on the dynistor 15 from phase L appears only at the end of the positive half period of phase C and the dynistor opens when the positive half period of phase C ends. When changing the order of alternation of phases in the mains, for example when changing the FAs A and B and closing the button 5 for the direct direction, to phase C, the circuit from the phase B of the control electrode of the thyristor connects the thyristor 2 and the reverse contactor 4 direction, and the circuit of the thyristor 1 and the contactor 3 is connected to the phase A, which is ahead of the phase B of the control electrode. The thyristor 2 opens and the contactor 4 is activated, contacts 11-14 are switched, to ensure the movement of the mechanism in the same direction. Contactor 3 when etsm

does not work. When exposed to

The reverse button 6 process is similar.

Technical appraisal advantages of the invention in comparison with the known and similar devices conclude that contactors, connected to the movement of the mechanism, are connected to the mains without any contact devices of the phase rotation sensor, which simplifies the device and increases its reliability. The advantages of the proposed device are especially evident when it is operated under conditions, impacts and vibrations.

Claims (1)

1. USSR author's certificate No. 425260, cl. H 02 H 3/26, 1974. 2, USSR Author's Certificate 421087, cl. H 02 H 7/08, 1974. ll 3. USSR Author's Certificate 299006, cl. H 02 R 1/40, 1963. jpb-fc -,. 767892 / 1 fl. C D / g fr --OiO- Jrv f- 5n & -f f j (i-o o n