SU1004917A1 - Device for checking phase alternation in three-phase network - Google Patents

Description

(5) DEVICE FOR MONITORING THE ALTERATION OF THE PHASES OF A THREE-PHASE NETWORK

The invention relates to electrical measurements and can be used in automatic monitoring and control systems powered by a three-phase network. A device for automatically controlling the correctness of phase alternation is known, which contains square pulse drivers, symmetric three heras, a coincidence element, and an inverter 1. However, this device is very complex. Closest to the proposed invention is a device for signaling alternating phases of a three-phase alternating voltage source, containing a first thyristor, the anode of which is connected to the second phase, the cathode through the first resistor to zero phase, and the control electrode through the second resistor is connected to the first phase, the second a thyristor connected in series with the first output from the actuator and connected to the zero phase by the cathode, the third resistor connected to the control electrode of the second thyristor 2 3. However, in the known device with the correct alternation of phases, the actuating element operates in intermittent mode. This circumstance does not allow the device to be used to protect energy receivers from improper alternation and phase failure, which limits its functionality. The purpose of the invention is to increase the reliability of the operation of the device by ensuring the continuous operation of the actuator with proper phase rotation. Delivered: This goal is achieved by the fact that the device containing the first thyristor, the anode of which is connected to the second phase, the cathode through the first resistor to the zero phase and the control electrode through the second resistor is connected to the first phase, the second thyristor connected in series with the first output of the actuator and the cathode connected to the zero phase, the third resistor is connected to the control electrode of the second thyristor, a three-phase rectifier, an optocoupler, a fourth resistor and a diode are introduced, and the output of the three-phase rectifier connected to the second terminal of the actuating element, the input light emitter of the optocoupler is connected with one terminal of a zero-phase. the other terminal connects the fourth resistor and the diode to the third phase sequentially, the photocoupler of the optocoupler is connected to the cathode of the first thyristor by one output, and the other output connected to the other output of the third resistor. The drawing shows a schematic diagram of the proposed device. The device contains a three-phase rectifier 1, to the input of which a three-phase voltage is applied, thyristors 2 and 3, resistors t - 7, diode 8, optocoupler 9, actuating element 10. Thyristor 2 is connected by anode to second phase 1G, and by cathode through resistor 7 to the common point of the zero phase with the cathode of the thyristor 3 of the resistor 7 and the cathode of the light emitter of the optocoupler 9, and its control electrode through the resistor k is connected to the first phase 1. The thyristor 3 through the actuating element 10 is connected to the output of the three-phase rectifier 1, and its control electrode through follower n connected resistor 6 and photodetector Optocoupler 9 is connected to the cathode of the thyristor 2. The anode of the light emitter of the optocoupler 9 through a resistor 5 and the diode 8 is connected to the third phase 01.. The device works as follows. After connecting the device to a source of controlled three-phase voltage with the correct alternation of phases 1–111, thyristors 2 and 3 are sequenced. The operation of the thyristor 2 occurs at those times when the phase voltage at its anode becomes positive, and the positive voltage of phase 1 still acts on the control electrode. The thyristor 2 operates and remains almost open

Claims (1)

before the end of the positive half-wave phase (I. and, therefore, from the li phase through the thyristor 2 and the resistor 7 current flows. With the arrival of the positive half-wave phase L through a series-connected diode 8, the firing resistor 5 and the optocoupler 9 light emitter causes the optocoupler to operate 9 and at the same time the positive potential of phase II through the thyristor 2, the optocoupler 9 and the limiting resistor 6 turns on the thyristor 3. This triggers the actuator 6, which signals (blocks) the rules In the case of incorrect phase alternation 1 - .111, the positive half-wave voltage of phase 1I triggers the optocoupler 9 at those times when the thyristor 2 is disconnected, since at that time the thyristor 2 is active the negative half wave of the source phase li and the power element does not turn on: When one or more phases disappear, the voltage at the output of the rectifier 1 becomes pulsed, and in the intervals between the pulses it becomes zero and the current n) flowing through the actuator 10 and the thyristor 3, at these moments decreases to zero, which leads to the disconnection of the thyristor 3 and the actuator 10. The proposed device for controlling the phase sequence of a three-phase network with the correct phase rotation ensures the continuous operation of the actuator. This allows it to be used not only for signaling the correctness of phase alternation, but also in the protection schemes of energy receivers against incorrect alternation and phase failure, which greatly expands the functionality. The invention The device for controlling the alternation of the phases of a three-phase network, containing the first thyristor, the anode of which is KjW-4eH to the second phase, the cathode through the first resistor to the zero phase, and the control electrode through the second