SU721772A1 - Arrangement for monitoring phase alternation of three-phase ac voltage source - Google Patents

Description

The invention relates to the field of electrical measurements and can be used in control equipment. The device can be used as a protective device in automation circuits built on thyristor logic elements. ⁵

A device for controlling the phase rotation of a three-phase AC voltage source, containing a thyristor and a relay connected in series between two phases of a three-phase AC voltage source [1]. The disadvantage of this device is its limited functionality.

It is also known a device for control of phase sequence, which comprises a thyristor, relay, thyristor, and diode resistors (2]. And the thyristor switch connected in series and connected between two phases of a three-phase AC voltage source. Upravlya- _a gate electrode of the thyristor is connected via resistors to the third phase source voltage and with the anode of the thyristor diode, the cathode of which is connected to the cathode of the thyristor.

Such a device, having the property of protecting the energy receiver from breaking the phase of the controlled voltage, does not protect it from self-switching after a short-term voltage failure in the circuit of one phase, which can lead to a malfunction of the power receiver circuit. This circumstance narrows the scope of devices for controlling phase rotation, in particular, does not allow their use in cases where the energy receiver is automation circuits built on thyristor logic elements.

The aim of the invention is the protection of the energy receiver from the disconnection itself after a short-term disappearance of voltage in the circuit of one phase (s).

This goal is achieved by the fact that the proposed device, containing relays, thyristors, resistors, additionally contains three completely identical thyristor units, repeaters, the inputs of which are connected respectively to the phases. A, B, C of the AC voltage source, while the output of the first repeater is connected to the input the second repeater, the output of the second with the input of the third, the output of the third with the input of the first repeater, as well as a button whose make contact connects the input of one of the three repeaters through a resistor with a phase, under connected to this repeater, and the outputs of all three repeaters are connected to an OR diode unit connected to a relay, the make contacts of which connect the power receiver to a three-phase AC voltage source.

The drawing shows a diagram of a device for controlling phase rotation, which contains three completely identical thyristor repeater circuits 1.23. block OR 4, assembled on ₁₅ diodes 5, 6, 7, start button 8, limiting resistance 9, relay 10.

Thyristor repeaters 1, 2, 3 are connected respectively to phases A, B, C (and each of them is connected to the “0” bus of the source) connecting the source 11 of the three-phase alternating voltage to the energy receiver 12. The repeaters are interconnected in such a way that the output of the repeater 1 is connected to the input of the repeater 2, the output of the repeater 2 is connected to the input of the repeater 3, the output of the repeater 3 is connected to the input of the repeater 1, i.e. all three thyristor repeaters are connected in a ring. The closing contact of button 8 connects the input of one of the repeaters with the phase connected to this ₃₀ repeaters. Relay 10 is connected to the OR circuit 4 and to the bus "0 ',' of a three-phase AC voltage source.

After connecting the device to a source-controlled three-phase AC ₃₅ HA conjugation relay 10 is not turned on (even if the phases and you have all the correct sequence of phases), as all three thyristors thyristor repeaters closed · Launching device can only be done after pressing the button 8, ₄₀ after which interlace with the correct phase thyristor opens, part of the repeater 1 that leads to opening of the next thyristor constituting the repeater 2. This is due to the fact that ₄₅ of the nutrition of the repeater 2 uschestvlyaetsya from the subsequent phase relative to the phase control voltage. Opening the thyristor, which is part of the repeater 2, causes the opening of the thyristor, which is part of the repeater 3. ₅ θ Thus, with the correct phase rotation, all the thyristors included in the ring open sequentially and a three-phase rectified voltage is applied to the relay 16. Relay Ϊ0 turns on. ₅₅

After pressing button 8, in the case of incorrect phase rotation, the thyristor opens, which is part of the repeater 1 at the time the button is pressed, but this does not open the thyristor, which is part of the repeater 2, since the power of the repeater 2 is carried out from the previous phase. to the phase of the control voltage. Thus, with improper phase rotation, all thyristors included in the ring are closed and relay 10 remains off.

After a short-term loss of voltage in the circuit of any phase for a time longer than the turn-off time of the thyristor, the latter turns off, which entails sequential switching off of the remaining thyristors of the ring and turning off relay 10. A relay, the inclusion of which indicates the correct phase rotation and the absence of an open circuit in one or more phases, it turns on only when three conditions are fulfilled again; the correct phase rotation, the absence of an open circuit in the circuit of one or several phases, the operator supplying a start signal from the start button 8.

The proposed device for monitoring the phase rotation compares favorably with the prototype in that in addition to controlling the phase rotation in the presence of all phases of a three-phase AC voltage, it allows you to protect the energy receiver from self-switching after a short-term voltage failure in the circuit of one phase (phases). In addition, it is assembled from three completely identical thyristor repeater circuits, which facilitates its manufacture and commissioning.

Claims (3)

37 the output of the second - with the input of the third, the output of the third - with the input of the first repeater, as well as the button, the closing contact of which connects the input of one of the three repeaters through a resistor to the phase connected to this repeater, and the output of all three repeaters are connected to the diode unit OR connected to a relay, the closing contacts of which connect the energy receiver to a three-phase alternating naff source. The drawing shows a diagram of a device for controlling phase rotation, which contains three completely identical circuits of thyristor repeaters 1.23, block OR 4 assembled on diodes 5, b, 7, start button 8, resistance organizer 9, relay 10. Thyristor repeaters 1, 2, 3 are connected respectively to phases A, B, C (and each of them is connected to the O bus of the source), connecting the source 11 of a three-phase alternating voltage with the receiver 12 of energy. The repeaters are interconnected so that the output of the repeater 1 is connected to the input of the repeater 2, the output of the repeater the 2nd input of the repeater 3, the output of the repeater the 3rd input of the repeater 1, i.e. All three thyristor repeaters are connected in a ring. The closing contact of button 8 connects the input of one of the repeaters to a phase connected to this repeater. Relay 10 is connected to the circuit OR 4 and to the bus O of the source of three-phase alternating voltage. After connecting the device to the source of controlled three-phase alternating voltage, relay 10 does not turn on (even with correct phase rotation and all phases are present), taK as thyristors of all three thyristor repeaters are closed. The device can be started up only after pressing button 8, after which, with proper phase rotation, the thyristor, which is part of repeater 1, is turned off, which leads to the next thyristor, which is part of repeater 2. This is due to the fact that the power supply to the repeater 2 is from the next phase relative to the phase of the control voltage. The opening of the thyristor, which is part of the repeater 2, is opened by the opening of the thyristor, which is part of the repeater 3. Thus, with proper phase rotation, all the thyristors entering the ring successively open and a three-phase external voltage is applied to the relay 10. Relay 10 is turned on. After pressing button 8, in the case of incorrect phase alternation, the thyristor, which is part of repeater 1, is pressed at the time of pressing the button, but this does not lead to the opening of the thyristor, which is part of repeater 2, since the power of the repeater 2 comes from the previous phase in relation to the control voltage phase. Thus, with an incorrect phase sequence, all the thyristors entering the ring are closed and the relay 10 remains off. After a short disappearance of the voltage in the circuits of any phase for a time longer than the thyristor off, the latter turns off, which entails the sequential switching off of the remaining thyristors of the ring and the switching off of the relay 10. The relay, which turns on, signals the correctness of phase alternation and the absence of an open circuit in one or several phases, is turned on only when three conditions are met again; correct phase rotation, the absence of an interruption in the circuit of one or several phases, the operator’s triggering signal from the start button 8. The proposed device for controlling the phase alternation favorably differs from the prototype by the fact that besides the phase rotation control in the presence of all three-phase alternating voltage phases it allows to protect the energy receiver from self-switching after a short-term disappearance of the voltage in the circuit of one phase (s). In addition, it is assembled from three completely identical thyristor repeater circuits, which facilitates its manufacture and adjustment. Apparatus of the Invention A device for controlling the alternation of phases of a three-phase alternating voltage source containing relays, thyristors, resistors, differing from the fact that, in order to protect the energy receiver from self-switching after short-term voltage disappears in the phase (phase) circuit, it additionally contains three fully identical blocks of thyristor repeaters, the inputs of which are connected respectively to phases A, B, C of the alternating voltage source, the output of the first repeater is connected to the input of the second repeater, the output of the second the third input, the third output to the input of the first repeater, as well as a button, the closing contact of which connects the input of one of the three repeaters via a resistor with a phase that is connected to this repeater, and the outputs of all three repeaters are connected to the diode unit OR, which is connected to relays, the closure of which connect the receiving 572 772 peak energy k-istoshku three-phase change-I. USSR Copyright Certificate № 309318 voltage G 01 R 29/18, 1911. Sources of information, 2. USSR Copyright Certificate № 391500, taken into account in the examination. G 01 R 29/18, 1973.