RU2258291C1 - Multichannel device for protecting three-phase power installations against abnormal operation - Google Patents

Abstract

FIELD: electrical engineering.

SUBSTANCE: proposed device has first switching unit incorporating control circuit and power contacts for connecting power buses, as well as series-connected variable resistor, thyristor, and final relay coil shorted out by diode and capacitor, all connected to terminals used for connecting first and third phase leads of first power installation; gate electrode of thyristor is connected through anode-cathode circuit of diode and series-interconnected break contacts of auxiliary relays to terminal designed for connection to first phase lead of first power installation. Device is also provided with time relay, reverse-sequence voltage filter, voltmeter, second switching units with power contacts for connecting each separate power installation in compliance with desired process, abnormal operation sensors, phasing unit, auxiliary relays with break contacts, and three-phase full-wave rectifier; parallel-connected to time make-and-break delay relay coil through series-connected make contact of time relay and break contact of final relay is switching unit tripping coil; make contact of final relay and break contact of time relay are interconnected in parallel and inserted in series with START and STOP buttons in power circuit of remote turn-on coil of first switching unit; auxiliary contact of first switching unit functions to short out START button in its control circuit.

EFFECT: enhanced reliability of protective device.

1 cl, 1 dwg

Description

The invention relates to electrical engineering and is intended for use in the relay protection of three-phase electrical installations.

A device of Loktev and Alekseev for protecting a three-phase electric motor from abnormal modes [1], comprising a switching device with power contacts for sequentially connecting to each phase wire of the electrical installation, a negative sequence voltage filter, the inputs of which are connected to the terminals for connection with the phase outputs of the electrical installation, a thyristor with variable limiting resistor in the anode circuit. The device uses a negative sequence voltage filter as a sensor of abnormal conditions, which allows it to be used in three-wire networks and with the appropriate selection of elements at supply voltages of various levels. The electrical installation is switched off in the presence of an abnormal mode by sequentially turning on two thyristors and bypassing the starter contactor coil by one of them.

The disadvantages of this device are:

1. The device does not provide self-monitoring of serviceability, namely, the failure of any element after breaking contact, soldering, wire breakage in the circuit of this device leads to the fact that the appearance of the abnormal mode does not cause protection to trip, i.e. the device does not provide a self-monitoring function.

2. The scope of this device is limited to its use only with magnetic starters, the control circuit of which requires a corresponding change, which is not always acceptable in practice, and it is not possible to use the device for tripping together with circuit breakers widely used to control three-phase electrical installations.

The closest in technical essence to the proposed technical solution is a device for protecting a three-phase installation from abnormal conditions [2], containing a switching device with a control circuit and with power contacts for connecting in series to each phase wire of the electrical installation, a negative sequence voltage filter, the inputs of which are connected to terminals for connecting to the phase outputs of the electrical installation, a thyristor with a variable limiting resistor in the anode circuit, a delay element in the form of a resistor ora and capacitor, time relay, three-phase half-wave rectifier, unbalanced resistance star, variable resistor, voltmeter, first, second and third diodes, and the inputs of a three-phase half-wave rectifier and asymmetric star are connected to the terminals for connection to the phase outputs of the electrical installation, and the output includes a coil a time relay with a deceleration to short and open, and the outputs through a series-connected make contact of the time relay and the open contact of the executive relay connected to the tripping coil of the switching apparatus, the variable limiting resistor, the thyristor and the coil of the executive relay connected in series to the terminals for connection to the first and third phase terminals of the electrical installation, the delay element through the anode-cathode of the first diode is connected to the terminals of the reverse sequence voltage filter, the thyristor control electrode through the cathode-anode of the second diode, the delay element resistor, a variable resistor, the cathode-anode of the third diode is connected to the terminal for connection with the second phase output of the electrical installation, the voltmeter is connected to the output of the negative sequence voltage filter, while the closing contact of the executive relay and the opening contact of the time relay are connected in parallel and connected in series with the "Start" and "Stop" buttons in the power supply circuit of the remote switching coil of the switching device, and the unit - the contact of the switching device shunts the Start button in its control circuit.

The disadvantages of this device is the limitation of its scope, because it can be used to protect only one electrical installation and only from asymmetric (non-phase) operation modes.

The task to which the claimed technical solution is directed is to expand the scope, namely the possibility of using to protect a group of three-phase electrical installations located compactly and connected by a single technological process from various abnormal modes, as well as to protect one critical electrical installation from various abnormal modes.

The technical result that can be obtained by implementing the proposed solution is expressed in increasing the reliability of protection by reducing the number of protective devices, facilitating maintenance and operation, reducing the time to detect abnormal conditions of electrical installations.

The stated technical problem is solved in that a protective device against abnormal operating modes of three-phase electrical installations, containing a first switching device with power contacts and a control circuit, thyristor connected in series, a variable limiting resistor in the anode circuit and an executive relay coil in the cathode circuit, shunted by the diode and capacitor connected between the first and third phase terminals of the first electrical installation, a time relay with a deceleration for short-circuiting and opening, a filter reverse sequence voltage, the inputs of which are connected to the terminals for connecting to the phase outputs of the electrical installation, and a voltmeter is connected to its output, while the closing contact of the executive relay and the opening contact of the time relay are connected in parallel and connected in series with the remote coil of the first switching device and the Start buttons "and" Stop ", the block contact of the first switching device shunts the Start button in its control circuit, characterized in that the power contacts of the first switching of the apparatus are connected to the busbars and to terminals for connecting to the mains voltage, in addition, the device is additionally equipped with second switching devices with power contacts connected to the busbars and to each individual electrical installation, sensors of abnormal modes, the inputs of which are connected either to the gap of each phase each electrical installation, or to the terminals for connecting to the phase outputs of each electrical installation, and the outputs to the coils of the intermediate relays, a phasing device connected to the first and third phase the terminals of each electrical installation, a three-phase two-half-wave rectifier, the inputs of which are connected to the terminals for connecting to the phase terminals of the first electrical installation, and the output includes a time relay coil, in parallel with which is connected through a series-connected make contact of the time relay and the disconnect contact of the executive relay, the trip coil of the first switching device, moreover, the thyristor control electrode through the anode-cathode of the diode, a resistor and series-connected disconnect contacts a daily relay is connected to a terminal for connecting to a first phase terminal of a first electrical installation.

A comparative analysis with known analogues and prototypes shows that the claimed device meets the criterion of "novelty."

The features of the characterizing part of the claims solve the following functional tasks.

Sign: "... the power contacts of the first switching device are connected to busbars and to terminals for connecting to the mains voltage" - allows you to disable the group of electrical installations.

Signs: "... the device is additionally equipped with ... second switching devices with power contacts connected to the busbars and to each individual electrical installation ..." - allow you to turn on each individual electrical installation.

Signs: "... the device is additionally equipped with ... sensors of abnormal modes, the inputs of which are connected either to the gap of each phase of each electrical installation, or to the terminals for connection with the phase outputs of each electrical installation, and the outputs to the coils of the intermediate relays ..." - allow protect electrical installations from several types of abnormal conditions.

The sign: "... the device is additionally equipped with ... a phasing device connected to the first and third phase terminals of each electrical installation ..." - allows you to set the desired phase sequence.

Signs: "... the device is equipped with ... a three-phase two-half-wave rectifier, the inputs of which are connected to the terminals for connecting to the phase terminals of the first electrical installation, and the output includes a time relay coil, in parallel with which is connected through a series-connected closing contact of the time relay and the opening contact of the executive relay trip coil of the first switching device ... "- allows you to power the trip coil of the first switching device both when the abnormal mode appears, and when enii protective device to the abnormal operation of the installation.

Signs: "... the thyristor control electrode through the anode-cathode of the diode, a resistor and a series-connected opening contacts of the intermediate relays is connected to a terminal for connection to the first phase output of the first electrical installation ..." - provides switching off the switching device when an abnormal mode occurs in any electrical installation from the group.

The invention is illustrated in the drawing, which shows a schematic diagram of the proposed protective device from abnormal operating modes of three-phase electrical installations.

The device comprises a first switching device with power contacts 1 connected to the busbars 2 and to terminals for connecting to the mains voltage, second switching devices 3, power contacts of which are connected to the busbars 2 and to each individual electrical installation from group 4, sensors 5 of abnormal modes , which can be used current sensors included in the current circuit of each phase of each electrical installation, and voltage sensors connected to the terminals for connection with the phase terminals of each electrical installation 4 groups of electrical installations. The control circuit of the first switching device consists of a coil 6 for remote switching of the switching device, connected via sequentially connected buttons 7 "Start" and 8 "Stop" and the opening contact 9 of the time relay 10 to the terminals for connecting to the line voltage of the network before the power contacts 1 of the first switching device . A circuit consisting of a thyristor 11, in the anode circuit of which a variable resistor 12 is connected, and in the cathode circuit is an executive relay coil 13, shunted by a diode 14 and a capacitor 15, connected to the terminals for connection to the first and third phase terminals of the first electrical installation from group 4. Inputs a three-phase two-half-wave rectifier 16 is connected to the terminals for connecting to the phase terminals of the first electrical installation from group 4, and the output includes a coil 10 of a time relay, in parallel through which a short-circuit conductor is connected in series clock 17 of the time relay 10 and the opening contact 18 of the actuating relay 13 is connected to the coil 19 of the release of the first switching device. Coils 20 intermediate relays are connected to the outputs of the sensors 5 abnormal modes. A circuit consisting of a series-connected diode 21, a resistor 22 and the NC contacts 23 of the intermediate relay 20 is connected between the control electrode of the thyristor 11 and the first output of the first electrical installation from group 4. The phasing device 24 is connected to the first and third phase outputs of each electrical installation in group 4. A voltmeter 25 is connected to the output of the negative sequence voltage filter 26, and its inputs are connected to the terminals for connection with the phase outputs of the first electrical installation from group 4. The closing contact 27 is the first relay 13 bypasses the opening contact 9 of the time relay 10, and the block contact 28 of the first switching device bypasses the button 7 "Start".

The device operates as follows.

When the first switching device is turned on, its power contacts 1 are closed and the mains voltage is supplied to the busbars 2. In accordance with the technological process, the second switching devices are triggered 3. When the protective device is switched on for the first time, it is necessary to use the 24 phasing device for all electrical installations in group 4 to establish a uniform order phase rotation. The appearance of voltage at the terminals of group 4 of electrical installations and in the absence of an abnormal mode in any electrical installation from group 4 causes the thyristor 11 to operate, since the control electrode circuit is closed by contacts 23 of the intermediate relays 20. Power is supplied to the coil 13 of the executive relay, which operates instantly, and the time relay 10, which is triggered with some time delay Δt. Switching of contacts 27 and 18 of the executive relay 13 and contacts 9 and 17 of the time relay 10 does not lead to a change in the state of the coils 6 and 19 (coil 6 continues to receive power through the block contact 28 of the first switching device, contact 27 of the executive relay 13 and the Stop button 8, and the circuit of the trip coil 19 remains broken by the contact 18 of the actuating relay 13).

The occurrence of an abnormal mode in any branch triggers the corresponding intermediate relay from group 20 and the opening of one of the contacts 23 in the control circuit of the thyristor 11 and its locking. The Executive relay 13 is de-energized and its contacts 27 and 18, respectively, either breaks the power supply circuit of the coil 6 of the remote switching of the first switching device (contact 27 - in the case of using the magnetic starter as the first switching device) or closes the circuit of the trip coil 19 (contact 18 - in the case of circuit breaker) and the first switching device is turned off.

When any of the second switching devices 3 is turned on to the abnormal mode of any electrical installation from group 4, the thyristor 11 is closed, the executive relay 13 does not work, and the time relay 10 with a delay Δt is turned on due to the voltage at the output of a three-phase two-half-wave rectifier 16. In this case, if as the first switching device of the magnetic starter, the opening contact 9 of the time relay 10 breaks the power supply circuit of the coil 6 of the contactor of the magnetic starter, and in case of automatic shutdown of Tell - contact 17 closes the relay coil 10 in time tripping circuit 19 and the first switching device after a time interval Δt is switched off again. The inclusion of the trip coil 19 in parallel with the time relay 10 is due to the need to supply power to it in the event of a break in any of the phases of the supply voltage.

The voltmeter 25 is used to indicate the existing asymmetry of linear voltages, the presence of an abnormal mode when the first switching device is turned on again, and also to determine the phase sequence (for the electric motor determines its direction of rotation).

The proposed technical solution increases the reliability of protection of a group of electrical installations located compactly by reducing the number of protective devices, facilitates maintenance and operation, reduces the time to detect abnormal modes of electrical installations, in addition, this technical solution allows the use of standardized sensor-relay blocks and create a single protective device for the technological complex.

Sources of information

1. USSR Copyright Certificate No. 1504716, cl. H 02 H 7/08, 1982.

2. Patent of the Russian Federation No. 2027273, cl. H 02 H 7/08, 1991.

Claims (1)

A protective device against abnormal operating conditions of three-phase electrical installations, containing a first switching device with power contacts and a control circuit, thyristor connected in series, a variable limiting resistor in the anode circuit and an executive relay coil in the cathode circuit, shunted by a diode and a capacitor, connected between the first and third phase the findings of the first electrical installation, a time relay with a deceleration to short and open, a voltage filter of the negative sequence, the inputs of which о are connected to the terminals for connection with the phase terminals of the first electrical installation, and a voltmeter is turned on at its output, while the closing contact of the executive relay and the opening contact of the time relay are connected in parallel and connected in series with the remote control coil of the first switching device and the Stop and Start buttons ", the contact block of the first switching device shunts the Start button in its control circuit, characterized in that the power contacts of the first switching device are connected to the busbars and terminals for connecting to the mains voltage, in addition, the device is additionally equipped with second switching devices with power contacts connected to the busbars and to each individual electrical installation, abnormal mode sensors, the inputs of which are connected either to the gap of each phase of each electrical installation, or to terminals for connection with phase outputs of each electrical installation, and outputs to coils of intermediate relays, a phasing device connected to the first and third phase outputs of each electrical installation, three an alternating half-wave rectifier, the inputs of which are connected to the terminals for connecting the phase terminals of the first electrical installation, and the output includes a time relay coil, in parallel with which a time relay and an actuator relay disconnect contact are connected, a trip coil of the first switching device, and the thyristor control electrode through the anode-cathode of the diode, a resistor and series-connected NC contacts of the intermediate relays connected to the terminal for unity with the first phase output of the first electrical installation.