RU124069U1 - DEVICE FOR PROTECTIVE DISCONNECTING OF ELECTRICAL INSTALLATION FROM AC NETWORK WITH THREE PHASE WIRES AND ZERO WIRE - Google Patents

Abstract

A device for protective disconnection of an electrical installation from an alternating current main with three phase wires and a neutral wire, comprising an automatic circuit breaker with an independent trip coil, a differential current transformer with primary windings according to the number of supply wires of the electric network and one secondary and additional windings, three identical resistors, each which is connected by one output to the corresponding phase wires of the network, a threshold element, a power supply and a rectifier, characterized in that to non-ground Three diodes are additionally connected to the positive terminal of the additional winding of the differential transformer, and their negative terminals are connected to the three phase wires of the network, and the second end of the additional winding of the differential transformer is connected to both the positive terminal of the diode, which is connected to the neutral wire of the network through the resistor, and the second conclusions three identical resistors, while the power supply contains a three-phase transformer, the primary winding of which is connected to three phase wires of the network, neutral the point of which is connected to the neutral wire, and the ends of the secondary winding are connected to the negative terminals of the three diodes, respectively, whose positive terminals are grounded, and the beginnings of the three secondary windings are interconnected and connected in series to the first terminal of the capacitor, the second terminal of which is grounded, and in series interconnected by a resistor and a negative terminal of the LED, the positive terminal of which is connected to the input of the resistor, in parallel to which a capacitor is connected, as well as to the positive terminal

Description

The utility model relates to the field of electrical engineering, namely, devices for protecting electrical lines, machines, devices and people from electric shock, is intended for electrical installations that receive energy through a four-wire AC network, and can be used in industrial and residential premises.

A device for the protective disconnection of an electrical installation from an alternating current main with three phase wires and a neutral wire comprising a first asymmetry that is connected to phase wires and a neutral wire of the network, a first zero-sequence current transformer, with a secondary winding of which a relay coil is connected through a first amplifier with an NC contact in the power circuit of the coil of the magnetic starter, while it is additionally equipped with a second asymmetry, a zero-sequence current transformer and an amplifier moreover, the second asymmetry is connected to the phase wires of the network so that its currents do not flow through the primary windings of the zero sequence current transformer, the zero point of the second asymmetry is connected to the zero wire of the network through the primary winding of the second zero sequence current transformer, and the secondary winding of this current transformer is connected to the input of the second amplifier, the output of which is connected to the output of the first amplifier and the relay coil according to the voltage comparison circuit (US Pat. RF №2017299 Н02Н 3/16 // Н02Н 5/10).

The disadvantages of this device are:

1. A circuit with a magnetic starter cannot be used to disconnect a short circuit in the network, since it is intended for switching the network.

2. The complexity of the circuit (two asymmetries, two current transformers of zero sequence) and, as a consequence, low reliability.

3. The circuit does not work with two- and three-phase circuits in the network. The closest analogue to the claimed device relates to a device for protective shutdown in an electrical AC network with a grounded neutral, containing a circuit breaker with an independent release coil, a differential current transformer with primary windings by the number of supply wires of the electric network and one secondary winding and a threshold element with an output key and a power node, the power leads of which are connected to one of the phase wires and to the neutral wire of the network, respectively, while the terminals of the secondary winding of the differential current transformer are connected to the input of the threshold element, as well as a rectifier, while a two-anode zener diode, a resistor are introduced, an additional winding is introduced into the differential current transformer, one output of which is connected to ground, and the other output is connected through two-anode zener diode and a resistor connected in series with a neutral wire of the network and through a series-connected output key, a shunt coil and a rectifier with a phase wire of the network, three of one resistors, each of which is connected by one terminal to the corresponding phase wire of the network, and their other terminals are connected to the ungrounded terminal of the additional winding of the differential transformer.

The disadvantages of this device are:

1. If the phase wire of the network is broken, the disconnecting circuit power supply will not be operational.

2. If the neutral wire is broken, the circuit will not work, since the voltage from the disconnecting coil of the automatic shutdown will disappear.

3. In the event of a short circuit between two phases to which the shunt trip coil is not connected, the circuit is not operational.

4. The circuit will not work in emergency mode in the power supply network (in front of the consumer meter) in the event of a phase wire shorting to a neutral wire.

Therefore, we can conclude about the low reliability of the tripping.

The objective of the invention is to increase the reliability of the protective shutdown.

The problem is solved due to the fact that the device for the protective disconnection of the electrical installation from an alternating current main with three phase wires and a neutral wire contains an automatic circuit breaker with an independent release coil, a differential current transformer with primary windings according to the number of supply wires of the electric network and one secondary and additional winding , to the grounded terminal of which the conclusions of three identical resistors are connected, each of which is connected by another terminal to the corresponding three wires of the network, a threshold element, a power unit and a rectifier, while the diode terminal of the additional winding of the differential transformer is additionally connected with positive terminals three diodes, and its negative terminals to three phase wires of the network, and the second end of the additional winding of the differential transformer is connected to the positive terminal of the diode , which is connected through a resistor to the neutral wire of the network, while the power supply contains a three-phase transformer, the primary winding of which is connected to phase wires of the network, the neutral point of which is connected to the neutral wire, and the ends of the secondary winding are connected to the negative terminals of the three diodes, respectively, the positive terminals of which are grounded, and the beginning of the three secondary windings are interconnected and connected in series as the first clamp of the capacitor, the second clamp of which is grounded, and in series connected between each other by a resistor and a negative terminal of the LED, the positive terminal of which is connected to the input of the resistor in parallel to which is connected to the capacitor, as well as to the positive terminal of the zener diode, the negative terminal of which is grounded, the output of the resistor is connected to the inputs of both the resistor, the output of which is grounded, and the input of the divider, the output of which through the resistor is connected to the negative terminal of the operational amplifier, while the third output of the divider is connected to the collector transistor, while its emitter is connected both to the input of the resistor, the output of which is grounded, and to the input of the coil of an independent trip, the output of which is grounded, and the base of the transistor is connected to the output of the resistor.

New significant features:

1. Three diodes are additionally connected with the positive terminals to the non-grounded terminal of the additional winding of the differential transformer, and the negative terminals to the three phase wires of the network.

2. The second end of the additional winding of the differential transformer is connected to the positive terminal of the diode, which is connected in series with the resistor and connected to the neutral wire of the network, to which the second terminals of three identical resistors are connected.

3. The power supply unit contains a three-phase transformer, the primary winding of which is connected to the three phase wires of the network, the neutral point of which is connected to the neutral wire.

4. The ends of the secondary winding are connected to the negative terminals of the three diodes, respectively, whose positive terminals are grounded.

5. The beginnings of the three secondary windings are interconnected in series, connected both to the first terminal of the capacitor, the second terminal of which is grounded, and to the resistor and the negative terminal of the LED connected in series.

6. The positive terminal of the LED is connected to the input of the resistor, in parallel with which a capacitor is connected, as well as the positive terminal of the zener diode, the negative terminal of which is grounded.

7. The output of the resistor is connected to the inputs of both the resistor, the output of which is grounded, and the input of the divider, the output of which through the resistor is connected to the negative terminal of the operational amplifier, while the third output of the divider is connected to the collector of the transistor.

8. The emitter of the transistor is connected both to the input of the resistor, the output of which is grounded and to the input of the coil of an independent trip, the output of which is grounded, and the base of the transistor is connected to the output of the resistor.

The listed new essential features, together with the known ones, are necessary and sufficient to achieve a technical result in all cases to which the requested amount of legal protection applies.

The technical result is to increase reliability and expand the functions of protective shutdown.

When a signal occurs in the secondary winding of the differential transformer, the leakage current is equal to or higher than the set current, the operational amplifier is triggered, a positive signal passes through the zener diode, the transistor opens and the circuit breaker opens with an independent release coil. Due to the fact that the circuit is powered from a three-phase transformer, the neutral point of the primary winding of which is connected to the neutral wire of the network, the circuit will be operable when the voltage of the network disappears even in two phases, when the third phase remains energized and poses a danger to personnel who may touch her. The presence in the circuit of stabilization elements allows you to get the voltage on the coil of an independent release, with a single-phase power supply, different from its nominal value by no more than 2.5%.

Figure 1 presents the electrical circuit of the device for the protective disconnection of the electrical installation from the AC mains with three phase wires and a neutral wire.

Device for protective disconnection of an electrical installation from an alternating current main with three phase wires (L ₁ L ₂ , L ₃ ) and a neutral wire (N) containing an automatic switch 1 with an independent release coil 2. Also a differential current transformer 3 with primary windings 4 according to the number of supply wires of the electric network and one secondary 5 and an additional winding 6, to the grounded terminal of which the conclusions of three identical resistors 7, 8, 9 are connected, each of which (connected by another terminal to the corresponding phase wires of the set and, the threshold element 10, the power supply 11 and the rectifier 12. In this case, three diodes 13, 14, 15 are additionally connected to the non-grounded terminal of the additional winding 6 of the differential transformer 3, and with their minus terminals to three phase wires of the network, and the second end of the additional winding 6 of the differential transformer 3 is connected to the positive terminal of the diode 16, which is connected through a resistor 17 to the neutral wire of the network. The power supply 11 contains a three-phase transformer 18, the primary winding of which is connected to three phase wires of the network, the neutral point of which is connected to the neutral wire, and the ends of the secondary winding 20 are connected to the negative terminals of the three diodes 21, 22, 23, respectively, whose positive terminals are grounded. The beginnings of the three secondary windings 20 are interconnected and connected in series to both the first terminal of the capacitor 24, the second terminal of which is grounded, and the resistor 25 and the negative terminal of the LED 26 connected in series. The positive terminal of the LED 26 is connected to the input of the resistor 27, parallel to which it is connected capacitor 28, as well as to the positive terminal of the zener diode 29, the negative terminal of which is grounded. The output of the resistor 27 is connected to the inputs of both the resistor 30, the output of which is grounded, and the input of the divider 31, the output of which through the resistor 32 is connected to the negative terminal of the operational amplifier 33. The third output of the divider 31 is connected to the collector of the transistor 34, while its emitter is connected both with the input of the resistor 35, the output of which is grounded, and with the input of the coil of an independent release 2 of the circuit breaker 1, the output of which is grounded, and the base of the transistor 34 is connected to the output of the resistor 36.

The device operates as follows:

1. If the phase L ₃ is broken, the current will pass from the unbroken phases L ₁ and L ₂ to the resistors 7 and 8 connected to the grounded terminal of the additional winding 6 of the differential transformer 3, through which to the plus terminals of the two diodes 13, 14, the negative terminals of which are connected to two phase unbroken wires of the network L ₁ and L ₂ . A voltage will appear in the secondary winding 5 of the differential transformer 3, which is rectified by the threshold element 10, and if the unbalance current in this winding is equal to or greater than the setpoint current on the operational amplifier 33, then the circuit is triggered. The transistor 34 opens and turns on the coil of the shunt trip 2 of the circuit breaker 1, which disconnects it. Since the voltage through the phases L ₁ L ₂ and the neutral wire N will be supplied to the secondary winding 20 of the differential transformer 18 through the primary winding 19 of the same differential transformer is rectified and smoothed by diodes 21, 22, 23, and the current will go through the circuit capacitor 24 - resistor 25 - LED 26 - stabilization unit, consisting of a resistor 27, in parallel with which a capacitor 28 is connected and a zener diode 29 is connected at the input of the resistor 27, the second end of which is grounded, and a resistor 30 is connected to the output of the resistor 27, the second output of which is grounded , from the output of the resistor 27, the current will go through a series-connected divider 31 - resistor 32 to the negative terminal of the operational amplifier 33, from the third output of the divider 31, the current will go to the collector of the transistor 34. The signal from the operational amplifier 33 is fed through the resistor 36 to the base of the transistor 34. Transistor 34 the collector - emitter is activated and closes the circuit and the current goes to the coil of the shunt trip 2 of the circuit breaker 1, which opens the power circuit. The circuit will continue to work.

2. If two phases L ₃ and L ₂ break, the current passes through the circuit from the unbroken phase L ₁ to the resistor 7 connected to the grounded terminal of the additional winding 6 of the differential transformer 3, through which to the plus terminal of the diode 13, and the negative terminal to the phase unbroken wire network. When two phases L ₃ and L ₂ break, a single-phase voltage will appear in the primary winding 19 of the differential transformer 18, and a three-phase voltage will appear on the secondary winding 20 of the differential transformer 18 and the current will go through the circuit similar to the first case. The circuit will continue to work.

3. When the neutral wire N is cut off in the supply network - the classic grounding-grounding scheme is used, the unbalance current (only 10 mA is needed) will go from the neutral wire connected to the re-grounding (not shown in Fig.) Through resistor 17, diode 16, additional winding 6 differential transformer 3, through the positive terminals of the three diodes 13, 14, 15 and will close to the phase wires of the network. The applied three-phase voltage to the primary winding 19 of the differential transformer 18 will be respectively three-phase and to the secondary winding 20 of the differential transformer 18, and the current will flow similarly to the first case considered. The circuit will continue to work.

4. Closing phase L ₃ to N in the supply network (in front of the consumer meter) - the current will flow from the point of short circuit through the neutral wire through the resistor 17, diode 16, additional winding 6 of the differential transformer 3, to the positive terminals of two diodes 13, 14 connected with intact phase wires of the network. The voltage on the primary winding 19 of the differential transformer 18 will be two-phase, and on the secondary winding 20 of the differential transformer 18 it will be three-phase and the current will flow similarly to the first case considered. The circuit will continue to work.

5. In the case of a three-phase short circuit, the power supply to the amplifier and the supply coil will disappear, therefore, the network will turn off.

Claims (1)

A device for protective disconnecting an electrical installation from an alternating current main with three phase wires and a neutral wire, comprising an automatic circuit breaker with an independent release coil, a differential current transformer with primary windings according to the number of supply wires of the electric network and one secondary and additional windings, three identical resistors, each which is connected by one output to the corresponding phase wires of the network, a threshold element, a power supply and a rectifier, characterized in that to non-ground three diodes are additionally connected to the positive terminal of the additional winding of the differential transformer, and their negative terminals are connected to the three phase wires of the network, and the second end of the additional winding of the differential transformer is connected both to the positive terminal of the diode, which is connected to the neutral wire of the network through the resistor, and the second conclusions three identical resistors, while the power supply contains a three-phase transformer, the primary winding of which is connected to three phase wires of the network, neutral the point of which is connected to the neutral wire, and the ends of the secondary winding are connected to the negative terminals of three diodes, respectively, whose positive terminals are grounded, and the beginnings of the three secondary windings are interconnected and connected in series to the first terminal of the capacitor, the second terminal of which is grounded, and in series interconnected by a resistor and a negative terminal of the LED, the positive terminal of which is connected to the input of the resistor, in parallel to which a capacitor is connected, as well as to the positive terminal mm zener diode, the negative terminal of which is grounded, the output of the resistor is connected to the inputs of both the resistor, the output of which is grounded, and the input of the divider, the output of which through the resistor is connected to the negative terminal of the operational amplifier, while the third output of the divider is connected to the collector of the transistor, the output of which is grounded, and with the input of the coil of an independent trip, the output of which is grounded, and the base of the transistor is connected to the output of the resistor.

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