RU124453U1 - PROTECTIVE CIRCUIT BREAKER (OPTIONS) - Google Patents

Abstract

1. The residual current device includes a first resistor, a first diode, a second diode, a second resistor, a third resistor, a first capacitor, a threshold element, a thyristor, a zener diode, a fifth capacitor, a fourth resistor, a diode bridge, a second capacitor, a third capacitor, a fourth capacitor, a varistor , a trip coil with a trip, a testing device that consists of a button and a fifth resistor, as well as a differential current transformer that includes a magnetic core, a primary winding and a secondary winding, a navit on the magnetic core, contacts for connecting the primary winding to the load, mechanically connected to the trip unit, while the primary winding of the differential current transformer is made in the form of neutral and phase wires of the power supply network, and the first terminal of the secondary winding of the differential current transformer is connected to the second terminal of the first resistor, the cathode the first diode, the anode of the second diode and the first terminal of the second resistor, and the second terminal of the secondary winding of the differential current transformer is connected to the first output of the first resistor, the anode of the first diode, the cathode of the second diode and the first output of the third resistor, while the second output of the second resistor is connected to the second output of the threshold element and the second output of the first capacitor, while the second output of the third resistor is connected to the third output of the threshold element and the first the output of the first capacitor, the fifth output of the threshold element is connected to the control electrode of the thyristor and the second output of the fourth capacitor, the sixth output of the threshold element is connected to the second

Description

Application area

The residual current device relates to electrical engineering, in particular, to automatic devices for protecting people from electric shock in the event of contact with live parts of electrical networks or electrical equipment and the occurrence of leakage current.

State of the art

It is known that a device for protective shutdown in an electric network with an earthed neutral is selected as the closest analogue, containing a differential transformer with two primary and one secondary windings and an electromagnet disconnecting coil of the switching device, when the make contacts are closed, the voltage from the electric network through the primary windings of the differential transformer is closed, associated with different conclusions of the network, is fed into the load and to the input terminals of the rectifier bridge, characterized in the secondary winding of the differential transformer is shunted in parallel by the first resistor and the first capacitor, the first and second terminals of the secondary winding of the differential transformer are connected through the corresponding second and third resistors to the corresponding first and second inputs of the operational amplifier and the first and second terminals of the second capacitor, between the second input of the operational amplifier and a common wire, a first input of an operational amplifier and a common wire, an output of an operational amplifier and the third, fourth, and sixth capacitors are included in the common wire, respectively, the transistor base is connected to the output of the operational amplifier through the fourth resistor, the emitter of which is directly connected to the input of the threshold key circuit and through the fifth resistor and capacitor connected in parallel with the common wire, the collector of the transistor through the seventh the resistor is connected to the power input of the electronic circuit, to which the power terminals of the operational amplifier and the threshold key circuit are connected, between the input and output between the exact cascade of the threshold key circuit includes a seventh capacitor, between the output of the intermediate cascade of the threshold key circuit and the common wire, the power output of the threshold key circuit and the common wire include the eighth and ninth capacitors, respectively, the first input terminal of the rectifier bridge is connected to the first terminal of the electromagnet coil, the second terminal which is connected to the thyristor anode, the positive terminal of the rectifier bridge is connected to the second terminal of the eleventh resistor through a light-emitting diode, through a sixth th resistor - with a power input, and through a voltage divider from the eighth and ninth resistors - with a common wire that is connected to the negative terminal of the rectifier bridge, the middle terminal of the voltage divider through the tenth capacitor is connected to a common wire, through a zener diode connected in series and a tenth resistor connected in parallel and the eleventh capacitor is connected to a common wire, while the thyristor cathode is connected to a common wire, and its control terminal is connected to a common point of the zener diode anode, the tenth resistor and one the eleventh capacitor, which is connected through the diode to the output of the threshold key circuit (publication RU 2319269, cl. IPC H02H 3/16, publ. 03/10/2008 Bull. No. 7)

The disadvantages of the known device are: lack of noise immunity, lack of protection of the device against surge voltage, high power consumption, low reliability due to lack of protection at leakage currents other than sinusoidal, low stability of protection against high voltage.

Utility Model Disclosure

The technical result that can be obtained in the claimed utility model is to increase the reliability of the protective shutdown device, increase the noise immunity of the device, protect the device from surge voltage, create the ability to disconnect the load with a sinusoidal and pulsating direct leakage current, as well as reduce power consumption.

The technical result is achieved in that in a residual current device including a first resistor, a first diode, a second diode, a second resistor, a third resistor, a first capacitor, a threshold element, a thyristor, a zener diode, a fifth capacitor, a fourth resistor, a diode bridge, a second capacitor, a third a capacitor, a fourth capacitor, a varistor, a trip coil with a trip, a testing device that consists of a button and a fifth resistor, as well as a differential current transformer that includes a magnetic core, the primary winding and the secondary winding wound on the magnetic core, the contacts for connecting the primary winding to the load, mechanically connected to the release, the primary winding of the differential current transformer is made in the form of neutral and phase wires of the power supply, and the first terminal of the secondary winding of the differential current transformer is connected to the second the output of the first resistor, the cathode of the first diode, the anode of the second diode and the first output of the second resistor, and the second output of the secondary differential winding of the current transformer is connected to the first terminal of the first resistor, the anode of the first diode, the cathode of the second diode and the first terminal of the third resistor, while the second terminal of the second resistor is connected to the second terminal of the threshold element and the second terminal of the first capacitor, while the second terminal of the third resistor is connected to the third the output of the threshold element and the first output of the first capacitor, the fifth output of the threshold element is connected to the control electrode of the thyristor and the second output of the fourth capacitor, the sixth output of the por of the first element is connected to the second terminal of the second capacitor, the seventh terminal of the threshold element is connected to the second terminal of the third capacitor, the eighth terminal of the threshold element is connected to the anode of the zener diode, the second terminal of the fifth capacitor and the first terminal of the fourth resistor, while the first terminal of the diode bridge is connected to the cathode of the thyristor and the second terminal of the fourth resistor, the second terminal of the diode bridge is connected to the first and fourth terminals of the threshold element, the first conclusions of the second, third, fourth condensation orov, thyristor anode, zener diode cathode, first output of the fifth capacitor, the third terminal of the diode bridge is connected to the second terminal of the varistor and the neutral wire of the primary winding of the differential current transformer, and the fourth terminal of the diode bridge is connected to the second terminal of the trip coil, while the first terminal of the trip coil is connected with the first output of the varistor and the phase wire of the primary winding of the differential current transformer, and the neutral wire of the primary winding of the differential current transformer on one side of the magnetic core is connected through a fifth resistor connected in series and the button with the phase conductor of the primary winding of the differential current transformer on the other side of the magnetic core.

Also, the technical result is achieved by the fact that in the residual current device including the first resistor, the first diode, the second diode, the second resistor, the third resistor, the first capacitor, the threshold element, the thyristor, the zener diode, the fifth capacitor, the fourth resistor, the diode bridge, the second capacitor, a third capacitor, a fourth capacitor, a varistor, a trip coil with a trip unit, a testing device that consists of a key, a button and a fifth resistor, as well as a differential current transformer that includes magnetic the first core, the primary winding and the secondary winding wound on the magnetic core, the contacts for connecting the primary winding to the load, mechanically connected to the release, the primary winding of the differential current transformer is made in the form of neutral and phase wires of the power supply network, and the first terminal of the secondary winding of the differential current transformer connected to the second terminal of the first resistor, the cathode of the first diode, the anode of the second diode and the first terminal of the second resistor, and the second terminal of the secondary winding di a current transformer is connected to the first terminal of the first resistor, the anode of the first diode, the cathode of the second diode and the first terminal of the third resistor, while the second terminal of the second resistor is connected to the second terminal of the threshold element and the second terminal of the first capacitor, while the second terminal of the third resistor is connected to the third the output of the threshold element and the first output of the first capacitor, the fifth output of the threshold element is connected to the control electrode of the thyristor and the second output of the fourth capacitor, pole the th output of the threshold element is connected to the second terminal of the second capacitor, the seventh terminal of the threshold element is connected to the second terminal of the third capacitor, the eighth terminal of the threshold element is connected to the anode of the zener diode, the second terminal of the fifth capacitor and the first terminal of the fourth resistor, while the first terminal of the diode bridge is connected to the cathode the thyristor and the second terminal of the fourth resistor, the second terminal of the diode bridge is connected to the first and fourth terminals of the threshold element, the first terminals of the second, third, fourth of the capacitors, the thyristor anode, the zener diode cathode, the first terminal of the fifth capacitor, the third terminal of the diode bridge is connected to the second terminal of the varistor and the neutral wire of the primary winding of the differential current transformer, and the fourth terminal of the diode bridge is connected to the second terminal of the trip coil, while the first terminal of the trip coil connected to the first output of the varistor and the phase wire of the primary winding of the differential current transformer, and the neutral wire of the primary winding of the differential transformer rmatora current from one side of the magnetic core is coupled through series connected switch, resistor and a fifth key with a phase wire of the primary winding of the differential current transformer on the other side of the magnetic core, wherein the key is mechanically connected with the contacts.

Also, the technical result is achieved by the fact that in the residual current device including the first resistor, the first diode, the second diode, the second resistor, the third resistor, the first capacitor, the threshold element, the thyristor, the zener diode, the fifth capacitor, the fourth resistor, the diode bridge, the second capacitor, third capacitor, fourth capacitor, varistor, trip coil with trip unit, sixth resistor, seventh resistor, eighth resistor, sixth capacitor, stabistor, ninth resistor, LED, testing device that It consists of a button and a fifth resistor, as well as a differential current transformer, which includes a magnetic core, a primary winding and a secondary winding wound on a magnetic core, contacts for connecting the primary winding to the load, mechanically connected to the release, the primary winding of the differential current transformer is made in the form neutral and phase wires of the power supply network, and the first terminal of the secondary winding of the differential current transformer is connected to the second terminal of the first resistor, the cathode p the first diode, the anode of the second diode and the first terminal of the second resistor, and the second terminal of the secondary winding of the differential current transformer is connected to the first terminal of the first resistor, the anode of the first diode, the cathode of the second diode and the first terminal of the third resistor, while the second terminal of the second resistor is connected to the second terminal the threshold element and the second terminal of the first capacitor, while the second terminal of the third resistor is connected to the third terminal of the threshold element and the first terminal of the first capacitor, the fifth terminal is the th element is connected to the thyristor control electrode and the second terminal of the fourth capacitor, the first terminal of the stabilizer, the sixth terminal of the threshold element is connected to the second terminal of the second capacitor, the seventh terminal of the threshold element is connected to the second terminal of the third capacitor, the eighth terminal of the threshold element is connected to the anode of the zener diode, the second terminal the fifth capacitor and the first terminal of the fourth resistor, wherein the first terminal of the diode bridge is connected to the cathode of the thyristor, the second terminal of the fourth resistor, the second terminal of the sixth resistor and the second terminal of the ninth resistor, the second terminal of the diode bridge is connected to the first and fourth terminals of the threshold element, the first terminals of the second, third, fourth, fifth and sixth capacitors, the first terminal of the eighth resistor, the thyristor anode, the LED anode, the zener diode cathode, the third terminal of the diode bridge is connected to the second terminal of the varistor and the neutral wire of the primary winding of the differential current transformer, and the fourth terminal of the diode bridge is connected to the second terminal of disconnection carcasses, wherein the first output of the disconnection coil is connected to the first output of the varistor and the phase wire of the primary winding of the differential current transformer, and the second output of the stabilizer is connected to the first output of the sixth resistor, the second output of the seventh resistor, the second output of the sixth capacitor, and the first output of the seventh resistor connected to the second terminal of the eighth resistor, and the cathode of the LED is connected to the first terminal of the ninth resistor, in addition, the neutral wire of the primary winding of the differential trans Shaper current from one side of the magnetic core is connected through a fifth resistor connected in series and the button with the phase conductor of the primary winding of the differential current transformer on the other side of the magnetic core.

Brief Description of the Drawings

The claimed protective shutdown device is illustrated using the drawings shown in figures 1-3.

At the same time, Fig. 1 is a diagram of the protective shutdown device of the first embodiment of the present utility model, in Fig. 2 is a second embodiment, and in Fig. 3 is a third embodiment.

Utility Model Implementation

The claimed protective circuit breaker of the first embodiment, shown in figure 1, includes a first resistor 5, a first diode 6, a second diode 7, a second resistor 8, a third resistor 9, a first capacitor 10, a threshold element 11, a thyristor 12, a zener diode 13, the fifth a capacitor 14, a fourth resistor 15, a diode bridge 16, a second capacitor 17, a third capacitor 18, a fourth capacitor 19, a varistor 20, a trip coil 21 with a trip, a testing device that consists of a button 22 and a fifth resistor 23, as well as a differential transformer current, which comprises a magnetic core 2, a primary coil 3 and a secondary coil 4 wound on the magnetic core 2, pins 1 to connect the primary winding to the load 3, mechanically connected to the trip unit.

The primary winding 3 of the differential current transformer is made in the form of neutral N and phase L wires of the power supply network.

The first terminal of the secondary winding 4 of the differential current transformer is connected to the second terminal of the first resistor 5, the cathode of the first diode 6, the anode of the second diode 7 and the first terminal of the second resistor 8. The second terminal of the secondary winding 4 of the differential current transformer is connected to the first terminal of the first resistor 5, the anode of the first diode 6, the cathode of the second diode 7 and the first output of the third resistor 9.

The second terminal of the second resistor 8 is connected to the second terminal of the threshold element 11 and the second terminal of the first capacitor 10.

The second terminal of the third resistor 9 is connected to the third terminal of the threshold element 11 and the first terminal of the first capacitor 10. The fifth terminal of the threshold element 11 is connected to the control electrode of the thyristor 12 and the second terminal of the fourth capacitor 19, the sixth terminal of the threshold element 11 is connected to the second terminal of the second capacitor 17, the seventh terminal of the threshold element 11 is connected to the second terminal of the third capacitor 18, the eighth terminal of the threshold element 11 is connected to the anode of the zener diode 13, the second terminal of the fifth capacitor 14 and the first pin the fourth resistor 15.

The first terminal of the diode bridge 16 is connected to the cathode of the thyristor 12 and the second terminal of the fourth resistor 15, the second terminal of the diode bridge 16 is connected to the first and fourth terminals of the threshold element 11, the first terminals of the second 17, third 18, fourth 19 capacitors, the anode of the thyristor 12, the cathode of the zener diode 13, by the first terminal of the fifth capacitor 14, the third terminal of the diode bridge 16 is connected to the second terminal of the varistor 20 and the neutral wire N of the primary winding 3 of the differential current transformer, and the fourth terminal of the diode bridge 16 is connected to the second output of the trip coil 21.

The first output of the trip coil 21 is connected to the first output of the varistor 20 and the phase wire L of the primary winding 3 of the differential current transformer.

The neutral wire N of the primary winding 3 of the differential current transformer on one side of the magnetic core 2 is connected, through the fifth resistor 23 and the button 22 connected in series, to the phase wire L of the primary winding 3 of the differential current transformer on the other side of the magnetic core.

The claimed protective shutdown device of the second embodiment, shown in figure 2, differs from the protective shutdown device of the first embodiment in that the testing device consists of a series-connected key 31, button 22 and a fifth resistor 23. In this case, the neutral wire N of the primary winding 3 the differential current transformer on one side of the magnetic core 2 is connected, through a series-connected key 31, a fifth resistor 23 and a button 22, with a phase wire of the primary winding 3 of the differential ransformatora current on the other side of the magnetic core. A key 31 is mechanically connected to the contacts 1. It is preferable that the contacts 1 were installed on the neutral wire N and on the phase wire L of the primary winding 3 of the differential current transformer between the junction of the key 31 with the specified neutral wire N and the button 22 with the specified phase wire L primary winding 3 differential current transformer. This is necessary so that the key 31 interacts with the contacts 1 through the shortest connector, which guarantees the reliable operation of the residual current device as a whole.

The claimed residual current device of the third embodiment of the present utility model, shown in FIG. 3, differs from the residual current device of the first embodiment in that it further includes a sixth resistor 24, a seventh resistor 25, an eighth resistor 26, a sixth capacitor 27, a stabilizer 28, and a ninth resistor 29, LED 30.

In this case, the first terminal of the secondary winding 4 of the differential current transformer is connected to the second terminal of the first resistor 5, the cathode of the first diode 6, the anode of the second diode 7 and the first terminal of the second resistor 8, and the second terminal of the secondary winding 4 of the differential current transformer is connected to the first terminal of the first resistor 5 , the anode of the first diode 6, the cathode of the second diode 7 and the first output of the third resistor 9.

The second terminal of the second resistor 8 is connected to the second terminal of the threshold element 11 and the second terminal of the first capacitor 10.

The second terminal of the third resistor 9 is connected to the third terminal of the threshold element 11 and the first terminal of the first capacitor 10.

The fifth output of the threshold element 11 is connected to the control electrode of the thyristor 12 and the second output of the fourth capacitor 19, the first output of the stabilizer 28, the sixth output of the threshold element 11 is connected to the second output of the second capacitor 17, the seventh output of the threshold element 11 is connected to the second output of the third capacitor 18, eighth the output of the threshold element 11 is connected to the anode of the zener diode 13, the second output of the fifth capacitor 14 and the first output of the fourth resistor 15.

The first terminal of the diode bridge 16 is connected to the cathode of the thyristor 12, the second terminal of the fourth resistor 15, the second terminal of the sixth resistor 24 and the second terminal of the ninth resistor 29, the second terminal of the diode bridge 16 is connected to the first and fourth terminals of the threshold element 11, the first terminals of the second 17, third 18, fourth 19, fifth 14 and sixth 27 capacitors, the first terminal of the eighth resistor 26, the anode of the thyristor 12, the anode of the LED 30, the cathode of the zener diode 13, the third terminal of the diode bridge 16 is connected to the second terminal of the varistor 20 and a neutral wire house the primary winding of the differential current transformer 3, and the fourth terminal of the diode bridge 16 is connected to a second terminal of the tripping coil 21.

The first output of the trip coil 21 is connected to the first output of the varistor 20 and the phase wire of the primary winding 3 of the differential current transformer.

The second terminal of the stabilizer 28 is connected to the first terminal of the sixth resistor 24, the second terminal of the seventh resistor 25, and the second terminal of the sixth capacitor 27.

The first terminal of the seventh resistor 25 is connected to the second terminal of the eighth resistor 26, and the cathode of the LED 30 is connected to the first terminal of the ninth resistor 29.

The neutral wire N of the primary winding 3 of the differential current transformer on one side of the magnetic core 2 is connected, through the fifth resistor 23 and the button 22 connected in series, to the phase wire L of the primary winding 3 of the differential current transformer on the other side of the magnetic core 2.

The claimed protective shutdown device of the first embodiment, presented in figure 1, operates as follows.

When the contacts 1 are closed, alternating current through the neutral N and phase L wires of the primary winding 3 of the differential current transformer is supplied to the load and to the third and fourth terminals of the rectifier bridge 16.

In standby mode, in the absence of leakage current at the terminals of the secondary winding 4 of the differential current transformer, there is no voltage, since the total current in the conductors of the primary winding 3 is zero. The input of the diode bridge 16 receives the mains voltage. And the threshold element 11 receives power from a rectifier formed by a diode bridge 16, a fourth resistor 15 and a fifth capacitor 14. To maintain a given level of supply voltage, a zener diode 13 is used, included after the rectifier. To ensure the necessary performance characteristics of the threshold element 11, the second 17 and third 18 capacitors are used. Moreover, in standby mode, the thyristor 12 is closed, since the voltage level at the second and third outputs of the threshold element 11 is lower than the threshold voltage, and therefore there is no voltage at the fifth output of the threshold element 11 and at the control electrode of the thyristor 12 and does not leak through the coil 21 current.

If a leakage current occurs in the mains or electrical circuit in the neutral N and / or phase L wires of the primary winding 3 of the differential current transformer, the current balance is disturbed, as a result of which the differential current leads to the appearance of magnetic flux in the magnetic core 2, while in the secondary winding 4 of the differential a current transformer forms an alternating voltage proportional to the resulting leakage current. Through the filter, equalizing the waveform formed by the first 5, second 8, third 9 resistors and the first capacitor 10, the input voltage is supplied to the second and third terminals of the threshold element 11. To protect the terminals of the threshold element 11 from voltage surges, the first diode 6 and second 7 a diode connected in parallel with the first resistor 5. If the voltage received at the terminals of the threshold element 11 is higher than the threshold of the threshold element 11, then the voltage applied to the control is generated at the fifth output of the threshold element 11 gate electrode of the thyristor 12 and the thyristor 12 is opened. The current flowing through the diode connecting the third and first terminals of the diode bridge 16, the thyristor 12, the diode connecting the second and fourth terminals of the diode bridge 16 is supplied to the trip coil 21, after which the release, mechanically acting on the contacts 1, opens them, thereby stopping the voltage supply from the network (from the neutral N and phase L wires of the primary winding 3 of the differential current transformer) to the load.

To protect the diode bridge 16 from increased pulse voltage, a varistor 20 is used, connected in parallel with the third and fourth terminals of the diode bridge 16.

A testing device that includes a fifth resistor 23 and a button 22 connected in series simulates the occurrence of a leakage current. When the button 22 is closed, a sufficient current starts to flow through the fifth resistor 23 to cause a differential current transformer in the secondary winding 4, voltage above the threshold voltage of the actuation of the threshold element 11. In this case, a voltage is supplied to the control electrode of the thyristor 12 at the fifth output of the threshold element 11, and thyristor 12 opens. The current flowing through the diode connecting the third and first terminals of the diode bridge 16, the thyristor 12, the diode connecting the second and fourth terminals of the diode bridge 16, is supplied to the trip coil 21, after which the release, mechanically acting on the contacts 1, opens them, thereby stopping the supply of voltage from the network (from neutral N and phase L wires of the primary winding 3 of the differential current transformer) to the load.

The claimed protective shutdown device of the second embodiment, presented in figure 2, works as follows.

When the contacts 1 are closed, alternating current through the neutral N and phase L wires of the primary winding 3 of the differential current transformer is supplied to the load and to the third and fourth terminals of the rectifier bridge 16.

In standby mode, in the absence of leakage current at the terminals of the secondary winding 4 of the differential current transformer, there is no voltage, since the total current in the conductors of the primary winding 3 is zero. The input of the diode bridge 16 receives the mains voltage. And the threshold element 11 receives power from a rectifier formed by a diode bridge 16, a fourth resistor 15 and a fifth capacitor 14. To maintain a given level of supply voltage, a zener diode 13 is used, included after the rectifier. To ensure the necessary performance characteristics of the threshold element 11, the second 17 and third 18 capacitors are used. Moreover, in standby mode, the thyristor 12 is closed, since the voltage level at the second and third outputs of the threshold element 11 is lower than the threshold voltage, and therefore there is no voltage at the fifth output of the threshold element 11 and at the control electrode of the thyristor 12 and does not leak through the coil 21 current.

If a leakage current occurs in the mains or electrical circuit in the neutral N and / or phase L wires of the primary winding 3 of the differential current transformer, the current balance is disturbed, as a result of which the differential current leads to the appearance of magnetic flux in the magnetic core 2, while in the secondary winding 4 of the differential a current transformer forms an alternating voltage proportional to the resulting leakage current. Through the filter, equalizing the waveform formed by the first 5, second 8, third 9 resistors and the first capacitor 10, the input voltage is supplied to the second and third terminals of the threshold element 11. To protect the terminals of the threshold element 11 from voltage surges, the first diode 6 and second 7 a diode connected in parallel with the first resistor 5. If the voltage received at the terminals of the threshold element 11 is higher than the threshold of the threshold element 11, then the voltage applied to the control is generated at the fifth output of the threshold element 11 gate electrode of the thyristor 12 and the thyristor 12 is opened. The current flowing through the diode connecting the third and first terminals of the diode bridge 16, the thyristor 12, the diode connecting the second and fourth terminals of the diode bridge 16 is supplied to the trip coil 21, after which the release, mechanically acting on the contacts 1, opens them, thereby stopping the voltage supply from the network (from the neutral N and phase L wires of the primary winding 3 of the differential current transformer) to the load.

To protect the diode bridge 16 from increased pulse voltage, a varistor 20 is used, connected in parallel with the third and fourth terminals of the diode bridge 16.

A testing device that includes a fifth key 31, a resistor 23, and a button 22 connected in series, simulates the occurrence of a leakage current. Contacts 1 are in the closed position when the key is closed 31 and in the open position when the key is open 31, since the key 31 is mechanically connected to the contacts 1. The key 31 opens when the contacts 1 open, and closes when closed. The presence of the key 31 protects the output circuit from the appearance of a dangerous potential when the contacts 1 are open and the button 22 is pressed.

When the button 22 is closed, a sufficient current starts to flow through the key 31 and the fifth resistor 23 to cause a differential current transformer to appear in the secondary winding 4, a voltage above the threshold voltage of the actuation of the threshold element 11. In this case, a voltage is supplied to the control electrode at the fifth output of the threshold element 11 thyristor 12, and thyristor 12 opens. The current flowing through the diode connecting the third and first terminals of the diode bridge 16, the thyristor 12, the diode connecting the second and fourth terminals of the diode bridge 16, is supplied to the trip coil 21, after which the release, mechanically acting on the contacts 1 and the key 31 connected to them opens them, thereby stopping the supply of voltage from the network (from neutral N and phase L wires of the primary winding 3 of the differential current transformer) to the load.

The claimed protective shutdown device of the third embodiment, presented in figure 3, works as follows.

When the contacts 1 are closed, alternating current through the neutral N and phase L wires of the primary winding 3 of the differential current transformer is supplied to the load and to the third and fourth terminals of the rectifier bridge 16.

In standby mode, in the absence of leakage current at the terminals of the secondary winding 4 of the differential current transformer, there is no voltage, since the total current in the conductors of the primary winding 3 is zero. The input of the diode bridge 16 receives the mains voltage. And the threshold element 11 receives power from a rectifier formed by a diode bridge 16, a fourth resistor 15 and a fifth capacitor 14. To maintain a given level of supply voltage, a zener diode 13 is used, included after the rectifier. To ensure the necessary performance characteristics of the threshold element 11, the second 17 and third 18 capacitors are used. Moreover, in standby mode, the thyristor 12 is closed, since the voltage level at the second and third outputs of the threshold element 11 is lower than the threshold voltage, and therefore there is no voltage at the fifth output of the threshold element 11 and at the control electrode of the thyristor 12 and does not leak through the coil 21 current.

If a leakage current occurs in the mains or electrical circuit in the neutral N and / or phase L wires of the primary winding 3 of the differential current transformer, the current balance is disturbed, as a result of which the differential current leads to the appearance of magnetic flux in the magnetic core 2, while in the secondary winding 4 of the differential a current transformer forms an alternating voltage proportional to the resulting leakage current. Through the filter, equalizing the waveform formed by the first 5, second 8, third 9 resistors and the first capacitor 10, the input voltage is supplied to the second and third terminals of the threshold element 11. To protect the terminals of the threshold element 11 from voltage surges, the first diode 6 and second 7 a diode connected in parallel with the first resistor 5. If the voltage received at the terminals of the threshold element 11 is higher than the threshold of the threshold element 11, then the voltage applied to the control is generated at the fifth output of the threshold element 11 gate electrode of the thyristor 12 and the thyristor 12 is opened. The current flowing through the diode connecting the third and first terminals of the diode bridge 16, the thyristor 12, the diode connecting the second and fourth terminals of the diode bridge 16 is supplied to the trip coil 21, after which the release, mechanically acting on the contacts 1, opens them, thereby stopping the voltage supply from the network (from the neutral N and phase L wires of the primary winding 3 of the differential current transformer) to the load.

To protect the diode bridge 16 from increased pulse voltage, a varistor 20 is used, connected in parallel with the third and fourth terminals of the diode bridge 16.

A testing device that includes a fifth resistor 23 and a button 22 connected in series simulates the occurrence of a leakage current. When the button 22 is closed, a sufficient current starts to flow through the fifth resistor 23 to cause a differential current transformer in the secondary winding 4, voltage above the threshold voltage of the actuation of the threshold element 11. In this case, a voltage is supplied to the control electrode of the thyristor 12 at the fifth output of the threshold element 11, and thyristor 12 opens. The current flowing through the diode connecting the third and first terminals of the diode bridge 16, the thyristor 12, the diode connecting the second and fourth terminals of the diode bridge 16, is supplied to the trip coil 21, after which the release, mechanically acting on the contacts 1, opens them, thereby stopping the supply of voltage from the network (from neutral N and phase L wires of the primary winding 3 of the differential current transformer) to the load.

The LED 30 connected to the ninth resistor 29 forms a signal circuit, which is an indicator of the presence of voltage on the first and second inputs of the diode bridge 16. If this voltage is present, the LED 30 emits light.

Unlike the first two versions of the claimed residual current circuit breaker, the third embodiment provides a circuit that protects the load from overvoltage in the network, which is built using a stabilizer 28. This circuit consists of the aforementioned stabilizer 28, sixth 24, seventh 25, eighth 26 resistors and the sixth capacitor 27.

The opening threshold of the stabilizer 28 is set by the sixth 24, the seventh 25, the eighth 26 resistors and the sixth capacitor 27. When the voltage values at the first and second terminals of the diode bridge 16 are higher than the opening voltage of the stabilizer 28, the voltage and thyristor 12 are supplied to the control electrode of the thyristor 12 through the stabilizer 28 opens, after which the current flowing through the diode connecting the third and first terminals of the diode bridge 16, the thyristor 12, the diode connecting the second and fourth terminals of the diode bridge 1, 6 is supplied to the trip coil 21, the release, mechanically eystvuya pins 1, opens them, thereby disconnects the power supply from the network to the load.

Thus, by introducing the threshold element and the elements connected to it, the reliability of the protective shutdown device is increased, the device is protected from surge surges, the ability to disconnect the load with a sinusoidal and pulsating direct leakage current is created, and the power consumption of the protective shutdown device is reduced, and due to the introduction in the device for protective shutdown of the varistor, the device is protected from surge surges. In addition, the noise immunity of the device is ensured by introducing a zener diode into the device into the power supply circuit of a threshold element, and increasing the reliability of load protection from increased voltage is provided by introducing a stabilizer with constant characteristics into the device.

Claims (3)

1. The residual current device includes a first resistor, a first diode, a second diode, a second resistor, a third resistor, a first capacitor, a threshold element, a thyristor, a zener diode, a fifth capacitor, a fourth resistor, a diode bridge, a second capacitor, a third capacitor, a fourth capacitor, a varistor , a trip coil with a trip, a testing device that consists of a button and a fifth resistor, as well as a differential current transformer that includes a magnetic core, a primary winding and a secondary winding, a navit on the magnetic core, contacts for connecting the primary winding to the load, mechanically connected to the trip unit, while the primary winding of the differential current transformer is made in the form of neutral and phase wires of the power supply network, and the first terminal of the secondary winding of the differential current transformer is connected to the second terminal of the first resistor, the cathode the first diode, the anode of the second diode and the first terminal of the second resistor, and the second terminal of the secondary winding of the differential current transformer is connected to the first output of the first resistor, the anode of the first diode, the cathode of the second diode and the first output of the third resistor, while the second output of the second resistor is connected to the second output of the threshold element and the second output of the first capacitor, while the second output of the third resistor is connected to the third output of the threshold element and the first the output of the first capacitor, the fifth output of the threshold element is connected to the control electrode of the thyristor and the second output of the fourth capacitor, the sixth output of the threshold element is connected to the second water of the second capacitor, the seventh terminal output of the threshold element is connected to the second terminal of the third capacitor, the eighth terminal terminal is connected to the zener diode anode, the second terminal of the fifth capacitor and the first terminal of the fourth resistor, while the first terminal of the diode bridge is connected to the cathode of the thyristor and the second terminal of the fourth resistor, the second terminal of the diode bridge is connected to the first and fourth terminals of the threshold element, the first terminals of the second, third, fourth capacitors, the thyristor anode, the cathode a lithron, the first terminal of the fifth capacitor, the third terminal of the diode bridge is connected to the second terminal of the varistor and the neutral wire of the primary winding of the differential current transformer, and the fourth terminal of the diode bridge is connected to the second terminal of the trip coil, while the first terminal of the trip coil is connected to the first terminal of the varistor and phase the primary winding of the differential current transformer, and the neutral wire of the primary winding of the differential current transformer on one side of the magnetic core and is connected through a fifth resistor connected in series and the button with the phase conductor of the primary winding of the differential current transformer on the other side of the magnetic core. 2. The residual current device includes a first resistor, a first diode, a second diode, a second resistor, a third resistor, a first capacitor, a threshold element, a thyristor, a zener diode, a fifth capacitor, a fourth resistor, a diode bridge, a second capacitor, a third capacitor, a fourth capacitor, a varistor , a trip coil with a trip, a testing device that consists of a key, a button and a fifth resistor, as well as a differential current transformer that includes a magnetic core, a primary winding and a secondary winding, wound on a magnetic core, contacts for connecting the primary winding to the load, mechanically connected to the trip unit, while the primary winding of the differential current transformer is made in the form of neutral and phase wires of the power supply network, and the first terminal of the secondary winding of the differential current transformer is connected to the second terminal of the first resistor, the cathode of the first diode, the anode of the second diode and the first terminal of the second resistor, and the second terminal of the secondary winding of the differential current transformer is connected connected to the first terminal of the first resistor, the anode of the first diode, the cathode of the second diode and the first terminal of the third resistor, while the second terminal of the second resistor is connected to the second terminal of the threshold element and the second terminal of the first capacitor, while the second terminal of the third resistor is connected to the third terminal of the threshold element and the first output of the first capacitor, the fifth output of the threshold element is connected to the control electrode of the thyristor and the second output of the fourth capacitor, the sixth output of the threshold element is connected to w by the second output of the second capacitor, the seventh output of the threshold element is connected to the second output of the third capacitor, the eighth output of the threshold element is connected to the zener diode anode, the second output of the fifth capacitor and the first output of the fourth resistor, while the first output of the diode bridge is connected to the cathode of the thyristor and the second output of the fourth resistor , the second terminal of the diode bridge is connected to the first and fourth terminals of the threshold element, the first terminals of the second, third, fourth capacitors, the anode of the thyristor, the cathode a zener diode, the first terminal of the fifth capacitor, the third terminal of the diode bridge is connected to the second terminal of the varistor and the neutral wire of the primary winding of the differential current transformer, and the fourth terminal of the diode bridge is connected to the second terminal of the trip coil, while the first terminal of the trip coil is connected to the first terminal of the varistor and phase the primary winding of the differential current transformer, and the neutral wire of the primary winding of the differential current transformer on one side of the magnetic dechnika coupled via series connected switch, resistor and a fifth key with a phase wire of the primary winding of the differential current transformer on the other side of the magnetic core, wherein the key is mechanically connected with the contacts. 3. The residual current device includes a first resistor, a first diode, a second diode, a second resistor, a third resistor, a first capacitor, a threshold element, a thyristor, a zener diode, a fifth capacitor, a fourth resistor, a diode bridge, a second capacitor, a third capacitor, a fourth capacitor, a varistor , a trip coil with a trip, a sixth resistor, a seventh resistor, an eighth resistor, a sixth capacitor, a stabilizer, a ninth resistor, an LED, a testing device that consists of a button and a fifth resistor, as well as a differential an initial current transformer, which includes a magnetic core, a primary winding and a secondary winding wound on a magnetic core, contacts for connecting the primary winding to the load, mechanically connected to the trip unit, while the primary winding of the differential current transformer is made in the form of neutral and phase wires of the power supply network, and the first terminal of the secondary winding of the differential current transformer is connected to the second terminal of the first resistor, the cathode of the first diode, the anode of the second diode and the first the output of the second resistor, and the second terminal of the secondary winding of the differential current transformer is connected to the first terminal of the first resistor, the anode of the first diode, the cathode of the second diode and the first terminal of the third resistor, while the second terminal of the second resistor is connected to the second terminal of the threshold element and the second terminal of the first capacitor, wherein the second terminal of the third resistor is connected to the third terminal of the threshold element and the first terminal of the first capacitor, the fifth terminal terminal is connected to the control elec the thyristor ode and the second output of the fourth capacitor, the first output of the stabilizer, the sixth output of the threshold element is connected to the second output of the second capacitor, the seventh output of the threshold element is connected to the second output of the third capacitor, the eighth output of the threshold element is connected to the anode of the zener diode, the second output of the fifth capacitor and the first output the fourth resistor, while the first terminal of the diode bridge is connected to the cathode of the thyristor, the second terminal of the fourth resistor, the second terminal of the sixth resistor and the second in water of the ninth resistor, the second terminal of the diode bridge is connected to the first and fourth terminals of the threshold element, the first terminals of the second, third, fourth, fifth and sixth capacitors, the first terminal of the eighth resistor, the thyristor anode, the LED anode, the zener diode cathode, the third terminal of the diode bridge is connected to the second output of the varistor and the neutral wire of the primary winding of the differential current transformer, and the fourth output of the diode bridge is connected to the second output of the trip coil, while the first output of the cat disconnection shafts are connected to the first terminal of the varistor and the phase wire of the primary winding of the differential current transformer, and the second terminal of the stabilizer is connected to the first terminal of the sixth resistor, the second terminal of the seventh resistor, the second terminal of the sixth capacitor, while the first terminal of the seventh resistor is connected to the second terminal of the eighth resistor, and the cathode of the LED is connected to the first output of the ninth resistor, in addition, the neutral wire of the primary winding of the differential current transformer on one side of the magnetic erdechnika coupled via series connected resistor and a fifth key with a phase wire of the primary winding of the differential current transformer on the other side of the magnetic core.

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