SU982135A1 - Device for protective disconnection electric installation with earthing main line connected to protective line of distribution station - Google Patents

Description

(50 DEVICE FOR PROTECTIVE DISCONNECTION OF ELECTRICAL INSTALLATION WITH THE DATING TRUNK CONNECTED TO THE PROTECTIVE DISTRIBUTOR

one

The invention relates to electrical equipment, namely, devices for protective disconnection of an electrical installation with a driving cable connected to the protective highway of the distribution point, and designed to ensure the safety of the personnel during insulation breakdown or when a person touches live parts of an electrical equipment supplied from a three-phase low-voltage AC network. grounded neutral current, as well as to prevent fire due to damage to the insulation of the electrical installation.

Claims (2)

It is known a device of protective disconnection of an electrical installation in a three-phase AC network containing a measuring current transformer, the primary winding of which is connected to the vanishing circuit, and the secondary winding through a rectifier is connected to the output unit from the resistance control relay, the depletion circuit and the locking relay of blind locking i, whose contacts included in the circuit of the executive body, the transformer of the operational current, the primary winding of which through the switch is connected between one of the phases and the zeroing circuit and to which n an alarm element is connected, and the winding of the control relay of the zeroing circuit with series connected by the newly introduced first health control button and adjustable resistor, bridged by the disconnecting contact of the control resistance of the zeroing circuit, is connected in parallel with the winding of the dead-end latching relay with series-connected resistor and adjustable resistor, bridged the newly introduced second health monitoring button, with the secondary winding of the transformer operative39 8 volts of current are included in the dissection of the zoning circuit G 1 3.  However, this device has a low sensitivity for monitoring the current to the housing and the resistance of the protective circuit, so it cannot be considered to be a sufficiently reliable means of preventing electrical damage to the electrical installation personnel, especially if the installation is transient, has a cable. but-plug connection to the power supply network and works in the open air, in a dusty conductive or humid environment. The closest to. The invention, according to its technical nature, is a device for protective disconnection of an electrical installation with a zan (its line connected to the protective distribution network of a distribution point containing a contactor, the first normally open contact of the first control button, a multi-winding voltage transformer connected between one of the the phases and the vanishing line of the device, the first of the secondary windings of which is connected in series with the aforementioned contact of the first control button, first s and blo contact of the contactor.  In order to increase the safety of personnel by protecting the electrical installation with increasing above the set value of the resistance of the protective circuit, as well as in case of failure of the control circuit of the current circuit on the housing, two relay blocks, a second rectifier, a resistor, a second control button and an additional secondary winding of the transformer are additionally introduced voltage, with the first input of the first relay unit connected to the output of the first rectifier, its second input and the first input of the second relay unit successively with a resistor and a second disconnecting contact of the first control button are connected to the output of the second rectifier tel, and the second input of the second relay unit is connected between the output of the second rectifier and the closing contact of the second control button connected to the additional secondary winding of the voltage transformer, and the opening contact of the first relay unit and the closing contact 4 of the second relay unit are connected in series to the control winding circuit of the contactor, the block contact of which is connected in parallel the first first contact contact of the first control button, the input of the first rectifier is connected between the protective circuit of the supply cable and the emergency main of the distribution point, and the input of the second rectifier is connected between the control circuit of the supply cable and the secondary secondary winding of the voltage transformer 2.  The disadvantages of this device include technological complexity due to the use of double-wound relays, which are absent in the product range of the USSR industry; lack of sensitivity to control the current to the body (ground); reduced reliability of protection due to the inclusion of the rectifier in the protective circuit.  The aim of the invention is to increase sensitivity and reliability.  To achieve this goal, a device for protectively disconnecting an electrical installation with a vanishing highway connected to the emergency highway of the distribution center, contains a stabilized voltage transformer with a two-section secondary winding, the primary winding of which is connected to the phase conductor through a capacitor and the core and the middle outlet the secondary windings of the stabilized voltage transformer are connected to the driving main; the first section of the secondary winding of the stabilized voltage transformer is connected to the winding of the electromagnetic contactor through the first control button, shunted by a contactor block terminal, and the output element of the reacting organ; A summing current sensor connected to the protective and control conductors of the supply cable and the second section of the secondary winding of a stabilized voltage transformer, an adjustable resistor divider, a second control button and a reacting element powered by a stabilized voltage transformer, summed 1) current transformer with two primary windings, the first primary winding of the current transformer is connected to the protective conductor of the supply cable, and the second primary winding is the same A current stator connected to the control core circuit is bridged with the second control button and parallel to the second section of the secondary winding of the stabilized voltage transformer an adjustable resistor divider is connected, with the newly introduced second adjustable resistor connected between the output of the second section of the secondary winding of the stabilized voltage transformer and the point connecting the second control button and the second primary winding of the current transformer, the first input of the reacting op is connected to the specified point gan, the second input of which is connected to the secondary winding of the current transformer.  The reacting organ contains an executive relay, a capacitor, a thyristor, a zener diode, the third newly introduced adjustable resistor, the first second, third diodes, the closing contact of the executive relay, the first winding terminal of the executive relay connected to the anode of the thyristor, and the second winding terminal of the executive relay is connected the cathode of the first diode, the anode of which through the third adjustable resistor is connected to the output of the second section of the secondary winding of the stabilized transformer for voltage, and the capacitor is connected n Luc to the second output of the executive relay, and a minus to the cathode of the thyristor, the parallel and zener diodes and the closing contact of the executive relay are connected between the cathode and the control electrode of the thyristor, and the second and third diodes are connected to the control electrode of the thyristor the diode serves as the first input, and the anode of the third diode serves as the second input of the reacting organ.  The drawing shows a diagram of the device.  The device 1 contains an electron-voltage contactor 2, a stabilized voltage transformer 3, a current transformer, an adjustable resistor divider voltage 5, a responsive organ 6, a second adjustable resistor 7, the first 8 and second 9 control buttons, and the main line 10 of the device It is equipped with an intermediate link in the transmission of electricity from a low-voltage power supply network 11 of a three-phase current with a grounded neutral, through distribution points 12 and a power cable 13 to the electrical installation.  The contactor 2, which serves to disconnect from the power supply network 11 of the electrical installation 1, is made with a control winding 15 and a closing contact 16.  The control winding 15 can be made to the phase or line voltage of the network.  I The stabilized transformer 3 intended to power the device is made with a stabilizing capacitor 17 on the core 18 with the primary winding 19 and the secondary.  winding with a middle asymmetrical tap 20, forming its first section 21 (with an external output 22, for a higher voltage) and the second section 23 (with an external output 2, for a lower voltage).  Transformer C current is made on the core 25 with the first 26 and the second 27 primary and secondary 28 windings.  The reacting organ 6 contains a thyristor 29 (its anode, cathode and control electrode are marked 30,31,32, respectively), executive relay 33 (its control winding, opening and closing contacts are marked Z, 35 and 36, respectively), capacitor 37, the third adjustable resistor 38, first 39 second 40 and third diodes and zener diode 42.  In the regulated resistor divider 5 of the voltage, the extreme terminals are marked 43 and 44, and the middle point (slider) 45, first 8 and second 9 control buttons are each made with one normally open contact, the closing contacts 46 of the contactor are included in the power supply circuits of the power cable 13- Primary The winding 19 of the stabilized voltage transformer 3 connected to the phase conductor of the power circuit through the stabilizing capacitor 17 is connected to the device main line 10 connected to the protective circuit 47 of the distribution point.  The core 18 and the middle tap 20 of the secondary winding of the voltage transformer are also connected to the main line 10.  The first section 21 of the secondary winding of the voltage transformer 3 is connected to a contactor control circuit comprising a contactor control coil 15 connected in series, a closing contact 16 of the contactor shunted by a closing contact of the control button 8 and an open contact 35 of the executive relay 33.  An adjustable resistor divider 5 voltage is connected to the second section 23 of the secondary winding of the voltage transformer, as well as an electric circuit containing a series-connected second adjustable resistor 7, the first primary winding 26 of the current transformer, the control core 8 of the power supply cable occupying the electrical installation main 9,. a protective core 50 of the supply cable, the second primary winding 27 of the current transformer; the grounding highway kj of the distribution point; a strut-out device line 10, a second section 23 of the secondary winding of a voltage transformer.  To the external terminal 22 of the first section of the secondary winding of the voltage transformer and the midpoint 5 of the adjustable resistor voltage divider are connected to the charging circuit of the capacitor 37 through a series connected adjustable resistor 38 and diode 39.  The discharge circuit of this capacitor contains a series-connected winding 3 of an executive relay and a normally closed anode 30 - a cathode 31 thyristor gap.  The anode of the diode tO, corresponding to the first thyristor control circuit, is connected to the gate point. adjustable resistor 7 with the first primary winding 2b of the current transformer, and the cathode with the thyristor control electrode 32, thus, the first thyristor control circuit is turned on. diagonal of the measuring bridge formed by the shoulders and (5resistor voltage divider and adjacent electric circuit arms, for a half-period, when the voltage at the external output 2 of the second section of the secondary winding of the transformer 3 has a positive sign of the diode 1 corresponding to the second control circuit thyristor 29 is connected to one output of the secondary winding 28 of a current transformer, the other output of which is connected to the cathode 31 of the thyristor, and the cathode to the control electrode 32 of the thyristor 29.  The stabilitron K2 is connected by the anode to the cathode V 31, and by the cathode to the control thyristor electrode 32.  Parallel to the zener diode, the closing contact of the actuator Zb is connected.  The closing contact of the second control button 9 shunts the first primary winding 2b of the current transformer.  Elements 9.50, 27, and 7 form a protective circuit, and elements 49, 48, 26, 7, 23, 10, and 7 form a control circuit of the electrical circuit.  These circuits are simultaneously sequential paths for the control current from the voltage of the second section of the secondary winding of the voltage transformer and parallel paths for the fault current to the housing (ground).  Adjustable resistor 7 set the control current value of about 0.7 A.  An adjustable resistor divider voltage 5 applies the parameters of the control circuit to the thyristor response threshold. The device for protective disconnection of electrical installations in various modes works as follows.  The mode of operative connection of electrical installation to the power supply circuit.  The operator briefly presses the control button B, as a result of closing the contact of which, for the control winding 15 of the contactor, a first circuit is formed, formed by elements 22, 35, 8.15, 20, and 21.  The contactor 2 is operatively turned on, which by the closed contacts 6 carries out the operative connection of the electrical installation k to the electric power supply network 11.  At the same time, the closure of the contactor contact 16 creates for the control winding 15 a second circuit formed by elements 22, 35, 16, 15, 10, 20 and 21.  The mode of protective disconnection of electrical installation from the power supply network with an excessive increase in the resistance of the protective circuit.  In the initial state, the capacitor 37 is charged along a third circuit formed by the elements 22.38, 39.37 (+), 37 (-),, 3k, 23k, 20, and 21.  If the resistance of the protective circuit is within the prescribed limits, the current flowing through the fourth circuit containing elements 2), 7, O, 32, 31, 5 C, 10, 20 and 23 is insufficient to unlock the thyristor 29.  Once, as a result of an excessive increase in the resistance of the protective circuit, the control current of the electric circuit decreases, the current in the fourth circuit increases due to the decrease in the voltage drop on the resistor 7 to the thyristor unlocking current, the latter starts to conduct current.  The capacitor 37 is discharged along the fifth circuit formed by the elements 37 (+), 3, 30, 31 and 37 (), which causes the switching relay 33 to turn on for about 0.01 s.  The indicated relay by opening contact 35 disconnects the contactor 2, as a result of which the latter carries out a protective disconnection of the electrical installation I from the power supply network 11.  At the same time, the executive relay 33 by the closed contact ZB shunts the control electrode-cathode transition of the thyristor.  The mode of protective disconnection of electrical installation from the power supply network at the current on the corona (ground) or excessive reduction of the resistance of its (electrical) insulation.  If the current to the housing (ground, including through a person) or induced by an excessive decrease in the insulation resistance of the electrical installation of an electrical installation is within the specified limits, the current flowing through the sixth circuit formed by elements 28 k, 32, 31 and 28 is not sufficient to unlock thyristor 29.  As soon as the current flowing through the sixth circuit increases to the unlocking current of the thyristor, the latter begins to conduct current.  Further, as in the protective disconnection mode, neither the electrical installation from the power supply takes place. herelek  in case of an excessive increase in the resistance of the protective circuit, the switching of the executive relay 33 and the protective disconnection of the electrical installation 1 i from the mains supply by the contactor 2 11.  The mode of quick disconnection of electrical installation from the power supply network.  The operator briefly presses the control button 9.  The resulting imbalance of the current transformer k is equivalent to the emergency current of the short circuit to the housing (, ground).  Then, as in the protection disconnection mode 3510 of the electrical installation from the supply mains, when the resistance of the protective circuit increases excessively, the executive relay 33 switches on and the protective disconnection of the electrical installation It by the contactor 2 from the electrical supply network 11, thereby checking the operability of the reacting organ.  The described device favorably differs from the existing ones, since it provides an increase in the safety of the electrical installation personnel in the event of contact with live parts or electrical equipment with a broken insulation, as well as in the case of an increase in the resistance of the protective circuit; an increase in the fire safety of an electrical installation with an excessive decrease in the insulation resistance of its electrical wiring.  In addition, by simplifying the structure of the device, the security of the security is improved.  Claim 1.  A device for protective disconnection of an electrical installation with a zoning line connected to the protective line of the distribution point, containing a stabilized voltage transformer with a two-section secondary winding, the primary winding of which through a capacitor is connected to the phase conductor and to the zanking line, and the core and the middle tap of the stabilized transformer is transformed by means of a transformer. voltages are connected to the main line; the first section of the secondary winding of the stabilized voltage transformer is connected to the winding of the electromagnetic contactor through the first control button, shunted by the contactor contact block, and the output element of the reacting organ; A summing current sensor connected to the protective and control conductors of the supply cable and the second section of the secondary winding of a stabilized voltage transformer, an adjustable resistor divider, a second control button and a reacting element powered from a stabilized voltage transformer, characterized in that, in order to increase sensitivity and reliability, the summing current sensor is made in the form of a current transformer with two primary windings, the first primary winding of the current transformer being connected to The supply cable protective circuit, and the second primary winding of the current transformer connected to the control core, is bridged by the second control button, and an adjustable resistor divider is connected parallel to the second section of the secondary winding of the stabilized voltage transformer, and the newly introduced second adjustable resistor is connected between the output of the second section of the secondary winding of the stabilized voltage transformer and the connection point of the second control button and w-20 the primary winding of the current transformer, to the specified point the first input of the reacting body is connected, the second input of which is connected to the secondary winding of the current transformer. 2. The device according to claim 1, about tl and that the reacting body contains an executive relay, capacitor, thyristor, zener diode, the third newly introduced adjustable resistor, the first, second the diode serves as the first input, and the anode of the third diode serves as the second input of the reacting organ.  Information sources, Taken into account during the examination 1. USSR author's certificate N 58755, cl. H 02 H 3/16, H 02 H 5/10, 1978. 2. USSR author's certificate No. 655011, cl. H 02 H 5/10, H 02 H 3 / J 1976. 5.12 and the third diode, the closing contact of the actuator, the first output winding of the executive relay connected to the thyristor anode, and the cathode of the first diode connected to the second output winding of the executive relay through the third adjustable resistor is connected to the output of the second section of the secondary winding of the stabilized voltage transformer, and the capacitor is connected plus to the second output of the executive relay, and minus to the cathode of the thyristor, and between the cathode and the control electrode thyristor connected in parallel to the Zener diode and the closing contact of the executive relay, while the second and third diodes, the anode of the second are connected to the control electrode of the thyristor cathodes