RU2304833C1 - Electrical equipment ground fault test system and equipment operator protective gear - Google Patents

Abstract

FIELD: protective devices for electrical apparatuses and installations of insulated-neutral three-phase (multiphase) mains.

SUBSTANCE: proposed test system has three-pole circuit breaker connected to insulated-neutral power supply between the latter and load as well as metering circuit. Newly introduced in system is additional single-pole circuit breaker incorporating unit affording simultaneous operation of electromagnetic releases and mechanical connection for circuit-breaker cases and ON-operation handles; connected to each phase of supply mains past main three-pole circuit breaker contacts through limiting resistors are diodes; common point of mentioned diode cathodes is connected to one of coil leads in metering circuit relay, its other lead is connected to device ground; noise-suppressing capacitor is connected in parallel with relay coil leads; making contact of additional single-pole circuit breaker is connected by means of one lead to supply mains phase past making contact of main three-pole circuit breaker and by means of other lead, to making contact of metering circuit relay whose other lead is connected through fourth limiting resistor to any of two remaining phases past making contacts of main three-pole circuit breaker; test circuit that has series-interconnected test resistor and TEST button is inserted between ground and any phase of mentioned making contacts.

EFFECT: simplified design and enlarged functional capabilities of system.

2 cl, 2 dwg

Description

The invention relates to electrical engineering and can be used in the protection devices of electrical devices and installations in three-phase (multiphase) networks with isolated neutral.

Known devices for monitoring and protection of electrical systems, in particular, the principle of constructing a system of protective tripping devices using operational direct current [1], the principle of which is that the artificial zero point according to the "star" scheme is formed using a choke indicator, sequentially with a common point which includes a choke, a current relay and a direct current source, one of the terminals of which is connected to the housing ("ground"). In this case, the current flowing along the above circuit is the operational control current, the value of which depends on the insulation resistance.

The disadvantage of this device is the significant weight and dimensions due to the presence of a throttle transformer, as well as reduced sensitivity: at certain ratios, due to the lack of adjustments, the protection and control system may be inoperative.

Closest to the proposed device adopted for the prototype, it is also known a device [2], containing a network generator with a connected measuring circuit, a rectifier for the measuring circuit, a DC voltage source and an actuating element, a rectifier for the measuring circuit, and a DC voltage source made in the form of a parametric stabilizer , the measuring circuit is made in the form of a serial connection of the light emitter of an optocoupler shunted by an interference-suppressing capacitor, an adjusting and detection resistors, one of the terminals of the limiting resistor is connected to the housing, a switching device connected to the phases of the network in series with which the closing contact of the actuating element is connected is parallel to the resistor connected in series with the main excitation winding of the generator, and the other terminals of the said resistor and the excitation winding are connected to excitation voltage.

The disadvantages of this device are the presence of optoelectronic elements having significant technological variations that are sensitive to ionization radiation; in addition, it uses a voltage relay, which is less accurate than the current relay and requires a voltage stabilizer, as a rule, to increase the accuracy of the threshold.

Closest to the proposed device, adopted as a prototype, is [3] a device for monitoring and protecting the insulation resistance of electrical machines and apparatuses, containing a network generator with a measuring circuit, an actuator connected to the network through a rectifier, into which an actuator is inserted, connected in series with load, the actuating element is made in the form of series-connected thyristor and control winding by the executive body, and the thyristor control electrode is connected through the act of the measuring circuit relay to the midpoint of the resistive voltage divider connected to the thyristor power electrodes to which the RC circuit is connected in parallel, the connection point of the RC circuit capacitor, one of the thyristor power electrodes and the resistive divider is connected to one of the terminals of the said rectifier, the second output which is connected to the free terminal of the control winding by the executive body, and the measuring circuit is made in the form of a bridge circuit, one of the inputs of which is connected through two limiting resistors It is connected to two phases of the network, the other, through a varistor, to the case ("ground"), and the measuring coil relay winding shunted by a capacitor is connected to the output of the aforementioned bridge circuit.

The disadvantage of this device is, on the one hand, the complexity of a three-pin actuator, which is an automaton with an independent electromagnetic trigger, which is an element of the device’s operation, relatively low noise immunity due to the presence of a thyristor in the actuator, and the lack of a number of functions, for example, test control and an indication unit, working in software mode.

The aim of the invention is to simplify the device, expanding its functionality.

This goal is achieved by the fact that in the control system of insulation resistance of electrical devices and protect them and the operator, containing a three-pole circuit breaker connected to a power source with an isolated neutral between the source and the load, and a measuring circuit, an additional single-pole circuit breaker with a node for the simultaneous operation of electromagnetic releases is introduced, by mechanical connection of the housings and switching handles to each of the phases of the network after the contacts of the three-pole main automat through restrictive resistors are included diodes, the common point of connection of the cathodes of the said diodes is connected to one of the terminals of the measuring coil relay winding, the second terminal of which is connected to the device body ("Earth"), an noise suppression capacitor is connected in parallel to the relay winding terminals, making the contact of the unipolar additional automaton connected to phase of the network after the make contact of the three-pole main circuit breaker, the other to the make contact of the measuring circuit relay, the second output of which through the fourth limiter the first resistor is connected to either of the two remaining phases after the three-pole switching contacts of the main machine, between the housing ( "Earth") and any phase after closing of said contacts including control circuit comprising a test resistor connected in series, and "Test" button.

In addition, a mode switch is introduced into it, the main output of which is connected after the contact of the measuring circuit relay, the first output is connected to the input display circuit, which contains an indicator with a control device, one output, the second to the second output of the fourth limiting resistor, and the second output of the terminal switch connected to the first terminal of the fourth limiting resistor.

The three-phase network with isolated neutral includes a three-pole main circuit breaker 1 with make contacts 1.1, 1.2, 1.3 to connect the load and protect the network from overload currents and short circuits. In one of the network phases (for example, in phase A), a single-pole additional circuit breaker 2 is included.

The rated currents of machines 1 and 2 must differ several times (they can differ by more than an order of magnitude. For example, machine 1 has a rated current of 25 A, and the machine 2-2 A). To each of the phases of the network, diodes 6, 7, 8 are connected through limiting resistors 3, 4, 5, the common cathode connection point of which is connected to one of the terminals of the relay winding of the measuring circuit 9, the second terminal of which is connected to the device case ("Earth"). In parallel with the terminals of the relay winding of the measuring circuit 9, an interference suppression capacitor 10 is connected. Elements 3-10 form the measuring circuit mentioned above.

The closing contact 9.1 of the measuring circuit relay 9 is connected by one output in series to the circuit of a single-pole additional circuit breaker 2, by the other or through technological connections it is connected directly to one of the terminals of the fourth limiting resistor, the second terminal of which is connected to phase B or C after the contacts of the main circuit breaker 1 (main mode ), or to the common point 12.0 of the mode switch 12. In this case, the contact 12.2 of the terminal switch 12 is connected to the first output of the fourth limiting resistor 11. Contact 12.1 pack of the circled mode switch 12 is connected to an indicator 13 controlled by the control device 14, the second output of the indicator 13 is connected to the second output of the fourth limiting resistor 11.

The closing contact 2.1 of the single-pole auxiliary circuit breaker 2 is connected to the mains phase (for example, phase A) after the making contact 1.1 of the three-pole main circuit breaker 1, the other to pin 9.1, the second pin of which is connected either to the first terminal of the fourth limiting resistor 11, or to 12.0 of the mode switch 12. The test resistor 15 is connected to the device case ("Earth") by one output, and the test button 16 by the other - to any of the phases after the main automaton 1 (for example, to phase C, as shown in figure 1 ) Index 17 conventionally designates the resistance of the network and load relative to the chassis ("Earth").

Element 1 with contacts 1.1-1.3, as well as 2.1, 9.1 are equivalent to one machine with an independent trip and its contact. Figure 2 presents the block of circuit breakers 18, containing a three-pole main circuit breaker 1 and a single-pole circuit breaker 2, inside the mentioned circuit breakers there is a node for the simultaneous operation of the electromagnetic releases of the circuit breakers 19, made, for example, in the form of two metal plates placed in the slots of the circuit breakers of the circuit breakers ( additional modifications of the machine cases are not required, structurally there is the possibility of its installation, because the nodes of the machines are recruited from separate, respectively the quality of the network phases). The cases of the machines 1 and 2 are fastened together by screws 20 and represent a single unit 18. The handles of the machines 21 and 22 are fastened together by a bracket 23 for a single on and off.

The device (Fig 1, 2) works as follows: when the circuit breaker 18 is turned on, power is supplied to the load (not shown in the drawing). At the same time, power is supplied to the insulation monitoring circuit. If the insulation resistance is within the established standards, then - through the relay coil of the measuring circuit is insufficient for its operation.

If the resistance at any point in the network, including the load, becomes below normal, for example, between phase A and ground, then a direct (rectified) current flows through the following circuit: phase A, terminal 1.1., Insulation resistor 17.1, housing (ground) ), the winding of the measuring circuit 9 and through diodes 6 and 7, resistors 3 and 4, contacts 1.3 and 1.2 and phases B and C. Relay 9 is activated and closes its contact 9.1, causing the passage of current through the circuit phase A, contact 1.1, contact 2.1 , pin 9.1, the fourth limiting resistor 11, pin 1.3, phase C. If there is a mode switch 12, current flows About the circuit: phase A, contact 1.1, contact 2.1, contact 9.1, contact 12.2, the fourth limiting resistor 11, contact 1.3, phase C. The capacitor 10 is an element of the noise immunity of the device.

The resistance of the resistor 11 is calculated in such a way that the flowing current corresponds to the operation current of the electromagnetic release of a single-pole additional circuit breaker 2. It works, causing the circuit breaker block 18 to trip, i.e. network loads. Those. In this way, not only the network element and the load are protected, but also the operators from electric shock.

However, since standard automatic machines are used, the system has effective protection against overloads and short circuits in the load.

The monitoring and protection system works similarly when the mode switch 12 is in the closed position of contact 12.2.

If the mode switch 12 is in position 12.1, the indicator turns on when the insulation resistance decreases below the permissible value. At the same time, the current flowing through the indicator is insufficient for the automaton 2 to operate. The indicator control device 14 can represent either a regular delay element on the RC circuit or a software device that constantly tests the value of insulation resistance even in the case of, for example, three times (to exclude random processes) repetition of the alarm state to signal the disconnection of the measuring circuit relay 9.

In accordance with the requirements of regulatory documentation [4], the system introduced a test control of the network and load on the criterion of "insulation resistance" on the elements 15 and 16 to verify the functionality of the protection device.

When the “Test” button is pressed, the alarm state is simulated. The resistance of the test resistor 15 is calculated based on the conditions of reliable operation of the system.

The authors tested the device with the following parameters and elements. Three-phase network 220/380, load power 4 kVA three-pole machine VM40, 25 A single-pole machine VM40, 2A relay 24 V, DC, coil resistance 3 kOhm, the operating current was 5 mA, which is much lower than permissible according to clause 1.7.15 [ 4], comprising 30 mA.

Thus, the proposed system provides reliable control and protection of electrical devices both from reducing the insulation resistance of the network elements and the load included in it, as well as operators from electric shock, as well as protecting the load from current overloads and short circuits.

Information sources

1. Dolin P.A. Fundamentals of safety in electrical installations. - M .: Energy, 1979, p.274

2. RF patent No. 2189603, cl. G01R 27/00, H02 H3 / 16, publ. 2002, Bull. No. 26.

3. RF patent №2242829, cl. Н02 H 3/16, G01R 27/00, publ. 2004, Bull. Number 35.

4. Rules for the installation of electrical installations. Seventh Edition. Energy service. - M .: 2003, p.1.7.165, p. 91.

Claims (2)

1. A system for monitoring the insulation resistance of electrical devices and protecting them and the operator, comprising a three-pole circuit breaker connected to a power source with an isolated neutral between the source and the load, and a measuring circuit, characterized in that an additional single-pole circuit breaker with a node for the simultaneous operation of electromagnetic releases is inserted into it , by mechanical connection of the housings and switching handles, to each of the phases of the network after the contacts of a three-pole main circuit breaker through restrictive The diodes are turned on, the common connection point of the cathodes of the said diodes is connected to one of the terminals of the measuring coil relay winding, the second terminal of which is connected to the device body ("Earth"), an noise-protective capacitor is connected in parallel to the relay winding terminals, making the contact of the single-pole additional circuit breaker connected to one terminal phase of the network after the make contact of the three-pole main circuit breaker, the other to the make contact of the measuring circuit relay, the second output of which through the fourth limiting resistor The OR is connected to any of the two remaining phases after the making contacts of the three-pole main circuit breaker, between the case ("Earth") and any of the phases after the said making contacts, the control circuit containing the test resistor and the Test button is connected in series. 2. The device according to claim 1, characterized in that a terminal switch is inserted into it, the main terminal of which is connected after the contact of the measuring circuit relay, the first terminal is connected to the inserted display circuit, containing an indicator with a control device, one terminal, and the second to the second terminal the fourth limiting resistor, the second terminal of said terminal switch is connected to the first terminal of the fourth limiting resistor.

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