RU2284537C2 - Device for testing insulation of dc power supply and locating insulation faults - Google Patents

Abstract

FIELD: arrangements for testing electric circuits.

SUBSTANCE: device comprises bridge circuit with measuring instrument that is connected in its diagonal together with the milliammeter for measuring current leakage in the circuit to be tested. The device also has differential DC transducers for measuring current leakage in each connection and portable differential DC transducers for measuring current leakage in all branches.

EFFECT: enhanced reliability.

7 dwg

Description

The invention relates to devices for monitoring the insulation of a DC network, signaling deterioration in the insulation of a DC network, searching for places of insulation deterioration in a DC network, mainly in DC networks of power plants and substations.

A known device for monitoring the insulation of a DC network, containing a bridge, two arms of which are formed by constant resistors, the third is the insulation resistance of the DC network between the "plus" of the power source and the ground, and the fourth is the insulation resistance of the DC network between the "minus" of the power source and "Ground". A voltmeter is included in the diagonal of the bridge, one of the terminals of which is connected to the ground. The bridge is powered by a DC power supply (1).

The disadvantages of the known device is that the device does not have the ability to determine the connection (feeder, line) with poor insulation and search for places of deterioration of insulation. It is only able to signal the value of the insulation resistance of the network. The search for connections with poor insulation is carried out by monitoring the voltmeter during sequential, short-term disconnections of the connections, which in some cases is extremely risky, and sometimes simply unacceptable.

A device for finding a place of insulation deterioration in a direct current network, comprising a pulse current generator, a portable differentiating pulse current sensor containing low-pass filters, an amplifier, a rectifier, a regulating element, a measuring element (2). This device allows you to conduct a manual search for places of deterioration of insulation by sequentially walking around and measuring all the connections of the DC shield, to identify the largest surge current. Further, having revealed the connection, the operator begins to look for a place of insulation deterioration on all branches of the given connection, identifying the branches with the highest pulse current. Further, having identified the branch, the operator continues to search for the place of insulation deterioration (damage) in the electrical circuits of this branch, identifying the electric circuit with the highest pulse current, and ultimately finds the place of insulation deterioration.

The disadvantages of the known device is that:

there is no constant monitoring (monitoring) both of the isolation state of the entire monitored DC network and of the isolation state of each of the DC network connections in standby mode;

A pulsed alternating current circulates in the controlled DC network during the entire search, which in some cases interferes with relay protection and automation devices that are powered from the DC network and interferes with their proper operation, and under aggravating circumstances leads to their false operation, which it is unacceptable, in addition, the magnitude of the pulsed alternating current strongly depends on the magnitude of the electric capacitance of the direct current network, which with its large values can significantly change the magnitude of the impulses current at the connections, depending on the magnitude of the electrical capacitance of these connections, which greatly complicates the search, introducing uncertainty and uncertainty into the measurements.

does not automatically detect a connection with poor insulation.

Known closest to the proposed device for searching for leakage current to the "ground", consisting of a bridge circuit with a voltmeter included in its diagonal, a pulse alternating voltage generator relative to the ground, transformer type leakage sensors located on outgoing connections (3).

In the known device, when a sign of deterioration of insulation ("earth") appears at the poles of the battery, which is fixed by a voltmeter of the bridge circuit, the generator is started and all sensors are monitored for the appearance of a low-frequency signal. The generator creates an alternating voltage on the battery, and consequently on the load, with respect to the earth with a frequency of 1 Hz, amplitude up to 250 V. The leakage current to the earth is measured by transformer-type leakage current sensors located on the outgoing feeders. The measurement time for one connection (feeder) is 3-5 seconds.

The disadvantages of the known device for searching for leaks to the "ground" are:

a complex device circuit, branched across the entire DC network, in which all the blocks and sensors of the device are connected by many wires;

In a controlled DC network, pulsed alternating current circulates, which in some cases interferes with relay protection and automation devices that are powered by a DC network and interferes with their proper operation, and under exacerbating circumstances leads to their false operation, which is unacceptable, in addition , the magnitude of the pulsed alternating current strongly depends on the magnitude of the electric capacitance of the direct current network, which, when large, can significantly change the magnitude of the pulsed current per connection neniyah, depending on the magnitude of the capacitance of the connections, which greatly complicates the search, introducing uncertainty and inaccuracy in the measurement;

lack of continuous continuous monitoring (monitoring) of the isolation state of each of the DC network connections;

the inability to search and detect the place of deterioration of insulation at the connection, at its branches, in its electrical circuits;

a complex scheme of noise immunity and isolation of the leakage current signal to the ground from the transformer type sensor signal; preliminary survey, after receiving a signal about the appearance of “earth” in the DC network, of sensors of all connections, the vast majority of which are operational (which takes a certain time). Based on the operating experience, we can say that in most cases, as a rule, one connection is damaged. Simultaneous damage to several connections is quite rare. Therefore, conducting a survey of sensors of all connections does not make much sense. It is more advisable to signal a malfunction of a particular connection at the time of its occurrence.

The objective of the invention is:

automatic and continuous monitoring of the insulation status of the DC network both at each connection and throughout the network;

providing the ability to search for places of deterioration of insulation at the connection, its branches, its electrical circuits;

providing the possibility of automatic and continuous monitoring of all places of deterioration of the insulation of the DC network, if there are not one, but several, as well as the possibility of their targeted sequential search;

providing the ability to obtain accurate values of leakage currents to the "ground" for each connection, with the issuance of contactless and wireless alarms to the control panel for the operator about the damage to a particular connection;

providing the ability to search for places of insulation deterioration at the connections without disconnecting them from the DC power supply;

ensuring the search for places of insulation deterioration without introducing additional noise into the DC network that interferes with the operation of relay protection and automation devices;

elimination of the influence of interference that occurs in the DC network, caused by the electrical processes occurring in it, on the measurement of leakage currents to the "ground";

Prevention of the development of malfunctions and the occurrence of emergency conditions in the DC network and in DC consumer devices arising as a result of deterioration of the insulation of the network by continuously monitoring the state of insulation and changes in its state.

The problem is solved in that in the device for monitoring the insulation of the DC network and searching for places of deterioration of insulation, containing a bridge circuit with a measuring device included in its diagonal, and leakage current sensors to the ground installed on each DC network connection, are used:

differential DC sensors for measuring leakage currents for each connection, which contain an annular detachable magnetic circuit, on which there is one turn of “plus” and “negative” connection wires, and a winding connected to the measuring circuit, a measuring circuit, a unit for comparing the measured leakage current with a safe value, responsive to a change in the leakage current in the direction of increase from the specified safe value, an interface, a radio transmitting modulator-demodulator, to form a message with erom (name) connection, the magnitude and sign of leakage current;

a milliammeter for measuring leakage current over the entire DC circuit, which is installed in the diagonal of the bridge circuit, containing a node for comparing the measured leakage current with a safe value, responding to a change in the leakage current in the direction of increase from the set safe value, an interface, a radio transmitting modulator-demodulator for generating a message with the number (name) of the DC shield, the magnitude and sign of the leakage current;

a portable differential DC sensor for measuring leakage currents for each branch connection, for each electrical circuit of the branch, which contains an annular detachable magnetic circuit,

intended for installation in pre-prepared turns of “plus” and “minus” connection wires, with a winding connected to a measuring circuit, the output of which is connected to a measuring device, for reading information by the operator, with an interface, a radio transmitting modulator-demodulator, to generate a message with a number (name) of the portable sensor and the magnitude and sign of the leakage current to the control panel, to monitor the process of finding the place of deterioration of insulation ("ground");

a portable differential direct current sensor for measuring leakage currents for each spaced electrical circuit (i.e., the “positive” wire is removed from the “negative” cable at some accessible distance) of the branch, which contains two detachable magnetic cores designed for installation in pre-prepared turns “Positive” and “negative” connection wires, with windings that are connected to the signal difference, which is fed to the input of the measuring circuit, the output of which is connected to a measuring device, for reading and formation operator interface, a radio transmitter modulator-demodulator, to create the message with the number (name) of the portable transmitter, the magnitude and sign of leakage current on the control panel for monitoring the process of finding a place insulation deterioration ( "lands");

a receiving device and an adapter for communication with a computer for organizing contactless and wireless alarms on the control panel to the operator about the isolation state of both the entire network and individual connections.

The insulation monitoring device of the DC network and the search for places of deterioration of insulation is illustrated by drawings, where:

Figure 1 presents a diagram of a device for monitoring the insulation of a DC network and finding places of deterioration of insulation;

Figure 2 presents a diagram of a differential leakage current sensor installed on the connection, for measuring the leakage current through the insulation of the connection;

Figure 3 presents a diagram of a portable differential leakage current sensor used for installation on the branch, to measure the leakage current through the insulation of the branch;

Figure 4 presents a bridge circuit, in the diagonal of which a voltmeter and a milliammeter are included, and designed to control the insulation of the entire DC network;

Figure 5 presents a diagram of a portable differential leakage current sensor designed to search for places of deterioration of insulation in a diversity electrical circuit;

6 is a diagram explaining the operation of the insulation control device of the DC network and the search for places of deterioration of insulation, in the event of the appearance of one place of deterioration of insulation (one "earth");

7 is a diagram explaining the operation of the insulation monitoring device of the DC network and the search for places of deterioration of insulation, in the case of several places of deterioration of insulation (several "lands");

Figure 1 shows a diagram of a device for monitoring the insulation of a DC network and the search for places of deterioration of insulation, which contains:

a bridge circuit consisting of constant resistors ("shoulders") R1 and R2, trimming resistors Rп1 and Рп2, "shoulders" formed by the insulation resistance of the network between "+" and "ground" - Riz.s +, the insulation of the network between "-" and "ground" - Riz.s-; indicating the voltmeter V and milliammeter mA is included in the diagonal of the bridge, there is a node for comparing the leakage current with a safe value of 3, interface 4, a radio transmitting modulator-demodulator 5;

differential DC sensors installed on connections Pr.1 and Pr.2, containing an annular detachable magnetic circuit 1, designed for installation in prefabricated turns of the "plus" and "minus" wires of the connections Pr.1 and Pr.2, with winding W which is connected to measurement circuit 2; differential DC sensors, in addition, contain a node for comparing the leakage current with a safe value of 3, interface 4, a radio transmitting modulator-demodulator 5;

a portable differential direct current sensor mounted on a branch of Hole 1 of connection Pr1, containing an annular detachable magnetic circuit 1, intended for installation in prefabricated turns of the "plus" and "minus" branch wires of Hole 1 of connection of Pr.1, with a winding W, which connected to the measuring circuit 2, the output of which is connected to a measuring device 9 (digital) for reading information by the operator; the differential DC sensor, in addition, contains an interface 4, a radio transmitting modulator-demodulator 5;

portable differential sensor with two detachable magnetic conductors containing windings W + and W-, one of which is designed to be installed in a prefabricated coil of a “positive” wire of electric circuit El.c.1, supplying a load Rн1-1, and the other is designed to be installed in advance the prepared coil of the "negative" wire of the same electrical circuit El.ts.1; windings W + and W- are connected to the signal difference (the difference of the secondary currents), a portable differential direct current sensor, in addition, contains a measuring circuit 2 (the measuring circuit is included in the differential circuit - the circuit through which the difference of the secondary currents of the magnetic circuit windings flows), the output of which connected measuring device 9 (digital) for reading information by the operator; interface 4, a radio transmitting modulator-demodulator 5;

receiving device 6;

adapter 7 for communication of the receiving device with the computer 8. Connection Pr.1 feeds the load Rн1 from branch 1, and the load Rн1-1 on the separated electrical circuit El.c.1, connection Pr.2 feeds the load Rн2.

Figure 2 shows a diagram of a differential DC sensor for measuring the leakage current of the connection, which contains:

detachable magnetic circuit 1, with a closing tab 10, winding W, measuring circuit 2, node for comparing leakage current with a safe value of 3, interface 4, radio transmitting modulator-demodulator 5. Moreover, the detachable magnetic circuit of the differential DC sensor passes through the turns of “positive” and “negative” »Wires supplying the load.

A differential DC sensor is inserted into pre-prepared turns of the “positive” and “negative” connection wires using the tongue 10 of the detachable magnetic circuit 1. When the insulation of the connection deteriorates (“earth fault”), the leakage current I ut = (I +) - (I -), which causes a corresponding change in the magnetic field (magnetic flux) in the detachable magnetic circuit 1. This change in the magnetic field (magnetic flux) induces an emf (electromotive force) in the winding W, the appearance of an emf generates a secondary current in the winding circuit W (measuring circuit 2 is included in the winding circuit W), which is proportional to the leakage current, connected to the winding W is measuring circuit 2. Measuring circuit 2 detects the appearance of secondary current in winding W, processes and amplifies the secondary current, and generates from it a digital signal whose magnitude is equal to the leakage current. The digital signal of the measuring circuit 2 is supplied to the node for comparing the leakage current with a safe value of 3 (the node for comparison with the "statutory" response for this connection). If the measured value of the leakage current exceeds a safe value (the leakage current exceeds the “setpoint” of operation for a given connection), then the comparison node 3 starts interface 4, which generates a message with the connection number, value and sign of the leakage current, which is transmitted in a digital code by the radio transmitting modulator demodulator 5.

Figure 3 shows a diagram of a portable differential DC sensor for measuring the leakage current of a branch, which contains:

detachable magnetic circuit 1, with a closing tab 10, winding W, measuring circuit 2, the output of which is connected to a measuring device 9 (digital) for reading information by the operator, interface 4, a radio transmitting modulator-demodulator 5. Moreover, the detachable magnetic circuit of the differential direct current sensor passes through the turns “Plus” and “minus” wires supplying the load.

A portable differential direct current sensor is inserted into the pre-prepared turns of the “plus” and “minus” connection wires using the tongue 10 of the detachable magnetic circuit 1. When the insulation of the connection deteriorates (“earth fault”), the leakage current I ut = (I +) - ( I-), which causes a corresponding change in the magnetic field (magnetic flux) in the detachable magnetic circuit 1. This change in the magnetic field (magnetic flux) induces an emf (electromotive force) in the winding W, the appearance of an emf generates a secondary current in the winding circuit W (measuring circuit 2 is included in the winding circuit W) proportional to the leakage current, connected to the winding W is measuring circuit 2. Measuring circuit 2 detects the appearance of the secondary current in winding W processes and amplifies the secondary current and generates a digital signal from it whose value is equal to the leakage current. The digital signal of the measuring circuit 2 simultaneously arrives at the measuring device 9 (digital) and to the interface 4. The digital signal of the measuring circuit 2 triggers the interface 4, which generates a message with the connection number, magnitude and sign of the leakage current, which in the digital code and transmits a radio transmitting modulator - demodulator 5. At the same time, the operator conducting a search for a place of insulation deterioration can be guided by the readings of measuring device 9 (digital), on which he sees the magnitude of the leakage current, and ck themselves.

Figure 4 shows a bridge circuit consisting of constant resistors ("shoulders") R1 and R2, trimming resistors Rп1 and Рп2, "shoulders" formed by the insulation resistance of the network between "+" and "ground" - Riz.s +, insulation networks between "-" and "earth" - Riz.s.-. An indicating voltmeter V and a milliammeter mA (digital) are included in the bridge diagonal, the bridge circuit also contains a node for comparing the leakage current with a safe value of 3, interface 4, and a radio transmitting modulator-demodulator 5.

If insulation deteriorates at any point in the DC network, the resistance R from c + or R from c- decreases and the bridge balance is violated, that is, a voltage drop appears in its diagonal, which is recorded by voltmeter V. At the same time, a leakage current flows through the mA milliammeter. The leakage current measured by milliammeter mA, in the form of a digital signal, enters the node for comparing the leakage current with a safe value of 3 (a node for comparison with the “statutory” trip for the entire network of this DC board). If the measured value of the leakage current exceeds a safe value (the leakage current exceeds the “setpoint” of operation for a given connection), then the comparison node 3 starts interface 4, which generates a message with the connection number, value and sign of the leakage current, which is transmitted in a digital code by the radio transmitting modulator demodulator 5.

Figure 5 shows a diagram of a portable differential sensor designed to measure the leakage current in a spaced electric circuit, with two detachable magneto conductors 1 containing windings W + and W-, one of which is designed to be installed in a pre-prepared coil of a "positive" wire of an electric circuit, feeding the load Rн, and the other is designed to be installed in a pre-prepared coil of a "negative" wire of the same electrical circuit. Windings W + and W- are connected to the signal difference. The portable differential DC sensor also contains: a measuring circuit 2, the output of which is connected to a measuring device 9 (digital), interface 4, a radio transmitting modulator-demodulator 5.

A portable differential DC sensor with a detachable magnetic circuit 1 with a W + winding is inserted into a pre-prepared coil of a positive wire of a spaced electrical circuit and a detachable magnetic circuit 1 with a W-winding is inserted into a pre-prepared coil of a negative cable of an connection using a tongue 10. If the insulation of the connection deteriorates (“Earth fault”) a leakage current I ut. = (Iper +) - (Iper-) occurs, which causes a corresponding change in magnetic fields (magnetic fluxes) in detachable magnetic circuits 1. These changes in magnetic fields (magnetic fluxes) induce secondary currents I sec +, I sec- in the windings W + W-, respectively, which are included in the current difference. Thus, the difference of the signals of the secondary currents (I sec. +) - (I sec.) Flows through the differential circuit, and it enters the measuring circuit 2. Measuring circuit 2 detects the appearance of the difference of the secondary currents in the differential circuit and processes and amplifies the secondary current ( difference current), forming a digital signal from it, the value of which is equal to the leakage current. The digital signal of the measuring circuit 2 simultaneously enters the interface 4, starting it, and to the measuring device 9 (digital). Interface 4 generates a message with the connection number, the magnitude and sign of the leakage current, which is transmitted in a digital code by the radio transmitting modulator-demodulator 5. At the same time, the operator conducting a search for the place of insulation deterioration can be guided by the readings of the measuring device 9, on which he sees the magnitude of the leakage current , and search for yourself.

Fig. 6 is a diagram illustrating the operation of a device for monitoring the insulation of a DC network and searching for places of deterioration of insulation during the appearance of a single earth in a DC network at any connection. If Rн1 <Rн2, then in this case the current I +> I- and the difference of these currents will flow along the section of the circuit from the “ground” of the connection, and then through the “ground” of the bridge circuit, Rп2, mA of the bridge circuit, V of the bridge circuit, Rп1. It is this difference in currents that will be recorded by both the differential DC sensor of the connection and the milliammeter of the bridge circuit.

In a differential direct current sensor, the measuring circuit 2 will detect the current difference (leakage current to ground), the node for comparing the leakage current with a safe value of 3 will perform a comparison and, if the safe value of the leakage current is exceeded, it will signal to form a message, interface 4, and send a message to the radio transmitter modulator-demodulator 5. The message consists of the value of the leakage current, the sign and number (name) of the connection.

In the bridge circuit, the mA milliammeter will record the leakage current to ground, the node for comparing the leakage current with a safe value of 3 will make a comparison and, if the safe value of the leakage current is exceeded, it will give a signal to form a message to interface 4 and send a message to the radio transmitting demodulator-modulator 5. The message consists from the value of the leakage current, sign, and number (name) of the DC board or battery. Messages issued over the air are received by the receiving device 6 and through the adapter 7 are transmitted to the computer 8, which gives the operator a summary of the deterioration of the insulation of the DC network.

Fig. 7 is a diagram explaining the operation of the device for monitoring the insulation of the DC network and the search for places of deterioration of insulation during the appearance of double earth in the DC network at any connections. If Rн1-1 <Rн2-1, then in this case the current I + 1> I-1 and the difference of these currents will flow along the section of the circuit from the ground of connection 1 to the branching point to the ground of connection 2 and to the ground bridge circuit.

The differential sensor of direct current of connection 1 (PR1) will detect this difference (leakage current to the ground of connection 1) by means of measuring circuit 2, the node comparing the leakage current with a safe value of 3 will perform a comparison and, if the safe value of the leakage current is exceeded, it will give a signal to generate a message , interface 4, and sending a message to the radio transmitting modulator-demodulator 5. The message consists of the value of the leakage current, sign and number (name) of connection 1 (PR1). If Rн1-2> Rн2-2, then in this case the current I + 2 <I-2 and the difference of these currents will flow along the section of the circuit from the branching point to the “ground” of connection 2. The differential direct current sensor of connection 2 will detect this difference (leakage current to the ground of connection 2) by means of measuring circuit 2, the node comparing the leakage current with a safe value of 3 will perform a comparison and, if the safe value of the leakage current is exceeded, it will give a signal to generate a message to interface 4 and send a message to the radio transmitting modulator-demodulator 5. In general This consists of the magnitude and sign of the leakage current and the number (name) of connection 2. The difference between the leakage currents to earth of connections 1 and 1 flows through the section of the circuit from the branching point through the ground of the bridge circuit Rp2, mA of the bridge circuit, V bridge circuit, Rp1, R2 2. It is this difference in leakage currents of connections 1 and 2 (Iout.3 = Iut.1-Iut.2) that the milliammeter of the bridge circuit will fix, and then the node for comparing the leakage current with a safe value of 3 will make a comparison and, if the safe value of the leakage current is exceeded, it will give signal to form a message to interface 4 and from editing the message to the radio transmitting modulator-demodulator 5. The message consists of the magnitude and sign of the leakage current and the number (name) of the DC board or battery.

Messages issued over the air are received by the receiving device 6 and transmitted through the adapter 7 to the computer 8, which gives the operator a summary of the deterioration in the insulation of the DC network.

In the process of testing the device’s layout, current clamp meters from a volt-ampere phase indicator VAF-1M were used as a detachable ring magnetic circuit, as a measuring circuit - a digital portable multimeter MY64 from MASTECH company with a measuring range of 0-20 mA, with an RS232C interface, and an SMS-modem M20 from the company Simens as a receiving device, the microprocessor controller M90 of the company "KLINKMANN". At the same time, to work out the device, a magnetic multivibrator DC sensor was used, made according to the scheme developed by the Institute of Control Problems of the Russian Academy of Sciences (IPURAN).

The implementation of the device for monitoring the insulation of the DC network and the search for places of insulation deterioration using differential DC sensors allows you to measure the leakage current to the ground by any connection, branch, electrical circuit using the differential method. Using the differential method, which consists in measuring the difference in currents flowing in the “positive” and “negative” wires supplying the connection load, allows the use of DC sensors with small measurement limits, for example, from 0 to 20 mA, whereas in the connection itself according to “ positive "and" negative "wire can flow currents up to 20 A and above. Thus, at such high load currents, due to the differential method, small leakage currents to earth are measured at small measurement limits. It should also be noted that the appearance of all kinds of interference and disturbances, which, as a rule, occur both on the “plus” and “negative” wires at the same time, will not cause false sensor operation with the issuance of a false message, since these interference and disturbances are mutually compensated and will be reduced to zero at the input of the measuring circuit.

It should also be noted that by using differential DC sensors to measure the leakage current to earth as the difference between the currents of the positive and negative wires, there is no need to create additional currents, alternating or pulsed, in the direct current circuit that were required to identify both damaged connections and places of deterioration of insulation (earth fault).

The implementation of a device for monitoring the insulation of a direct current network and searching for places of deterioration of insulation using differential current sensors for measuring leakage currents, the design of which provides annular detachable magnetic circuits intended for installation in previously prepared turns of negative and positive wires, which allows measurements in a non-contact way, without making any changes or additional elements to the electrical circuit of the DC network. And in this case, the measuring circuit simultaneously works on two principles:

the principle of fixing the magnitude of the change in the leakage current in the process of its short-term and spasmodic increase at the moment of ground fault (at the moment of the jump in the leakage current it is transformed to the input of the measuring circuit);

the principle of measuring the magnitude of the leakage current "to ground" during the entire lifetime of the fault to the "ground" (the magnetic field of the difference between the currents of the "plus" and "negative" wires changes the parameters of the input winding of the measuring circuit).

The measuring circuit operates simultaneously on two measurement principles (modes), which reserve and complement each other, which increases the reliability and accuracy of measurements.

Thus, an annular magnetic circuit can simultaneously operate both as a pulse transformer and as an element of a measurement circuit, which, under the influence of a magnetic field, the difference between the currents of the “positive” and “negative” wires changes its parameters.

The pulse principle of the circuit allows you to record short-term insulation violations with a subsequent return to normal, which often precede damage and its further development. Such work of the proposed device will allow you to take early measures to exclude serious damage and its further development.

The implementation of the device for monitoring the insulation of the DC network and the search for places of deterioration of isolation using the interface and a radio transmitting modulator-demodulator for generating and transmitting messages eliminates a large number of wired connections, which ensures:

reliable operation of the device without any switches, long cables, combined into a complex electrical circuit;

to provide quick installation, commissioning and commissioning of a device for monitoring insulation of a direct current network and finding places of deterioration of insulation without significant material costs (after arranging the sensors on the connections, the device is almost ready for operation);

to provide a quick operational change in the circuit of the control device for insulation of the DC network and the search for places deterioration of insulation due to any changes in the DC network (the appearance of new connections and the elimination of old ones in the DC network), which will consist in transferring sensors from one connection to another.

The implementation of a device for monitoring the insulation of a DC network and searching for places of insulation deterioration using self-powered radio transmitting sensors (internal batteries) will eliminate the preliminary interrogation of sensors of all connections (which takes a certain amount of time), the vast majority of which are correct and immediately give an alarm to the operator’s control panel (summary) about damaged connections and the magnitude of these damages (which are estimated by the magnitude of the leakage current to earth). The proposed device for monitoring the insulation of a DC network and finding places of deterioration of insulation will allow:

provide automatic and continuous monitoring of the insulation status of the DC network, both at each connection and throughout the network;

provide the ability to search for places of deterioration of insulation at the connection, its branches, its electrical circuits;

to provide the possibility of automatic and continuous monitoring of all places of deterioration of the insulation of the DC network, if there are not one, but several, as well as the possibility of their targeted sequential search;

provide the ability to obtain accurate values of leakage currents for each connection, with the issuance of contactless and wireless alarms to the operator control panel;

provide the ability to search for places of deterioration of insulation at the connections without disconnecting them from the DC power supply;

to provide a search for places of deterioration of insulation without introducing additional interference into the DC network that interfere with the operation of relay protection and automation devices;

to exclude the influence of interference that occurs in the DC network, caused by the electrical processes occurring in it, on the measurement of leakage currents to the "ground";

to prevent the development of malfunctions and the occurrence of emergency conditions in the DC network and in DC consumer devices that arise as a result of deterioration of the insulation of the network by continuously monitoring the state of insulation and changes in its state;

promptly repair DC consumer devices (for example, relay protection and automation devices) for repair after receiving a message about the appearance of "ground", preventing the presence of "ground" in the network even during the search for this "ground", which significantly increases the reliability of the entire DC network, and DC consumer devices;

to increase the reliability of electrical installations of power plants and substations, which include direct current networks due to the prevention and prompt elimination of faults of direct current networks that arise due to deterioration of insulation (short circuit to ground);

to exclude the development of damage in the DC network in an accident and technological violations of electrical installations due to the appearance of both single and double “ground” in the DC network, which can lead to false operation of relay protection devices and automation by timely output to the DC network connection for repair immediately after the appearance of a short to ground in their circuits;

organize constant automatic tracking (monitoring) of the insulation state of both the entire DC network and the insulation state of each of the connections, without distracting the operator on duty to check the serviceable network, and attracting his attention only if the leakage current to ground increases the issuance of a complete picture (message summary) of all shields and connections with deteriorating isolation;

to increase labor productivity during installation, commissioning, maintenance and operation of a device for monitoring insulation of a direct current network and searching for places of deterioration of insulation;

to search for places of insulation deterioration both on the branches of the connections, and in the electrical circuits of the branches, connections and consumer devices (relay protection and automation devices), where the "plus" and "minus" wires are spaced a certain distance;

reduce damage search time;

to exclude trial trips and switching in the DC network, which are currently being performed to search for damaged connections and places of deterioration of insulation (earth faults);

organize the receipt of information about the isolation state of the DC network through mobile operators, from substations without permanent duty personnel and telephone communications;

organize monitoring of the insulation status of particularly relevant and most frequently damaged electrical circuits of relay protection and automation devices (for example, electric circuits for gas protection of autotransformers).

Information sources

1. A guide to setting up secondary circuits of power plants and substations.

Authors: Gilcher OA, Golberg A.E., Kolesnikov L.F. and etc.

Edited by E.S. Musaelian. - M .: Energy 1979, p. 97-98.

2. Description of the invention to the copyright certificate of the USSR No. 983592, M. Kl. 3 G 01 R 31/08, published. 07/23/81.

3. "Electrical safety devices" Author: Korablev VP, - M.: Energy, 1979, p.32, Series: "Library electrician."

Claims (1)

A device for monitoring the isolation of a direct current network and searching for places of deterioration of insulation, containing a bridge circuit with a measuring device included in its diagonal, and leakage current sensors to the ground installed at each connection of the direct current network, characterized in that it contains differential direct current sensors for measuring leakage currents for each connection, which contain an annular detachable magnetic circuit, on which there is one turn of “plus” and “negative” connection wires, and a winding, under assigned to the measuring circuit, measuring circuit, node comparing the measured leakage current with a safe value, responding to a change in the leakage current upward from the specified safe value, an interface, a radio transmitting modulator-demodulator, to generate a message with the connection number (name), value and sign leakage current, a milliammeter for measuring the leakage current over the entire DC circuit, which is installed in the diagonal of the bridge circuit, containing a node for comparing the measured leakage current with a safe led the cause, responsive to a change in the leakage current in the direction of increase from the set safe value, an interface, a radio transmitting modulator-demodulator, for generating a message with the number (name) of the DC shield, the magnitude and sign of the leakage current, a portable differential DC sensor for measuring leakage currents each branch connection, for each electrical circuit of the branch, which contains an annular detachable magnetic circuit designed for installation in pre-cooked coils "positive" and “negative” connection wires, with a winding connected to the measuring circuit, the output of which is connected to a measuring device for reading information by the operator, with an interface, a radio transmitting modulator-demodulator for generating a message with the number of the portable sensor, the magnitude and sign of the leakage current control panel for monitoring the process of finding the place of insulation deterioration ("ground"), a portable differential DC sensor for measuring leakage currents for each separated electrical circuit pi (i.e. The “positive” wire is removed from the “negative” to some accessible distance) branch, which contains two detachable magnetic cores, designed for installation in pre-prepared turns of the “positive” and “negative” connection wires, with windings that are connected to the signal difference, which goes to the input of the measuring circuit, the output of which is connected to a measuring device for reading information by the operator, with an interface, a radio transmitting modulator-demodulator for generating a message with a number (name ) a portable sensor, the magnitude and sign of the leakage current to the control panel to monitor the process of finding the place of insulation deterioration ("ground"), a receiving device and an adapter for communicating with the computer to organize contactless and wireless signaling to the control panel to the operator about the insulation status as the entire network and individual connections.

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