CN211426682U - Insulation monitoring device based on circuit breaker position state monitoring - Google Patents

Abstract

The utility model discloses an insulation monitoring device based on the monitoring of the position state of a circuit breaker, which comprises two balance resistors which are respectively connected between the positive pole of a direct current bus and the ground and between the negative pole of the direct current bus and the ground; the switching resistor is connected between the positive electrode of the direct current bus and the ground and/or between the negative electrode of the direct current bus and the ground; the two bus voltage acquisition circuits are respectively used for acquiring the voltage to ground of the anode of the bus and the voltage to ground of the cathode of the bus; the leakage current collector is used for collecting a leakage current signal of a current transformer connected in the branch circuit; the circuit breaker position state collector is used for collecting position state signals of a circuit breaker connected in the branch circuit; the insulation monitoring host is respectively connected with the bus voltage acquisition circuit, the leakage current acquisition device and the breaker position state acquisition device. The utility model discloses an insulation monitoring device and edge rolling monitoring method, the state information of make full use of circuit breaker, supplementary judgement high resistance ground connection.

Description

Insulation monitoring device based on circuit breaker position state monitoring

Technical Field

The utility model belongs to the technical field of direct current system's insulation monitoring, concretely relates to insulation monitoring device based on circuit breaker position state monitoring.

Background

As one of the main means for transmitting electric energy, the reliability of the power cable is of great significance. Meanwhile, because of a plurality of influencing factors such as cable design, production, installation and maintenance, power failure accidents caused by cable damage are more and more, and the cable is one of important hidden dangers of safe operation of a power grid. Once the cable is broken down, the long-time power-off maintenance is required, which brings serious loss to the economy and disturbs the normal production and living order of the residents and enterprises.

The condition of the cable insulation is continuously monitored, and then the necessity of further overhauling and maintenance of the cable is judged according to the monitoring data, namely the condition overhauling is carried out. The online monitoring not only can reduce the amount of labor for regularly overhauling all cables, reduce the test cost, avoid accelerating aging of some good cables and the like, but also can discover hidden troubles of faults in advance for monitoring the insulation state of the cables ceaselessly and reduce the damage caused by sudden occurrence of accidents. Meanwhile, the electric parameters of the cable can be detected at any time by carrying out online monitoring, so that a comprehensive historical database is formed, and a basis is provided for later overhaul of the cable.

However, the existing insulation monitoring device has the problem of insufficient sensitivity, especially when a plurality of branches are grounded in a high-resistance manner, the overall insulation is greatly reduced, and because the insulation resistance of each branch is higher than the sensitivity of the insulation monitoring device, the existing insulation monitoring device cannot find out a fault point. The field is frequently annoyed by such events.

The existing method is that the breaker is disconnected every time when power is cut off, then the change condition of the bus voltage of the direct current system is monitored, if the bus voltage slightly changes, the branch circuit possibly has high resistance grounding, and at the moment, the insulation condition of the branch circuit is detected by using a megger. However, the method has a large workload and is tedious in work. Thus, if this task can be integrated into existing insulation monitoring devices, the workload on personnel can be significantly reduced.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a: the generating line to current insulation monitoring devices calculates sensitively to ground resistance, and the branch road is subject to leakage current sensor's precision to ground resistance, to high resistant ground connection, is difficult to the accurate fault point of finding out, the utility model provides an insulation monitoring devices based on circuit breaker position state monitoring.

In order to realize the purpose, the utility model discloses a technical scheme be:

insulating monitoring devices based on circuit breaker position state monitoring includes:

the two balance resistors are respectively connected between the positive electrode of the direct current bus and the ground and between the negative electrode of the direct current bus and the ground;

at least one switching resistor connected between the positive electrode of the direct current bus and ground and/or between the negative electrode of the direct current bus and ground;

the two bus voltage acquisition circuits are respectively used for acquiring the voltage to ground of the anode of the bus and the voltage to ground of the cathode of the bus;

the leakage current collector is used for collecting leakage current signals of the current transformers connected in the branch circuit;

the circuit breaker position state collector is used for collecting position state signals of a circuit breaker connected in the branch circuit;

and the insulation monitoring host is respectively connected with the bus voltage acquisition circuit, the leakage current acquisition device and the breaker position state acquisition device.

Optionally, one switching resistor is arranged and connected between the negative electrode of the dc bus and ground.

Optionally, the leakage current collector is a leakage current sensor.

Since the technical scheme is used, the beneficial effects of the utility model are that:

1. the high-resistance grounding branch can be found out by utilizing the voltage change of the bus to the ground before and after the state change of the branch circuit breaker;

2. the ground resistance of the branch can be calculated by utilizing the voltage change of the direct current bus to the ground, so that the accuracy of the insulation resistance of the branch is greatly improved;

3. the position state of the circuit breaker is connected into the insulation monitoring device, and the data of the circuit breaker, the voltage of a direct current bus to ground, the resistance of the bus to ground and the like can be applied in a composite mode, so that the effect of finding out high-resistance grounding is achieved, and the data of the circuit breaker can be really utilized.

Drawings

Fig. 1 is a circuit diagram of the insulation monitoring device of the present invention;

fig. 2 is a schematic block diagram of the bus voltage acquisition circuit of the present invention.

Reference numerals: r1, R3 sampling resistors, R2, R4 voltage dividing resistors, R5, R6 balance resistors, R7 switching resistors, CT1, CT2, CTn current transformers, K1, K2, K3., Kn-breakers, U1, U2 bus voltage acquisition circuits, 101-insulation monitoring host, 102-breaker position state acquisition devices and 103-leakage current acquisition devices.

Detailed Description

Referring to fig. 1, the utility model discloses an insulation monitoring device based on monitoring of circuit breaker position state, including two bus voltage acquisition circuit U1, U2, bus voltage acquisition circuit U1, U2 are used for gathering the anodal voltage to ground of generating line and the negative pole voltage to ground of generating line respectively. The bus voltage acquisition circuits U1 and U2 refer to FIG. 2, mainly comprise a sampling resistor, a photoelectric isolator, an amplifying circuit, an AD sampling unit and an MCU processor, can sample and monitor the safe operation of a direct current power supply system in real time, and can detect the voltage range of positive and negative buses within 0V to 300V to the ground. The direct current system bus voltage is divided by voltage dividing resistors R2 and R4 respectively, sampling resistors R1 and R3 are used for sampling, the amplification factor of the isolated linear optocoupler is 8 times, photoelectric isolation is carried out, the isolated linear optocoupler is input into an amplifying circuit and a filter circuit, after the isolated linear optocoupler is processed by the amplifying circuit and the filter circuit, sampling is carried out by an AD sampling unit, AD conversion is carried out, the AD sampling unit adopts 12-bit AD chip sampling, the model is TLC2543, and the reference voltage is 2.5V; the resolution of the 12-bit AD conversion chip is 0.6 mV; reasonable parameters are selected for the divider resistor and the amplifying circuit, and the parameters of the resistors R1 and R2 are 1000k/1W and 680 ohm/0.5W respectively; because the isolation linear optocoupler is in an 8-time amplification relation, and the amplification factor of the amplification circuit is selected to be 1.5 times, the effective peak-to-peak value of a signal at an AD sampling position after the voltage to ground of a 300V bus is processed by the circuit is not more than 2.5V, and the calculation formula is as follows: 300V 0.68/(1000+0.68) 8 1.5-2.446V <2.5V, then the effective value of the signal at AD sampling for a dc voltage signal with 0.1V in ideal proportion is 0.815mV, the calculation formula: 1000V 0.1V 2.446V/300V 0.815mV, so the DC voltage signal of 0V-300V is completely captured for the AD sampling chip with 0.6mV resolution. The voltage of the direct current system bus to the ground can be calculated through the detection principle.

The insulation monitoring device further comprises two balance resistors R5 and R6 and a switching resistor R7, wherein the two balance resistors R5 and R6 are respectively connected between the positive pole of the direct current bus and the ground and between the negative pole of the direct current bus and the ground; the switching resistor R7 is connected between the negative electrode of the dc bus and ground, and the balance resistors R5 and R6 and the switching resistor R7 are connected to the dc bus. Of course, another switching resistor may be connected between the positive electrode of the dc bus and the ground, but since the positive electrode is likely to cause malfunction of protection, the switching resistor connected to the positive electrode is selected and used as needed. In this embodiment, through two balancing resistors R5 and R6 and a switching resistor R7 connected to the negative bus, the dc bus ground resistance can be calculated by using the principle of the unbalanced bridge method, so that the dc bus ground resistance can be monitored in real time, when a set value is exceeded, an alarm signal is sent, and branch inspection is started to further judge which branch has high resistance grounding. The calculation method of the unbalanced bridge method is common knowledge in the art, and therefore, will not be described herein in detail.

The insulation monitoring device also comprises a leakage current collector 103, a breaker position state collector 102 and an insulation monitoring host 101, wherein the leakage current collector 103 generally adopts a leakage current sensor with higher precision, and the leakage current sensor is connected with leakage current signals of current transformers CT1, CT2 and CT3.. CTn in a branch circuit; the circuit breaker position state collector 102 is configured to collect position state signals of circuit breakers K1, K2, and K3... Kn connected in the branch circuit, and the position state signals of the circuit breakers K1, K2, and K3... Kn may be implemented by a detection circuit in the prior art, which is not described in detail in this embodiment; the insulation monitoring host 101 is respectively connected with bus voltage acquisition circuits U1, U2, a leakage current collector 103 and a breaker position state collector 102. The leakage current collector 103 generally includes an amplifier, an AD sampling unit, and the like, and when a branch has a high impedance ground, a current transformer penetrating through the branch induces a current signal, and the current signal is amplified and then enters the AD sampling, so that the ground impedance of the branch can be calculated, and then which branch has a high impedance ground is determined.

Because the precision problem of leakage current sensor, if can't find out the trouble branch road, then utilize circuit breaker position state collector 102 to monitor circuit breaker position change information and calculate the judgement:

specifically, the equivalent resistance of the positive electrode of the direct-current bus before the switching of the branch n circuit breaker is R_{1 is}Cathode bus equivalent resistance R_{Minus 1}(ii) a After the branch n breaker is switched, the equivalent resistance of the positive electrode of the direct current bus is R_{2 is positive}Cathode bus equivalent resistance R_{Minus 2}(ii) a If the voltage of the direct current bus system bus to earth is fluctuated to be larger than a set value within a set time, switching a switching resistor R7, and before switching, the voltage of the direct current bus to earth is U₁₊And U_1-After switching, the voltage to ground of the direct current bus is U₂₊And U_2-And then:

wherein R is_{N is positive}Positive resistance to ground, R, of branch n_{Negative n}Is the negative resistance to ground of branch n, since R_{1 is}、R_{Minus 1}、U₁₊、U_1-、U₂₊、U_2-To be calculable, R is calculated by equations (1) to (4)_{N is positive}And R_{N is positive}Thereby determining the high-resistance grounding branch n.

The utility model discloses a DC bus system's insulation monitoring method, through monitoring circuit breaker position change information, can utilize branch circuit breaker state change before and after bus to change ground voltage when the branch circuit fault can't be detected out to leakage current sensor precision problem to find out the high resistance ground connection branch road, the degree of accuracy is showing and is improving.

Claims (3)

1. Insulating monitoring devices based on circuit breaker position state monitoring, its characterized in that includes:

the two balance resistors are respectively connected between the positive electrode of the direct current bus and the ground and between the negative electrode of the direct current bus and the ground;

at least one switching resistor connected between the positive electrode of the direct current bus and ground and/or between the negative electrode of the direct current bus and ground;

the two bus voltage acquisition circuits are respectively used for acquiring the voltage to ground of the anode of the bus and the voltage to ground of the cathode of the bus;

the leakage current collector is used for collecting leakage current signals of the current transformers connected in the branch circuit;

the circuit breaker position state collector is used for collecting position state signals of a circuit breaker connected in the branch circuit;

and the insulation monitoring host is respectively connected with the bus voltage acquisition circuit, the leakage current acquisition device and the breaker position state acquisition device.

2. The insulation monitoring device based on circuit breaker position state monitoring of claim 1, wherein the switching resistor is provided with one, and is connected between the negative pole of the direct current bus and the ground.

3. The insulation monitoring device based on circuit breaker position and state monitoring of claim 1, wherein the leakage current collector is a leakage current sensor.

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