KR20220097316A - Solar power generation device with a function to monitor the risk of solar line insulation status and leakage current per string based on the failure prediction multi-faceted evaluation table - Google Patents

Abstract

The present invention relates to a solar power generation apparatus having a function of monitoring a solar line insulation state risk sign and a leakage current by string based on a failure prediction multi-faceted evaluation table. The solar power generation apparatus includes: a plurality of leakage sensing parts connected with a plurality of string output lines of a solar panel, respectively, to sense and report whether leakage occurs; a power circuit breaker determining whether to connect the plurality of string output lines with a power line; an insulation sensing part connected to the power line to measure and report an insulation decline amount of the power line; an arc sensing part connected to the power line to sense and report whether an arc of the power line occurs; and a failure analysis part analyzing sensing results of the leakage sensing part, the insulation sensing part and the arc sensing part through a failure prediction multi-faceted evaluation table to predict a risk level, and then, control the operation of the power circuit breaker.

Description

Solar power generation device with a function to monitor the risk of solar line insulation status and leakage current per string based on the failure prediction multi-faceted evaluation table}

The present invention relates to a photovoltaic power generation device capable of predicting a risk precursor of an insulation state of a photovoltaic line based on a failure prediction multi-faceted evaluation table and monitoring and notifying the occurrence of leakage current at the same time.

In general, since the amount of electricity obtained from one solar cell is very small in a solar power system, a solar module is manufactured and used by connecting several solar cells, but this solar module also has a small amount of power.

Therefore, if you want to transmit generated power by connecting to the power system, connect several photovoltaic modules as a group, or connect several of these groups in parallel to form a photovoltaic array, and through this, the power required for power generation and transmission

pressure and power. That is, it is common to configure a photovoltaic panel (array) by connecting a plurality of photovoltaic modules in series, and to configure a plurality of photovoltaic panels as a group.

The solar panel converts sunlight into DC power and transmits it to the inverter through a connection panel, and the inverter converts the DC power generated from each solar panel into AC power so that it can be connected to the grid.

As described above, there are various technologies for converting electric power generated from a plurality of photovoltaic panels and linking with the electric power system, and examples thereof include Patent Documents 1 and 2.

However, such a conventional solar junction panel effectively merges DC power output from a plurality of solar panels and converts it into AC to provide it to the grid, but it is based on a multi-faceted evaluation table for failure prediction of the risk of insulation state of the solar line. There is a limitation in that it cannot provide a function to predict and notify the occurrence of leakage current for each string at the same time.

Registered Patent Publication No. 10-1171580 Registered Patent Publication No. 10-0930132

Accordingly, in order to solve the above problems, the present invention predicts the risk precursor of the insulation state of the solar line based on the failure prediction multi-faceted evaluation table and at the same time provides a function of monitoring and notifying the occurrence of leakage current for each string. To provide a power generation device.

The object of the present invention is not limited to the object mentioned above, and other objects not mentioned will be clearly understood by those of ordinary skill in the art from the description below.

As a means for solving the above problems, according to an embodiment of the present invention is connected to each of a plurality of string output lines of the photovoltaic panel, a plurality of leakage detection unit for detecting and notifying whether leakage occurs; a power circuit breaker for determining whether to connect a plurality of string output lines and a power line; an insulation sensing unit connected to the power line to measure and notify an insulation degradation amount of the power line; an arc detection unit connected to the power line to detect and notify whether an arc has occurred in the power line; and a failure analysis unit that analyzes the sensing results of the leak detection unit, the insulation detection unit, and the arc detection unit through a failure prediction multi-faceted evaluation table to predict a risk level and then controls the operation of the power breaker Provided is a solar power generation device equipped with a predictive multi-faceted evaluation table-based solar line insulation state risk precursor and leakage current monitoring function for each string.

The plurality of leak detection units may include: a pulse applying unit generating and outputting a pulse signal; a circular magnet through which one of the string output lines passes, a first coil surrounding the magnet in a first direction, and a second coil surrounding the magnet in a second direction, wherein the leakage current generated in the string output line is a leak detection sensor in which the signal waveform of the pulse signal is deformed and output; a pulse applying unit for applying a pulse signal to any one of the first coil and the second coil; an impedance adjusting unit for actively varying an impedance of the leak detection sensor through a variable resistor attached among the first coil and the second coil; and a signal analyzer configured to calculate and notify whether leakage occurs, leakage direction, leakage amount, and leakage frequency based on the output signal of the leakage detection sensor.

The insulation sensing unit is connected to each of the string output lines, applies a predetermined power to the string output line, senses the power applied to the string output line, and compares it with an applied power amount to obtain an insulation resistance value IT systems; and a switching unit that sequentially drives the plurality of IT systems according to a preset rule.

The arc detection unit detects and notifies whether an arc current is generated through a Rogowski coil through which any one of the string output lines passes.

The present invention makes it possible to immediately detect and notify the insulation state, leakage state, and arc occurrence state of a solar line.

In addition, it is also possible to predict and notify risk precursors according to the insulation status below the warning level, leakage status, and arc generation status based on the failure prediction multi-faceted evaluation table.

That is, it enables a more detailed and reliable photovoltaic power generation status monitoring operation to be performed.

1 is a view showing a photovoltaic power generation device having a function of monitoring the leakage current for each string and foreshadowing the risk of the insulation state of a photovoltaic line based on a multi-faceted evaluation table for failure prediction according to an embodiment of the present invention.
2 is a view for explaining a failure prediction multi-faceted evaluation table according to an embodiment of the present invention.
2 is a diagram illustrating a leak detection unit according to an embodiment of the present invention.
3 is a diagram illustrating an insulation sensing unit according to an embodiment of the present invention.
4 is a diagram illustrating an arc detection unit according to an embodiment of the present invention.

The following is merely illustrative of the principles of the invention. Therefore, those skilled in the art will be able to devise various devices that, although not explicitly described or shown herein, embody the principles of the present invention and are included within the spirit and scope of the present invention. Further, it is to be understood that all conditional terms and examples listed herein are, in principle, expressly intended solely for the purpose of enabling the concept of the present invention to be understood, and not limited to the specifically enumerated embodiments and states as such. should be

Moreover, it is to be understood that all detailed description reciting the principles, aspects, and embodiments of the invention, as well as specific embodiments, are intended to cover structural and functional equivalents of such matters. It should also be understood that such equivalents include not only currently known equivalents, but also equivalents developed in the future, i.e., all devices invented to perform the same function, regardless of structure.

Thus, for example, the block diagrams herein are to be understood as representing conceptual views of illustrative circuitry embodying the principles of the present invention. Similarly, all flowcharts, state transition diagrams, pseudo code, etc. may be tangibly embodied on computer-readable media and be understood to represent various processes performed by a computer or processor, whether or not a computer or processor is explicitly shown. should be

1 is a view showing a photovoltaic power generation device having a function of monitoring the leakage current for each string and foreshadowing the risk of a solar line insulation state based on a multi-faceted evaluation table for failure prediction according to an embodiment of the present invention.

1, the device of the present invention is connected to each of a plurality of string output lines of the solar panel, a plurality of leak detection units 100 for detecting and notifying whether leakage occurs, a plurality of the string output lines and A power breaker 200 for determining whether to connect between power lines, an insulation sensing unit 300 connected to the power line to measure and notify the insulation degradation of the power line, and connected to the power line, the power line The arc detection unit 400, which detects and notifies the occurrence of an arc in the It is configured to include a failure analysis unit 500 and the like for controlling the operation of the circuit breaker.

2 is a view for explaining a failure prediction multi-faceted evaluation table according to an embodiment of the present invention.

As shown in FIG. 2, the present invention has a leakage amount, insulation degradation amount, arc signal, leakage direction (+), and leakage direction (-) as evaluation items, and a failure defined by dividing the risk level for each evaluation item into 3 stages We propose a predictive multifaceted evaluation table.

And, after analyzing the signal value for each evaluation item based on the failure prediction multi-faceted evaluation table, the evaluation items belonging to risk levels 1 and 2 are identified.

In addition, when n (eg, 2) or more evaluation items belonging to risk level 1 are detected, an alarm signal is generated and output to warn the possibility of a dangerous state occurrence, and m evaluation items belonging to risk level 2 are detected. When abnormal (eg, two) is detected, an alarm signal is generated and output to notify the occurrence of a dangerous state.

That is, the current state of the photovoltaic device is evaluated based on complex factors such as leakage amount, insulation degradation, arc signal, leakage direction (+), and leakage direction (-), and a corresponding alarm signal is provided and follow-up so that action can be taken immediately.

3 is a diagram illustrating a leak detection unit according to an embodiment of the present invention.

As shown in FIG. 3 , the leakage detecting unit 100 of the present invention includes a pulse applying unit 110 for generating and outputting a pulse signal, a circular magnetic (M) through which one string output line passes, and a magnetic (M) ) is composed of a first coil (C1) wrapped in a first direction, and a second coil (C2) wrapped around a magnetic (M) in a second direction, and a pulse signal is generated by the leakage current generated in any one of the string output lines. The leakage detection sensor 120 outputting a signal waveform is deformed, the impedance adjusting unit 130 for actively varying the impedance of the leakage detection sensor through a variable resistor attached among the first coil and the second coil, and the leakage detection and a signal analysis unit 140 for calculating and notifying whether leakage occurs, leakage direction, leakage amount, and leakage frequency based on the output signal of the sensor 120 .

4 is a diagram illustrating an insulation sensing unit according to an embodiment of the present invention.

As shown in FIG. 4 , the insulation sensing unit 300 of the present invention is connected to each string output line, applies a predetermined power to the string output line, and then senses the power applied to the string output line. It includes a plurality of IT systems 310 that obtain an insulation resistance value by comparing the amount of power applied, and a switching unit 320 that sequentially drives the plurality of IT systems according to a preset rule.

5 is a diagram illustrating an arc detection unit according to an embodiment of the present invention.

5, the arc detection unit 400 of the present invention is characterized in that it detects and notifies whether an arc current is generated through a Rogowski coil through which any one of the string output lines passes.

In the above, preferred embodiments of the present invention have been illustrated and described, but the present invention is not limited to the specific embodiments described above, and it is common in the technical field to which the present invention pertains without departing from the gist of the present invention as claimed in the claims. Various modifications may be made by those having the knowledge of, of course, and these modifications should not be individually understood from the technical spirit or perspective of the present invention.

Claims (5)

a plurality of leak detection units respectively connected to a plurality of string output lines of the solar panel to detect and notify whether leakage has occurred;
a power circuit breaker for determining whether to connect a plurality of string output lines and a power line;
an insulation sensing unit connected to the power line to measure and notify the insulation degradation of the power line;
an arc detection unit connected to the power line to detect and notify whether an arc has occurred in the power line; and
Failure prediction, characterized in that it comprises a failure analysis unit for controlling the operation of the power breaker after predicting a risk level by analyzing the sensing results of the leak detection unit, the insulation detection unit, and the arc detection unit through a failure prediction multi-faceted evaluation table Photovoltaic power generation device equipped with multi-faceted evaluation table-based solar line insulation status risk precursor and leakage current monitoring function for each string. The method of claim 1, wherein the failure prediction multi-faceted evaluation table is
Failure prediction multi-faceted evaluation table-based sun, characterized in that the amount of leakage, insulation degradation, arc signal, leakage direction (+), and leakage direction (-) are evaluated as evaluation items, and the risk level for each evaluation item is divided into 3 stages and defined A photovoltaic power generation device equipped with a leakage current monitoring function for each string and dangerous wire insulation condition. The method of claim 1, wherein the plurality of leak detection units
a pulse applying unit generating and outputting a pulse signal;
a circular magnet through which one of the string output lines passes, a first coil surrounding the magnet in a first direction, and a second coil surrounding the magnet in a second direction, wherein the leakage current generated in the string output line is a leak detection sensor in which the signal waveform of the pulse signal is deformed and output;
a pulse applying unit for applying a pulse signal to any one of the first coil and the second coil;
an impedance adjusting unit for actively varying an impedance of the leak detection sensor through a variable resistor attached among the first coil and the second coil; and
Based on the output signal of the leak detection sensor, the failure prediction multi-evaluation table-based solar line insulation state risk warning and A solar power generation device with a leakage current monitoring function for each string. According to claim 1, wherein the insulation sensing unit
a plurality of IT systems connected to each of the string output lines to apply a predetermined power to the string output line, sense the power applied to the string output line, and compare it with an applied power amount to obtain an insulation resistance value; and
A photovoltaic power generation device having a function of monitoring the leakage current for each string and foreshadowing the risk of insulation state of a solar line based on a failure prediction multi-faceted evaluation table, characterized in that it includes a switching unit that sequentially drives the plurality of IT systems according to a preset rule. According to claim 1, wherein the arc detection unit
Failure prediction multi-faceted evaluation table-based solar line insulation state risk warning and string leakage current monitoring function, characterized in that it detects and notifies whether an arc current has occurred through a Rogowski coil through which any one of the string output lines passes A solar power plant.

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