KR101479285B1 - Apparatus for detecting loose contact of solar power generation system junction box - Google Patents

Abstract

The present invention relates to an apparatus for detecting a contact fault of a junction box of a photo voltaic power generation system which can detect a contact fault of an input part of a junction box and a photovoltaic module, and a contact fault of a diode and a fuse per line serially connected to a plurality of solar cell modules precisely. In an apparatus for detecting a contact fault of a junction box of a photovoltaic power generation system detecting the contact fault of the junction box including a plurality of fuses serially connected to a plurality of solar cell modules, a plurality of diodes serially connected to the fuses and a circuit breaker connected to the diodes in parallel, the apparatus of the present invention includes: a pulse input part which is connected to a line between the solar cell modules and the fuses and inputs a reference pulse signal of a DC component having a specific frequency to a DC electricity outputted from the solar cell modules; a pulse detection part for detecting an output pulse signal from the DC electricity outputted from an output part of the diodes; and a contact fault judgment part which judges the contact fault state of the diode and the fuse per line by judging distortion of the output pulse signal by comparing the reference pulse signal with the output pulse signal outputted from the pulse detection part.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a solar cell,

More particularly, the present invention relates to an apparatus for detecting a connection failure in a solar cell system, in particular, a faulty connection between an input terminal of a solar cell module and a connection box, a faulty connection of fuses and diodes connected in series with a plurality of solar cell modules, And more particularly, to a connection box contact failure detecting device for a solar power generation system capable of accurately detecting a connection box.

Since the amount of fossil energy that is widely used is limited, it is exhausted sometime and various pollutants are emitted. Therefore, most countries are developing alternate energy that can be used instead.

There are many types of energy that can replace fossil energy, such as an aid to generate energy using a tide-only car, a wave to generate energy using waves, a wind force to generate energy using wind power, And geothermal energy to generate energy using heat in the ground, and solar energy as the source of these energies.

Photovoltaic generation that generates solar energy refers to a system that converts sun and energy into electric energy, and the developed DC electric energy is converted into alternating electric energy through a power inverter (inverter).

The generated electricity is supplied to the load side in connection with the KEPCO system, and the remaining electric power is transmitted to the KEPCO system. The shortage of electricity is supplied by KEPCO.

When the system is constructed in this way, solar cell modules are used in an array form. In the connection box, a circuit group for connecting with the solar cell module is built in. A power line is connected between the connection box and the inverter .

However, in such a general photovoltaic power generation system, when a plurality of solar cell modules are connected to each other, the power is transmitted to the inverter through the four wires. In this case, , The power generation amount, etc., it is necessary to individually check the solar cell module, so that it takes a lot of maintenance time and is difficult to repair.

If a contact failure occurs in a specific circuit, there is no problem in the system in a short time, but in the long term, it causes a failure such as a fire or disconnection.

The connection box of the photovoltaic power generation system includes a fuse and a diode connected to the plurality of solar battery modules, respectively. The output terminal of the connection box includes a main breaker And the like. In the connection box, the connecting portion of the input port of the solar cell module and the connection box of the connection box, the connection portion of the fuse, and the connection portion of the diode are contracted and expanded due to daytime and nighttime temperature differences and the like, , Heat may be generated due to a rise in resistance at a connection portion where a crack occurs, and fire or the like may occur. Accordingly, there is a need to detect the contact failure of the connection box in advance.

In this connection, a solar power generation system having a self-checking function has been proposed in Patent Document 1. [ Patent Document 1 is directed to a solar power generation system having a self-checking function. Specifically, a resistance sensor and a voltage sensor are provided at an output terminal of a solar cell array, an input terminal and an output terminal of a junction box, The present invention relates to a photovoltaic power generation system having a self-checking function capable of maintaining optimal power generation by monitoring and controlling the presence or absence of a solar cell module, a junction box, an inverter, and a line while measuring variations in resistance and voltage .

Patent Document 1 is for detecting a fault using a resistance sensor and a voltage sensor, and differs from the present invention in detecting a contact failure of a connection box by detecting whether a pulse signal is distorted by inputting a pulse signal of a direct current component.

Published Patent No. 2014-0087958

SUMMARY OF THE INVENTION The present invention has been made in view of the above circumstances and provides a solar power generation system capable of precisely detecting defective connection between a solar module and an input terminal of a connection box, And it is an object of the present invention to provide a poor contact / contact detection apparatus.

According to an aspect of the present invention,

A plurality of fuses connected in series to a plurality of solar cell modules, a plurality of diodes connected in series with the plurality of fuses, and a circuit breaker connected in parallel to the plurality of diodes, A connection box contact failure detecting device for a solar cell power generation system,

A pulse input unit connected to the plurality of solar cell modules and a line between the plurality of fuses, for inputting a reference pulse signal of a DC component having a specific frequency at a DC power output from the plurality of solar cell modules;

A pulse detector for detecting an output pulse signal from the DC power output from the output terminals of the plurality of diodes;

And a contact failure judging unit for judging whether the output pulse signal is distorted by comparing the reference pulse signal and the output pulse signal detected from the pulse detecting unit and judging the contact failure state of the fuse and the diode for each line The present invention provides an apparatus for detecting connection failure in a connection box of a solar power generation system.

Particularly, it is preferable that the contact failure determining unit determines that the output pulse signal has a distortion generation period that is longer than a predetermined period, and determines that the output pulse signal is in a contact failure state if the output pulse signal is short.

The contact failure determination unit may generate an alarm signal and output the alarm signal to the alarm generator when the contact state of the connection case is determined as a contact failure state.

The apparatus for detecting the connection failure of the connection box of the solar photovoltaic power generation system of the present invention has the effect of precisely detecting the connection failure of the input terminal of the solar cell module and the connection box, the fuse for each line and the connection failure of the diode.

Particularly, the present invention can detect the initial, middle, and serious conditions of the contact failure of the connection box, so that the manager can quickly take steps according to the progress of the contact failure, thereby maximizing the solar power generation efficiency .

1 is a view schematically showing a connection box detector of a solar power generation system of the present invention,
2 is a diagram showing a reference pulse signal input by the pulse input unit,
3 is a diagram showing output pulse signals in a connection steady state and a connection defective state.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described with reference to the drawings, and the scope of the present invention is not limited to the following embodiments.

BRIEF DESCRIPTION OF DRAWINGS FIG. 1 is a schematic view of a connection box detecting apparatus of a solar power generation system of the present invention. FIG.

The detection device of the connection box 30 of the photovoltaic power generation system of the present invention mainly comprises a pulse input unit 510, a pulse detection unit 530 and a contact failure judgment unit 550.

The connection box 30 includes a plurality of fuses 310 connected in series to a plurality of solar cell modules 10, a plurality of diodes 320 connected in series with the plurality of fuses 310, And a breaker (MCCB) connected in parallel to the diode 320 of FIG. The order of the plurality of fuses 310 of the connection box 30 and the plurality of diodes 320 may be changed from each other. The connection box 30 may be provided with a sensor box for receiving signals of various sensors such as a surface temperature sensor of the solar cell module 10, an ambient temperature sensor, and the like, and controlling the inverter.

2 is a diagram showing a reference pulse signal input by the pulse input unit.

The pulse input unit 510 is connected to a line between the plurality of solar cell modules 10 and the plurality of fuses 310 and supplies the DC power output from the plurality of solar cell modules 10 A reference pulse signal of a direct current component having a main winding is input. That is, a reference pulse signal of a DC component having a constant pulse width.

The pulse input unit 510 is provided in each line between the plurality of solar cell modules 10 and the plurality of fuses 310 and inputs a reference pulse signal to each line.

The pulse detector 530 detects an output pulse signal from the DC power outputted from the output terminal of the plurality of diodes 320 and input to the breaker MCCB. The pulse detector 530 is provided in each of the lines output from the output terminals of the plurality of diodes 320.

The contact failure judgment unit 550 judges whether or not the reference pulse signal inputted to the input terminal of the fuse 310 by the pulse input unit 510 and the reference pulse signal inputted to the output terminal of the diode 320 detected by the pulse detection unit 530 And compares the output pulse signal to determine whether or not the connection box 30 is poorly connected.

That is, if the output pulse signal is distorted unlike the reference pulse signal, it is determined that the connection box 30 is defective.

When the fuse 310 and the diode 320 are in a good connection state, the output pulse signal detected from the pulse detector 530 has the same pulse width as the reference pulse signal, as shown in FIG. 3A, When the connection state of the fuse 310 and the diode 320 is poor, a distortion phenomenon occurs such that the pulse width of the output pulse signal is not constant as shown in FIG. 3 (b).

In this way, the connection failure of the fuse 310 and the diode 320 provided in the connection box 30 can be determined by comparing the pulse width of the output pulse signal and the pulse width of the reference pulse signal. Furthermore, the connection failure can be determined by comparing the amplitude of the output pulse signal with the amplitude of the reference pulse signal.

In particular, the contact failure determining unit 550 determines in real time whether or not the output pulse signal of the DC power of the output ends of the plurality of diodes 320 is distorted, The connection state data for the plurality of fuses 310 and the plurality of diodes 320 is generated. If a distortion phenomenon occurs in the output pulse signal, the generation period is calculated, and the progress of the connection failure can be determined by comparing the generation period with a predetermined period.

That is, the period is set in advance in the first cycle, the second cycle, and the third cycle, and when the cycle is less than the first cycle, the connection state is determined to be normal. If the cycle is between the first cycle and the second cycle, It is determined that the connection is in a bad state in the middle of the second period and the third period and it is determined that the connection is in a bad state if it is in the third period or more.

The predetermined period, that is, the first period, the second period, and the third period may be determined by an experiment, simulation, or the like.

The contact failure determining unit 550 determines whether or not the output pulse signal of the DC power of the output terminals of the plurality of diodes 320 is distorted. When the contact failure determining unit 550 determines that the connection pulse is distorted, And outputs it to the alarm generator. The alarm generator may be a means capable of alarming by a visual alarm (warning light, display) or audible alarm (speaker) so that the manager can recognize the alarm signal.

Further, it is preferable that a communication module interlocked with the contact failure judgment unit 550 is provided. The communication module may be connected to the network through wired or wireless lines to transmit an alarm signal to the remote terminal, and may further transmit a remote control command transmitted from the remote terminal to the connection failure determination unit.

10: solar cell module,
30: connection box,
310: Fuse,
320: diode,
510: Pulse input section,
530: a pulse detector,
550: Contact failure judgment unit

Claims (3)

A plurality of fuses connected in series to a plurality of solar cell modules, a plurality of diodes connected in series with the plurality of fuses, and a circuit breaker connected in parallel to the plurality of diodes, A connection box contact failure detecting device for a solar cell power generation system,
A pulse input unit connected to the plurality of solar cell modules and a line between the plurality of fuses, for inputting a reference pulse signal of a DC component having a specific frequency at a DC power output from the plurality of solar cell modules;
A pulse detector for detecting an output pulse signal from the DC power output from the output terminals of the plurality of diodes;
And a contact failure judging unit for judging whether the output pulse signal is distorted by comparing the reference pulse signal and the output pulse signal detected from the pulse detecting unit and judging the contact failure state of the fuse and the diode for each line Wherein the connection failure detection device is a connection failure detection device of a solar power generation system.
The method according to claim 1,
Wherein the contact failure determining unit determines that the output pulse signal is in a steady state when the distortion generation period of the output pulse signal is longer than a predetermined period and determines that the output pulse signal is in a poor contact state when the output pulse signal is short, .
3. The method of claim 2,
Wherein the contact failure determining unit generates an alarm signal when the contact state of the connection box is determined as a contact failure state and outputs the alarm signal to the alarm generator.

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