KR101204263B1 - Solar pannel error detector for solar generation - Google Patents

Abstract

PURPOSE: A faulty automatic detecting device of a solar panel for sunlight generation is provided to minimize maintenance costs by easily changing the faulty automatic detecting device. CONSTITUTION: A main body(220) mounts connection leading lines(220a~222d) connected to a solar panel(100); connection ports(224a~224d); and a diode(225). The main body draws generation power of the solar panel to leading lines(230a,230b). A faulty detecting PCB(300) automatically detects whether or not of a faulty solar panel and displays to an LED lamp. Conductive gaskets(302a~302d) connect the faulty detecting PCD to the connection leading lines connected to the solar panel. An upper side cover(210) forms a hole for a faulty displaying LED and is connected to the main body.

Description

Auto Defective Detection Device of Solar Panel for Solar Power Generation {SOLAR PANNEL ERROR DETECTOR FOR SOLAR GENERATION}

The present invention relates to a device for detecting a defective power generation of a solar panel used for the generation of solar light, and more particularly, a plurality of solar panels are automatically detected in the state of failure of the solar panel in the state connected directly and in parallel The present invention relates to a solar panel failure automatic detection device that can minimize the maintenance cost by making replacement easy by visually checking.

In general, photovoltaic power generation is a power generation method that converts sunlight directly into electrical energy using a solar cell without the aid of a generator. Photovoltaic power generation consists of solar cell, storage battery, and power converter. When solar light is scattered on a solar cell that combines a P-type semiconductor and an N-type semiconductor, holes are generated in the solar cell by the energy of sunlight. As electrons and electrons are generated, holes gather toward the P-type semiconductor and electrons toward the N-type semiconductor. When a potential difference occurs, current flows.

Usually, solar cells can be roughly divided into those using a silicon semiconductor as a material and a compound semiconductor as a material, and again, a silicon semiconductor is classified into a crystalline system and an amorphous system. And the solar cell module used for solar power generation generates power by connecting several solar cells in parallel or parallel to form a large-scale system.

Thus, since several to hundreds of solar panels for solar power generation are used in series and in parallel, it is not possible to easily check whether the solar panels are defective. Excessive costs are required.

Patent Registration No. 10-0918964 (Notification date: September 25, 2009)

The solar panel for the solar power system is connected to a plurality of solar panel modules in series, and then connected to the plurality of solar panel modules in parallel to use in an array form, so it is easy to identify a defective module because of its large volume and number. not. Therefore, in the related art, since a defective module is detected through regular inspection, a large number of maintenance personnel are required, and excessive cost is generated for maintenance, and even if a defective product is generated, replacement is not immediately performed, and power generation efficiency is also lowered.

The present invention has been proposed to solve the above problems, and an object of the present invention is to easily replace the display by automatically detecting and displaying a defect of the solar panel in a state in which a plurality of solar panels are connected in series and parallel. It is to provide a solar panel failure automatic detection device that can minimize maintenance costs and increase power generation efficiency.

In order to achieve the above object, the apparatus of the present invention includes a main body for drawing the lead wires connected to each of the solar panels, the connection terminal block, and the diode mounted to draw the generated electricity generated in the solar panel as a leader line; A defect detection PCB that automatically detects whether a solar panel is defective and displays the LED lamp; A conductive gasket for connecting the defect detection PCB to the solar panel connection lead wire; And a hole for an LED for indicating a defect, and configured as an upper cover which is fastened to the main body.

The upper cover has a waterproof groove formed on the outer circumferential side, and a waterproof rubber ring is inserted into the waterproof groove so that the main body and the upper cover can be waterproof-coupled by a fastening means, and the defect detection PCB is a solar panel. Photovoltaic power generation detection unit for detecting the generation voltage in the module, Solar module error range setting unit for setting a reference voltage for each photovoltaic module standard, the current generation voltage and the solar module error range delivered from the solar power detection unit When the current generation voltage is within the set voltage range, it is recognized as normal power generation by comparing the voltage set by each solar panel module standard in the setting unit, and detected by the error detection unit when the current generation voltage is less than or higher than the set voltage range. A comparison unit for transmitting a signal, a display unit for displaying a power generation state of the solar panel module with an LED, and the comparison When the recognition to normal development when the normal detection of lighting (ON) the LED of the display unit, recognizes the failure module from the comparison unit of the LED display section is composed of an error detection section that turns off (OFF).

Automatic detection device for failure of solar panel for photovoltaic power generation according to the present invention is attached to the solar panel automatically detects whether the solar panel is defective, and if the failure occurs by immediately displaying the naked eye at a distance for visual confirmation As a result, it is possible to replace a defective solar panel immediately, thereby reducing maintenance costs and improving solar power efficiency.

1 is an example of a solar panel module for photovoltaic power generation to which the present invention is applied;
2 is an exploded perspective view of the automatic solar panel failure detection apparatus according to the present invention,
Figure 3 is a side cross-sectional view of the cover having a waterproof function shown in FIG.
Figure 4 is a block diagram of the overall configuration of a solar panel module according to an embodiment of the present invention,
FIG. 5 is a block diagram illustrating an apparatus for automatically detecting a failure of a solar panel according to an embodiment of the present invention; FIG.
6 is a circuit diagram of a solar panel failure automatic detection device according to an embodiment of the present invention.

 The technical problems achieved by the present invention and the practice of the present invention will be more clearly understood by the preferred embodiments of the present invention described below. The following examples are merely illustrative of the present invention and are not intended to limit the scope of the present invention.

1 is an example of a typical photovoltaic solar panel module to which the present invention can be applied.

As shown in FIG. 1, a conventional solar panel module for photovoltaic power generation has a connection box 200 attached to a rear surface of the solar panel 100, and a connection box 200 withdraws for outputting + power generation voltage. A line 230a is connected to the lead line 230b for outputting a generated voltage.

Automatic solar panel failure detection apparatus according to the present invention is to improve the connection box 200 to add a failure detection PCB 300 for automatically detecting whether the solar panel is defective in the conventional connection box. Hereinafter, the connection box 200 on which the defect detection PCB 300 is mounted to automatically detect whether a solar panel is defective is referred to as an automatic solar panel failure detection device.

2 is an exploded perspective view of the automatic solar panel failure detection apparatus according to the present invention, Figure 3 is a side cross-sectional view of the cover having a waterproof function shown in FIG.

As shown in FIG. 2, the apparatus for automatically detecting a solar panel failure according to the present invention includes a connection lead wire 222a to 222d connected to the solar panel 100, a connection terminal block 224a to 224d, a diode 225, and the like. The mounting box main body 220 which draws out the generated electricity generated in the solar panel 100 through the lead wires 230a and 230b, and automatically detects whether the solar panel is defective according to the present invention and visually checks it. Defect detection PCB 300, which is indicated by the LED lamp 310, the conductive gaskets (302a ~ 302d) for connecting the defect detection PCB 300 and the solar panel connection lead wires (222a ~ 222d), and displays the defect The hole 210a for LED is formed and consists of an upper cover 210 fastened to the connection box body 220. The upper cover 210 has a waterproof groove 212 is formed on the outer periphery as shown in Figure 3, the waterproof groove 212 is a waterproof rubber ring 214 is inserted into the main body 220 and the upper side of the connection box The cover 210 is waterproof to be coupled by the fastening means.

Referring to FIG. 2, the failure detection PCB 300 is provided with a failure detection terminal 304a to 304d connected to the solar panel and a power supply terminal for supplying power required by the failure detection PCB from the power of the solar panel. In the center, the LED lamp 310 for identifying the defect of the solar panel is mounted.

Figure 4 is a block diagram of the overall configuration of a solar panel module according to an embodiment of the present invention.

In the solar panel module 100 according to the embodiment of the present invention, as shown in FIG. 4, one to three solar panel blocks are connected to form a module. The power generation voltages (1, 2, 3) of the solar panel are integrated into one through one connection box 200 to output + generation electricity and-generation electricity. Solar panel failure detection PCB (300) installed together in the connection box 200 is connected to each of the 1 to 3 solar panel blocks through the connection box 200 automatically detects the failure (error) of the 1 to 3 solar panel blocks. Detected and displayed. At this time, the connection between the solar panel 100 and the defect detection PCB 300 is made through the solar panel connection lead wires 222a to 222d, the conductive gaskets 302a to 302d, and the defect detection terminals 304a to 304d of the connection box 200. Is done.

5 is a block diagram of a solar panel failure automatic detection device according to an embodiment of the present invention.

The failure detection PCB 300 according to the present invention, as shown in FIG. Solar module error range setting unit 322 for setting the reference voltage for each solar panel module specification by DIP SW or BCD SW, and the current generation voltage and the solar module error transmitted from the photovoltaic power generation detection unit 321. The range setting unit 322 compares the voltages set according to the solar panel module specifications, and when the current generation voltage is within the set voltage range, recognizes it as normal power generation. When high, the comparator 323 which transmits a detection signal to the error detector 325, the display unit 310 which displays the power generation state of the solar panel module 100 with LEDs, and the comparator 323 are used for normal power generation. If you recognize If a normal detection unit 324 for turning on the LED when, recognized as poor in comparison module 323 LED display is configured as an error detection section 325 to OFF.

In FIG. 5, the photovoltaic module 100 converts sunlight into electrical energy using solar light, and the defect detection PCB power supply unit 306 converts some of the generated power from the photovoltaic module at sunrise so that the solar panel is defective. Supply to the operating power of the detection PCB (300).

6 is a circuit diagram of a solar panel failure automatic detection device according to an embodiment of the present invention.

Referring to FIG. 6, the regulator 306 outputs about 8 to 30V voltage input from the photovoltaic module as a stable 5V voltage, which is used as an operating power source for the PCB circuit element.

The first comparator 323a receives the error detection voltage (Solar Module ERR detection-1) of the first solar panel on the + side, and receives the first setting voltage (Setting Voltage-1) on the + side to output high or low. . The second comparator 323b receives the error detection voltage (Solar Module ERR detection-2) of the second solar panel on the + side, and receives the second setting voltage (Setting Voltage-2) on the-side to output high or low. . The third comparator 323c receives an error detection voltage (Solar Module ERR detection-3) of the third solar panel on the + side, and receives a third setting voltage (Setting Voltage-3) on the + side to output high or low. . The LED driving transistor Q1 is turned on or off according to the outputs of the first comparators 323a to 323c to turn on or turn off the error display LED 310 connected to the collector side of the transistor Q1. (OFF).

As described above, the automatic failure detection apparatus according to the present invention is a solar power error identification controller attached to the rear surface of the solar panel module, and when the power generation is normally performed, the LED 310 is turned on, and abnormal power generation or disconnection and short circuit in the solar panel module are caused. When generated, the LED 310 is turned off so that it is easy to visually determine whether the power generation state of the solar panel module is normal even at a distance of about 2-20 m from the solar panel module installation position.

In addition, according to the present invention, when the solar cell is configured in one solar panel module 100, the parallel configuration of a single block is set to the error range setting value 1 (Setting Voltage1) to determine the power generation / failure of the solar panel module If one solar panel module 100 is composed of two or three blocks by connecting the solar cells in parallel or in parallel, set the error range as Setting Voltage2 and the Error Range as Setting Voltage3. . When the generated voltage of the solar panel module 100 is within the set value, the LED 310 is turned on to indicate that the solar panel module is normally generated, and when the generated voltage of the solar panel module is out of the set value, the LED 310 is displayed. Turn off) to indicate that the power generation of the solar panel module is defective.

The present invention has been described above with reference to one embodiment shown in the drawings, but those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom.

100: solar panel module 200: connection box
210: upper cover 220: main body
222a ~ 222d: panel connection lead wire 224a ~ 224d: connection terminal block
225: diode 230a, 230b: power generation lead
300: solar panel failure detection PCB 302a ~ 302d: conductive gasket
304a to 304d: Defective detection terminal 306: Power supply
321: photovoltaic power generation detection device 322: error range setting unit
323: comparison unit 324: normal detection unit
325: error detection unit 310: display unit

Claims (4)

Connection lead wires 222a to 222d connected to the solar panel 100, connection terminal bands 224a to 224d, and a diode 225 are mounted to draw generation electricity generated in the solar panel 100. A main body 220 withdrawing to 230b);
A failure detection PCB 300 which automatically detects whether a solar panel is defective and displays the LED lamp;
Conductive gaskets (302a to 302d) for connecting the defect detection PCB and the solar panel connection lead line; And
The hole for the LED for indicating a failure is formed, the automatic failure detection device for a solar cell panel for solar power, characterized in that consisting of the upper cover 210 is fastened to the main body 220.
According to claim 1, wherein the upper cover is formed with a waterproof groove on the outer circumferential side, the waterproof groove is inserted into the waterproof groove is characterized in that the main body and the upper cover can be combined waterproof by the fastening means. Defective automatic detection device for photovoltaic solar panels.
The method of claim 1, wherein the failure detection PCB
Photovoltaic power generation detection unit 321 for detecting the power generation voltage in the solar panel module 100,
A solar module error range setting unit 322 for setting a reference voltage for each solar panel module standard;
The current generation voltage transmitted from the solar power generation detection unit 321 and the voltage set for each solar panel module standard by the solar module error range setting unit 322 are compared to the normal power generation when the current generation voltage is within the set voltage range. A comparator 323 which recognizes and transmits a detection signal to the error detector 325 when the current generation voltage is less or higher than the set voltage range.
A display unit 310 for displaying a power generation state of the solar panel module 100 with LEDs;
A normal detection unit 324 which turns on the LED of the display unit when the comparison unit 323 recognizes normal power generation;
When the comparison unit 323 recognizes that the module is defective, the LED of the display unit is turned off (OFF) error detection unit 325, characterized in that the automatic failure detection device for a solar panel for solar power generation, characterized in that.
The method of claim 3, wherein the error range setting unit
Defect automatic detection device for photovoltaic solar panel, characterized in that consisting of DIP SW or BCD SW to set the set voltage, respectively.

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