KR101275050B1 - Photovoltaic connector band using selector switch - Google Patents

Abstract

The present invention is to provide a solar connection panel using a selector switch that can combine the power generated in a plurality of solar cell modules in parallel to supply to the inverter, and to monitor the voltage and current of the solar cell module in the field in the field. The purpose. To this end, the input unit for receiving a DC power from a plurality of solar cell modules connected in parallel connected in series; An output unit for receiving the DC power output from the input unit and outputting the DC power to the inverter; And a selector unit connected to a solar cell module connected in parallel to the input unit and detecting a direct current power input from the connected solar cell module to display a photovoltaic power generation status in a string unit. Therefore, by monitoring the voltage and current of the solar cell module on a string basis in the field, there is an advantage that can quickly determine the cause of the decrease in power generation and the cause of failure.

Description

Solar panel using selector switch {PHOTOVOLTAIC CONNECTOR BAND USING SELECTOR SWITCH}

The present invention relates to a solar panel using a selector switch, and more particularly, a combination of the power generated in a plurality of solar cell modules in parallel to supply to the inverter, and the voltage and current of the solar cell module in the string unit on-site The present invention relates to a solar panel using a selector switch that can be monitored at.

The general photovoltaic power generation system facilitates the wiring of many wirings between a solar cell module group supplying DC power corresponding to the received sunlight, a solar cell array connected in series, a solar cell array and an inverter, and various protection functions. It is composed of a connection panel for performing a, an inverter for converting the DC power generated in the solar cell array into an AC power source, a load consuming the generated power.

In such a photovoltaic system, a connection panel according to the prior art merely performs a function of supplying power supplied from a solar cell array to an inverter, and whether a manager who manages the photovoltaic system is normally supplied with power for each solar cell array. There was a problem that can not determine whether the normal power is output to the inverter.

In order to solve this problem, a solar connection panel 20 equipped with a monitoring function as shown in FIG. 1, or the Republic of Korea Patent Publication No. 10-999978 (name of the invention; monitoring control device of the photovoltaic power generation system) and the like proposed It became.

The solar connection panel 20 equipped with the monitoring function includes a plurality of solar cell modules 10 and 11 connected in parallel, and receives DC power input from each solar cell module 10 and 11 connected in parallel. An input unit 21 outputting in a series connection method, an output unit 22 connected in series to the input unit 21 and receiving a DC power output from the input unit 21 and outputting the same to an inverter 27 connected thereto; It is connected to the input unit 21 detects and outputs an input current value and an input voltage value of each group of solar cell modules 10 and 11 input through the input unit 21, and is connected to the output unit 22 to the A detection unit 23 for detecting an output current value and an output voltage value output to the inverter 27 through the output unit 22 and outputting the output voltage value to the monitoring control unit 24, an input current value output from the detection unit 23, Input voltage value, output current value and output voltage value A monitoring controller 24 for displaying through the play unit 25, a display unit 25 for displaying an input current value, an input voltage value, an output current value, and an output voltage value according to the control of the monitoring controller 24; And a power supply unit 26 for supplying power to the detection unit 23, the monitoring control unit 24, and the display unit 25.

The solar connection panel 20 equipped with such a monitoring function monitors the input voltage and the input current inputted from the solar cell module group and the output voltage and current output to the inverter through the solar connection panel in real time and displays the display unit ( 25) can be displayed, there is an advantage that can be monitored from a remote location.

However, the solar connection panel equipped with such a monitoring function detects the input / output current and voltage of the entire photovoltaic power generation system centered on the inverter, so that it is not possible to recognize anomalies such as local problems or inefficiency. There is no problem.

In addition, when a failure occurs in the monitoring unit, there is a problem in that the entire photovoltaic power generation system is stopped because it is impossible to perform the overall connection panel function.

In addition, since the amount of generation of the photovoltaic power generation system is related to the amount of insolation, there is a problem in that even if the total amount of generation is reduced, it is not possible to determine whether such a decrease in generation is a failure of a part of the power plant or a decrease in the amount of insolation. .

In addition, the solar connection panel according to the prior art simply performs the function of supplying power supplied from the solar cell module to the power regulator or to the inverter, and only input and output of the inverter without detailed information such as voltage or current for each string. There is a problem in that it is not possible to check whether or not each solar string is performing normal power generation by monitoring.

In order to solve this problem, the present invention is to provide a inverter by combining the power generated in a plurality of solar cell modules in parallel, the solar using a selector switch that can monitor the voltage and current of the solar cell module in the field in the field It is an object to provide an optical connection panel.

In order to achieve the above object, the present invention provides a solar panel, an enclosure having a front door that can be opened and closed; An input unit installed inside the enclosure and receiving DC power from a plurality of solar cell modules connected in parallel and connected in series; A voltmeter which receives the DC power output from the input unit and outputs it to the inverter, is installed on the front side of the door side of the enclosure to detect and display the voltage output to the inverter, and an ammeter to detect and display the current output to the inverter. An output unit having a; And a switch installed at the front side of the door side of the enclosure so that an administrator can easily select and check the exterior of the enclosure, and selectively connect to any solar cell module among the solar cell modules connected in parallel to the input unit, And a selector unit having an ammeter for detecting and displaying a current supplied from the corresponding solar cell module to which the switch is connected so that the solar power generation status is displayed.

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In addition, the switch according to the invention is characterized in that consisting of any one of a rotary switch, a push switch, a button switch or a relay.

In addition, the input unit according to the present invention includes a fuse for preventing the inflow of overcurrent input from the solar cell module; A diode connected to the fuse and preventing a reverse flow of DC current input from the solar cell module; And a shunt connected to the diode and classifying a current output to the output unit to output the selector unit.

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The present invention has the advantage of being able to quickly determine the cause and the cause of failure of the amount of power generated by monitoring the voltage and current of the solar cell module on a string basis in the field.

In addition, the present invention has the advantage of improving the durability and reliability of the connection panel by blocking the occurrence of failure by simplifying the monitoring structure.

1 is a block diagram showing the configuration of a solar panel with a monitoring function according to the prior art.
2 is a block diagram showing the configuration of a solar panel using a selector switch according to the present invention.
3 is an electrical circuit diagram showing the electrical connection of the solar panel using the selector switch according to FIG.
4 is a perspective view showing a solar panel using the selector switch of FIG.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of a solar panel using a selector switch according to the present invention.

2 is a block diagram showing the configuration of a solar panel using a selector switch according to the invention, Figure 3 is an electrical circuit diagram showing the electrical connection of the solar panel using the selector switch according to Figure 2, Figure 4 is It is a perspective view which shows the solar junction board using a selector switch.

As shown in Figures 2 to 4, the solar connection panel 100 using the selector switch according to the present invention is a plurality of solar cell modules 10, a combination of the solar cell according to the input allowable voltage of the inverter 130 11) The group is configured to include a rectangular terminal box 101, the input unit 110, the output unit 120 and the selector unit 140 of the rectangular terminal box combined in parallel to supply power to the inverter 130. .

 In addition, the enclosure 101 of the solar connection panel 100 is installed in the internal mounting type or vertical freestanding type according to the installation position, and has a door 102 that can be opened and closed on the front, the front of the door 102 Voltmeters 121 and ammeters 122, 142a, 142b, and 142c are provided for displaying voltage and current.

In addition, the enclosure 101 is made of a stainless material to prevent corrosion, it is preferable to install a vent (not shown) to discharge the heat generated from the inside.

The input unit 110 receives DC power from a plurality of solar cell modules 10 and 11 connected in parallel, is connected in series, and outputs the outputs to the output unit 120. The fuse 111, the diode 112, and the shunt And 113.

The solar cell modules 10 and 11 form a module in which a plurality of solar cells converting solar energy into electrical energy and outputting the same are connected in series to form an input range of the inverter 130. The photovoltaic module is a string unit that supplies input power to the inverter 130 in combination with each other in series.

In addition, the input unit 110 is individually connected to each of the solar cell modules 10 and 11 and receives a DC power output from each of the solar cell modules 10 and 11.

The fuse 111 is configured to prevent inflow of overcurrent input from the solar cell modules 10 and 11, and when the overcurrent or overvoltage of a predetermined voltage or current is supplied to the input unit 110, the fuse is cut off. It is preferable to further configure the holder and the LED so that the maintenance and confirmation of the manager can be made easily at the disconnection of 111.

In addition, the fuse 111 has a DC 1000V, 11A standard, the holder is preferably a 690V standard.

The diode 112 is connected to the fuse 111 in series and prevents the reverse flow of DC current input from the solar cell modules 10 and 11, and blocks the reversal of the solar cell module. It is desirable to have a standard.

The shunt (Shunt) 113 is connected in series with the diode 112 and is configured to classify the current output to the output unit 120 and output it to the selector unit 140, which is output from the solar cell module (10, 11) The current is classified to be detected by the selector unit 140.

 The output unit 120 is configured to receive a DC power output from the input unit 110 and output it to the inverter 130, and includes a voltmeter 121 and an ammeter 122, such as lightning, surge overvoltage It is preferable to further include a surge protector (not shown) to prevent the inflow to protect the inverter 130.

The voltmeter 121 is connected to the output terminal of the output unit 120 in parallel to detect and display the voltage output to the inverter 130, and is installed on the front of the door 102 so that the administrator can easily check It is desirable to have a DC 1000V standard.

The ammeter 122 is connected in series with the output terminal of the output unit 120 to detect and display the current output to the inverter 130, and is installed on the front of the door 102 so that the administrator can easily check It is desirable to have a DC 25A specification.

The selector unit 140 is connected to the solar cell modules 10 and 11 connected in parallel to the input unit 110, and detects a DC power input from the connected solar cell module to display a photovoltaic power generation state in a string unit. As a configuration to display, the switch 141 and the ammeter 142 are included.

The switch 141 is configured to be selectively connected to the detection target solar cell module. The switch 141 is electrically connected to the shunt 113 of the input unit 110. When the switch 141 is turned on, the shunt 113 is turned on. Allow current to be classified at.

In addition, the switch 141 may use various switches such as a rotary switch, a push switch, a button switch, a relay, and is installed at the front of the door 102 to be easily operated by an administrator.

The ammeter 142 detects and displays the supplied current when the switch 141 is turned on to supply the classified current from the shunt 113, and the front of the door 102 can be easily checked by an administrator. It is preferable to install, and it is desirable to have a specification of DC 25A.

Next, an operation process of the solar connection panel 100 using the selector switch according to the present invention will be described.

When the solar cell modules 10 and 11 in a string unit are connected in parallel with the input unit 110 of the solar panel 100 and the DC power is supplied to the input unit 110, the input unit 110 is connected in series. Output to the inverter 130 through the output unit 120.

Thereafter, when the manager turns on the first switch 141a connected to any solar cell module group to check the operation state of each solar cell module 10 and 11, current is classified from the shunt connected to the solar cell module. The classified current is displayed through a first ammeter 142a connected in series with the first switch 141a.

In addition, when the second switch 141b or the third switch 141c connected to any solar cell module group is turned on, current is classified from the shunt connected to the solar cell module, and the classified current is divided into the second switch. And a second ammeter 142b connected in series with 141b or a third ammeter 142c connected in series with the third switch 141c.

Therefore, by simplifying the monitoring structure of the access panel, it is possible to block the occurrence of the failure to improve the durability and reliability of the connection panel, and the administrator can quickly identify the solar cell module that has failed by monitoring in the field.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. It can be understood that

100: solar panel 101: enclosure
102 door 110 input unit
111: fuse 112: diode
113: shunt 120: output unit
121: voltmeter 122: ammeter
130: inverter 140: selector
141: switch 141a: first switch
141b: second switch 141c: third switch
142 ammeter 142a first ammeter
142b: second ammeter 142c: third ammeter

Claims (5)

As a solar panel,
An enclosure having a front door that can be opened and closed;
An input unit installed inside the enclosure and receiving DC power from a plurality of solar cell modules connected in parallel and connected in series;
A voltmeter which receives the DC power output from the input unit and outputs it to the inverter, is installed on the front side of the door side of the enclosure to detect and display the voltage output to the inverter, and an ammeter to detect and display the current output to the inverter. An output unit having a; And
A switch installed at the front side of the door side of the enclosure so that an administrator can easily select and check the exterior of the enclosure, and selectively connect to any solar cell module among the solar cell modules connected in parallel to the input unit; A solar connection panel using a selector switch comprising a selector unit having an ammeter for detecting and displaying a current supplied from a corresponding solar cell module to which the switch is connected to display a current state of photovoltaic power generation. delete The method of claim 1,
The switch is a solar panel using a selector switch, characterized in that any one of a rotary switch, push switch, button switch or relay. The method of claim 1,
The input unit may include a fuse for preventing the inflow of overcurrent input from the solar cell module;
A diode connected to the fuse and preventing a reverse flow of DC current input from the solar cell module; And
And a shunt (Shunt) connected to the diode and classifying the current output to the output unit and outputting the current to the selector unit. delete

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