KR102563535B1 - Monitoring system for street light solar power generation - Google Patents

Abstract

The present invention relates to a monitoring system for photovoltaic power generation of streetlights, and more specifically, the abnormal state of the solar panel of the LED street light or the LED lighting unit is remotely diagnosed to determine the abnormal state of the solar panel or LED lighting unit. It is possible to easily check and take countermeasures, and it relates to a monitoring system for street light solar power generation that can remotely check the daily, weekly, monthly and seasonal power generation of each LED street light.

Description

Monitoring system for street light solar power generation}

The present invention relates to a monitoring system for photovoltaic power generation of streetlights, and more specifically, the abnormal state of the solar panel of the LED street light or the LED lighting unit is remotely diagnosed to determine the abnormal state of the solar panel or LED lighting unit. It is possible to easily check and take countermeasures, and it relates to a monitoring system for street light solar power generation that can remotely check the daily, weekly, monthly and seasonal power generation of each LED street light.

Due to serious environmental pollution and resource depletion problems around the world, interest in the alternative energy industry is growing, and accordingly, cases of introducing new and renewable energy power generation systems in which individuals or groups directly produce and use energy are increasing. Recently, among various types of renewable energy generation systems, solar power generators that are easy to install and have excellent power generation efficiency are in the limelight.

Recently, development of LED lighting fixtures using LEDs has been actively carried out, and these LEDs (Light Emitting Diodes: LEDs) are high-efficiency light sources with low power consumption and relatively low heat generation characteristics compared to conventional light sources. It has a very long lifespan of about 100,000 hours, has the advantage of being small and light, and does not cause environmental pollution because it does not use mercury or discharge gas, so the use of it as a street light is rapidly spreading.

The failure types of these LED streetlights can be divided into power supply side (SMPS) failure and load side (LED) failure. There was a problem that it was not possible to identify it, so it was necessary to check it individually to find the faulty part. That is, it was necessary to directly check the state of the LED street light using the equipment, and to check the failure state of the power supply by disassembling the power supply. At this time, there is a risk of damaging a part that is not out of order, and there is a problem in that it takes a lot of time.

In addition, looking at the development process of the street light solar system that illuminates the street using this solar power generation, the local manager directly turns on/off the circuit breaker to detect the intensity of illumination during the day and night to turn on/off the lights. It has been developed into a street light controller that controls on/off by a program, and a street light control system that can be remotely controlled using one-way wired/wireless communication. Currently, one-way communication street light systems are common.

As shown in FIG. 1, such a conventional solar street light system uses a unidirectional communication street light solar control system, controls the unidirectional communication street light solar control system as a whole, and for this purpose, the main control generates control signals. A plurality of streetlight controllers 300 that control the streetlight fixture 400 by receiving control signals from the device 100 and the main controller 100, and a plurality of streetlights that illuminate the street by being controlled by the streetlight controller 300 Consisting of the device 400, such a one-way communication street light control system can selectively control the turning on/off of a street light at a desired time from a distance, which transmits a control signal including an area code from the main controller 100 wirelessly. Alternatively, it is transmitted by wire, and it is received by the streetlight controller 300 to compare whether the area code included in the control signal is the same as its own area code, and if the result is the same, the control data is analyzed to analyze the street light fixture ( 400).

However, in the conventional street light solar system, the manager could only control one-way, so it was not possible to grasp the failure state of the street light solar system. As a maintenance method, there is a problem in that there is a limit to the method of reducing electricity rates because the efficiency compared to investment is lowered.

In addition, even if the conventional street light solar system uses solar power by using solar panels, the administrator can determine at what time of day how much electricity is generated, when is the most power-generating time, and at what time There is a problem in that it is not possible to know which electricity is being consumed and which season the most electricity is being produced and used.

Registered Patent Publication No. 10-1285192

An object of the present invention is to solve this problem, and to easily check the abnormal state of the solar panel or LED lighting unit by remotely diagnosing the abnormal state of the solar panel of the LED street light or the abnormal state of the LED lighting unit, It is possible to take countermeasures and to provide a monitoring system for street light solar power generation that can remotely check the daily, weekly, monthly and seasonal power generation of each LED street light.

An object of the present invention is to provide a main control device for remotely controlling a plurality of street light fixtures installed in a predetermined area, a street light controller for adjusting the state of the street light fixture with control data wired or wirelessly input from the main control device, and the street light controller In the monitoring system for street light solar power generation consisting of an LED street light fixture that adjusts a predetermined state with control data input wired or wirelessly from Main controller for display; a street light controller wirelessly transmitting a control signal of each street light assigned to the control signal received from the main controller; An LED streetlight device that controls power saving of the LED streetlight with a control signal wirelessly received from the main controller and the streetlight controller and transmits state data of the LED streetlight to the streetlight controller; A recognition unit installed in the LED streetlight fixture and recognizing and notifying the status of the solar panel and power supply unit, and a recognition unit connected to the main controller and installed in the LED streetlight fixture to receive notification of the status of the solar panel abnormality It is achieved by the monitoring system for solar power generation of streetlights according to the present invention including; a judgment notification unit that determines whether the state is in an abnormal state or whether the power supply unit is in an abnormal state and informs the manager thereof.

A monitoring system for street light solar power generation according to the present invention includes a main control device for remotely controlling a plurality of street light fixtures installed in a predetermined area, and controlling the state of the street light fixture with control data wired or wirelessly input from the main control device. In the monitoring system for solar power generation of street lights consisting of a street light controller and an LED street light fixture that adjusts a predetermined state with control data wired or wirelessly input from the street light controller, a street light control signal is transmitted wirelessly and each street light a main controller that wirelessly receives and displays state data; a street light controller wirelessly transmitting a control signal of each street light assigned to the control signal received from the main controller; An LED streetlight device that controls power saving of the LED streetlight with a control signal wirelessly received from the main controller and the streetlight controller and transmits state data of the LED streetlight to the streetlight controller; A recognition unit installed in the LED streetlight fixture and recognizing and notifying the status of the solar panel and power supply unit, and a recognition unit connected to the main controller and installed in the LED streetlight fixture to receive notification of the status of the solar panel abnormality Including, whether the solar panel of the LED street light or the LED lighting unit is abnormal is remotely diagnosed, and the solar panel or It is possible to easily check the abnormal state of the LED lighting unit and take countermeasures, and there is an excellent effect of remotely checking the daily, weekly, monthly and seasonal power generation of each LED street light.

1 is a schematic configuration diagram of a conventional street light solar system
Figure 2 is a block diagram of a monitoring system for street light solar power generation according to an embodiment of the present invention
3a and 3b are block diagrams of a recognition unit installed in the LED streetlight fixture of a monitoring system for streetlight solar power generation according to an embodiment of the present invention and a server connected to the main controller

As shown in FIG. 2, the monitoring system A for street light solar power generation according to an embodiment of the present invention includes a main controller 10, a street light controller 30, and an LED street light fixture 40. , and a server 50 connected to the main controller 10.

The LED street lamp 40 has a recognition unit 43 installed therein, recognizing the state of the solar panel 41 and the state of the power supply unit 42, and notifying the server 50 of this state. It is installed. In addition, a lighting lamp 44 for illuminating the street using electricity generated from the solar panel 41 is installed above the LED street light fixture 40 .

The main controller 10 is connected to the main controller 10 and communicates with the recognition unit 43 installed in the LED street light fixture 40, and a server 50 for controlling the LED street light fixture 40 is installed there is.

The server 50 is notified of the state of the LED street lamp 40, determines whether the solar panel 41 is in an abnormal state or the power supply unit 42 in an abnormal state, and informs the manager of the determination notification display unit 51 ) and a remote control unit 52 and a display unit 53 for controlling the LED street light fixture 40.

The main controller 10 wirelessly transmits a control signal for controlling the LED street light fixtures 40 and wirelessly receives status data of each LED street light fixture 40, and the received data is the main controller 10 ) is selectively displayed on the display unit 53 of the server 50 connected to the .

The streetlight controller 30 performs a function of wirelessly transmitting a control signal of each LED streetlight fixture 40 assigned to the control signal received from the main controller 10 .

Each of the LED street light fixtures 40 controls the power saving of the lighting 44 of the LED street light fixture 40 with a control signal wirelessly received from the main controller 10 and the street light controller 30, and the state of the LED street light It performs the function of transmitting data to the street light controller.

The recognition unit 43 of the LED street lamp 40 performs a function of recognizing the state of the solar panel 41 supplying electricity to the lighting lamp 44 and the state of the power supply unit 42, and Since the solar panel 41 has a panel unit 41a in which a plurality of solar panels are installed in series and a structure in which a plurality of the panel units 41a are installed in parallel, on each panel unit 41a, each end portion A panel failure detection unit 43a receiving a voltage signal applied to the panel unit 41a and recognizing whether the solar panel 41 is out of order according to the voltage signal value is installed, and the power supply unit 42 Since the current supplied to the lighting lamp 44 is constant, a power supply failure detection unit 43b for recognizing whether or not the power supply unit 42 is out of order by the fluctuation of the current supplied to the lighting lamp 44 is installed. . A current sensor (not shown) is installed in the power supply unit 42 to sense the current supplied to the power supply unit 42 .

The display unit 53 of the server 50 displays the failure state of the solar panel 41 or the power supply unit 42, but not only these are displayed, but each LED street light fixture 40 is displayed on a daily, weekly, Monthly and seasonal power generation is also displayed, so that the manager can easily grasp the power generation of each LED street lamp 40 in a remote place.

The operation of the monitoring system (A) for street light solar power generation according to the present invention having such a configuration will be described in detail below.

The state of each LED street light fixture 40 of the monitoring system (A) for street light solar power generation includes the street light controller 30, the main controller 10, and the server 50 connected to the main controller 10. It can be easily identified even from a remote location.

In this state, when a state in which the lighting lamp 44 is dark in one LED street lamp 40 occurs, the recognition unit 43 of the LED street lamp 40 recognizes that such a state occurs for some reason. It will be.

That is, in the panel failure recognition unit 43a that recognizes the abnormal state of the solar panel 41 of the recognition unit 43, the voltage applied to each panel unit 41a at the end of the plurality of panel units 41a installed in parallel. When the signal is applied, it is checked whether the normal voltage is applied, and if it is in the normal voltage range, it is recognized as normal, and if it is not in the normal voltage range, it is recognized as an abnormal state, so that it is possible to recognize a normal or abnormal state. ) is an abnormal state, it is recognized and transmitted to the server 50 through the streetlight controller 30 and the main control device 10.

If the solar panel 41 is normal, the power supply failure detection unit 43b for recognizing the abnormal state of the power supply unit 42 of the recognition unit 43 is directed to the lighting lamp 44 of the power supply unit 42. It is determined whether the supplied current is in the normal range, and if it is in the normal current range, it is recognized as normal, and if it is not in the normal current range, it is recognized as an abnormal state, so that it is possible to recognize a normal or abnormal state. If is in an abnormal state, it is recognized and transmitted to the server 50 through the streetlight controller 30 and the main control device 10.

As described above, the server 50 confirms that an abnormal state has occurred in one component of the solar panel 41 or the power supply unit 42, notifies the administrator of this, and promptly inspects it, so that each LED street light fixture ( 40), it is possible to accurately recognize the abnormal condition and take follow-up measures, so it is possible to save a lot of time and materials.

In addition, the display unit 53 of the server 5 visually checks the information of the solar panel 41 of each LED street light fixture 40, and displays power information including power production and power consumption. do. Information such as power generation by period, annual power generation amount, and daily power generation amount of the solar panel 41 of each LED streetlight fixture 40 is displayed.

In addition, the display unit 53 of the server 5 not only displays a graph representing the real-time power generation amount of each LED streetlight fixture 40 on the screen, but also displays the voltage (PV Voltage), current of the corresponding solar panel 41 Data of (PV Current), power (PV Power), and daily accumulated power generation may be displayed.

As described above, the monitoring system for street light solar power generation according to the present invention remotely diagnoses whether the LED lighting unit of the LED street light is in an abnormal state of the solar panel or the power supply unit, and the solar panel or power supply unit It is possible to easily check whether the abnormal state is abnormal and take countermeasures, and it is possible to remotely check the daily, weekly, monthly, and seasonal power generation of each LED street light easily and remotely.

The monitoring system for street light solar power generation according to the present invention will be said to be an invention with industrial applicability because it is possible to repeatedly manufacture the same product in the general street light solar power generation industry.

A: Monitoring system for street light solar power generation
10: main controller 30: street light controller
40: LED street light fixture 41: solar panel
42: power supply unit 43: recognition unit
44: lighting 50: server
51: judgment notification display unit 52: remote control unit
53: display unit

Claims (2)

In the monitoring system (A) for street light solar power generation,
The monitoring system (A) for the street light solar power generation includes a main controller 10, a street light controller 30, an LED street light fixture 40, and a server 50 connected to the main controller 10. include,
The LED street light fixture 40 is installed therein, recognizes the state of the solar panel 41 and the state of the power supply 42, and notifies the state to the server 50, the recognition unit 43 is installed there is,
The server 50 receives notification of the state of each LED street light fixture 40, determines whether the solar panel 41 is in an abnormal state or the power supply unit 42 in an abnormal state, and informs the manager of the determination notification display unit ( 51) and a remote control unit 52 and a display unit 53 that control the LED street light fixture 40,
The recognition unit 43 of the LED street light fixture 40 performs a function of recognizing the state of the solar panel 41 and the state of the power supply unit 42 that supplies electricity to the lighting lamp 44,
The recognition unit 43 has a structure in which the solar panel 41 is a panel unit 41a in which a plurality of solar panels are installed in series and a plurality of the panel units 41a are installed in parallel, and each panel unit 41a ), a panel failure detection unit 43a receiving a voltage signal applied to each panel unit 41a at the end portion;
It is determined whether the current supplied to the lamp 44 of the power supply unit 42 is within the normal range, and if it is within the range of the normal current, it is recognized as normal. It is possible to recognize the state, and if the power supply unit 42 is in an abnormal state, a power supply failure detection unit 43b for recognizing it is installed,
The display unit 53 of the server 50 is in the solar power generation of the street light, characterized in that the information on the amount of power produced per period, the amount of annual power generation, and the amount of power generated per day of the solar panel 41 of the LED streetlight fixture 40 is displayed. for the monitoring system. delete