KR101044264B1 - Photovoltaic power generation device management system and method for managing the same - Google Patents

Abstract

PURPOSE: A solar power generation facility management system is provided to prevent waste or accidents in advance by managing and supervising the state of the solar power generation facility using a smart phone. CONSTITUTION: A method for managing a solar power generation facility comprises the steps as follows. A QR(Quick Response) codes(20) is attached to a plurality of solar power generation facilities(10). After a smart phone(30) takes a photograph of quick response codes, the smart phone request a connection to a management server(40). The smart phone indicates the information about a plurality of solar power generation facilities offered from the management server through the application only for a smart phone. A management system(50) includes a security function, monitoring function and diagnosis facility. A security function permits the connection of the smart phone only if the GPS location of the smart phone corresponds to the recorded GPS location of the solar power generation facility.

Description

Solar Power Plant Management System and Method {PHOTOVOLTAIC POWER GENERATION DEVICE MANAGEMENT SYSTEM AND METHOD FOR MANAGING THE SAME}

The present invention relates to a solar power plant management system and method that can manage a solar power plant using a smart phone.

In the related art, a manager visits a site for supervision of a photovoltaic power generation facility or supervises and manages a photovoltaic power generation facility remotely through a computer. Such a solar power management system has been limited in time and place because the manager has directly visited the solar power facility or supervised the solar power facility through a computer. Therefore, there is a demand for a photovoltaic facility management system that can collectively manage and supervise photovoltaic facilities anytime and anywhere.

The present invention has been made to solve the above problems, and an object thereof is to provide a photovoltaic facility management system and an optimal operation method that can manage the photovoltaic power generation facility using a smart phone.

In order to achieve the above object, a photovoltaic power generation facility management system according to an embodiment of the present invention includes a plurality of photovoltaic power generation facilities having an identification code; A smartphone provided with a dedicated application photographing the identification code to request a connection to a management server and displaying information on the plurality of photovoltaic facilities provided from the management server; And a security function for determining whether to allow access to the smart phone requesting access to the management server, and providing information on the location, comprehensive status, and alarm status of the plurality of photovoltaic power generation facilities to the connected smart phone. And a management system including a monitoring function and a diagnostic function for providing connected smartphones with information on comprehensive diagnosis, self-diagnosis, measurement diagnosis, power generation efficiency diagnosis, and module diagnosis of the plurality of solar power generation facilities. It is characterized by.

The diagnostic function is characterized in that each module circuit state and the generation efficiency of the solar light, the value is measured in real time according to the environment of the day such as solar radiation, wind speed, temperature and the like.

The identification code is characterized in that the QR (Quick Response) code.

The smartphone may be connected to the management server only when photographing the QR code using the dedicated application.

The security function has a function of granting the access of the smartphone only when the GPS location of the smartphone requesting access to the management server and the GPS location of the photovoltaic facility where the identification code is photographed match the management server, and the management server It is characterized in that it comprises a function for allowing the connection of the smart phone only when the number of the smart phone requesting access to the management server is a pre-registered number.

The monitoring function includes a list providing and retrieval function for the plurality of photovoltaic power generation facilities, a measurement function for providing detailed measurement information for the photovoltaic power generation facilities selected from the list, and the past and present of the selected photovoltaic power generation facilities. A report function for providing an item-by-item report according to the measurement result of a, and augmented reality function for displaying a photovoltaic power generation facility located within a set radius using the GPS location of the smartphone, the camera built in the smartphone It is characterized by.

The diagnostic function analyzes the detailed measurement information to determine whether there is an accident and an abnormality of the selected photovoltaic power generation facility, an accident coping function that provides the contents, causes, and solutions of the accident to the smart phone, and the selected solar light. Diagnosis of the current state and operating characteristics of power generation facilities, and future prediction function that predicts and provides measured values for each item, and provides an energy saving method by analyzing the usage pattern and predicted measured values of the selected photovoltaic facilities. And an echo function.

In addition, in order to achieve the above object, another solar power generation facility management method according to an embodiment of the present invention, by using the smart phone provided with a dedicated application to photograph the identification code of the photovoltaic power generation facility to request a connection to the management server, Displaying information on the solar power generation facility provided from the management server on the smart phone; A security step of determining, by the management system, whether to allow access to the smartphone that has requested access to the management server; A monitoring step of providing, by the management system, information on a location, a comprehensive status, and an alarm status of the photovoltaic facility to a smartphone to which the management system is connected; And a diagnosis step of providing the smart phone to which the management system is connected, information on comprehensive diagnosis, self-diagnosis, measurement diagnosis, power generation efficiency diagnosis, and module diagnosis of the photovoltaic power generation facility.

The identification code is characterized in that the QR (Quick Response) code.

The smartphone may be connected to the management server only when photographing the QR code using the dedicated application.

The security step of allowing the connection of the smart phone only when the GPS location of the smart phone requesting access to the management server and the GPS location of the photovoltaic facility where the identification code is photographed, and the management server And allowing the connection of the smart phone only when the number of the smart phone requesting the connection is a pre-registered number to the management server.

The monitoring may include providing and retrieving a list of the plurality of photovoltaic power generation facilities, providing detailed measurement information on the photovoltaic power generation facilities selected from the list, and past and present of the selected photovoltaic power generation facilities. Providing an item-specific report according to the measurement result, and augmented reality step of displaying a photovoltaic power generation facility located within a set radius using a GPS location of the smartphone and a camera built in the smartphone. It is done.

The diagnosing step analyzes the detailed measurement information to determine whether there is an accident of the selected photovoltaic facility, and provides an accident handling step of providing the contents, causes, and methods of the accident to the smart phone; The future prediction step of diagnosing the current state and operation characteristics of the device, and predicting and providing measured values for each item, and an eco-saving method for analyzing energy usage patterns and predicted measured values of the selected photovoltaic facility. Characterized in that it comprises a step.

The present invention can check the status of the photovoltaic facility 10 in real time using the smart phone 30 can prevent costs and safety accidents in advance. And since the manager can manage and supervise a plurality of photovoltaic facilities 10 anytime, anywhere using the smart phone 30, convenience is increased, and maintenance costs are reduced.

1 is a block diagram of a solar power plant management system according to an embodiment of the present invention.
2 is a schematic diagram of a dedicated application according to an embodiment.
3 is a configuration diagram of the management server 40 shown in FIG.
4 is an operational flowchart of the management system 50 shown in FIG.
5A to 5G are smartphone screens for explaining a method for managing a photovoltaic power generation facility according to an embodiment.

Hereinafter, a solar power plant management system and method according to an embodiment of the present invention will be described in more detail with reference to the accompanying drawings.

1 is a block diagram of a solar power plant management system according to an embodiment of the present invention.

The solar power plant management system shown in FIG. 1 includes a solar power plant 10 having an identification code 20 attached thereto; A smartphone 30 provided with a dedicated application for photographing the identification code 20 to request a connection to the management server 40 and displaying information about the photovoltaic facility 10 provided from the management server 40; And a security function for determining whether to permit access to the smart phone 30 requesting access to the management server 40, the position of the solar power generation facility 10 to the smart phone 30 to which the access is allowed, the current status, And a monitoring function for providing information on the alarm status, and a diagnostic for providing information on comprehensive diagnosis, self-diagnosis, measurement diagnosis, power generation efficiency diagnosis, and module diagnosis of a photovoltaic power generation facility to a connected smart phone 30. Management system 50 including functionality.

The identification code 20 is attached or painted for each photovoltaic facility 10, the smart phone 30 is to determine each photovoltaic facility 10 by photographing the identification code 20. The identification code 20 may be a two-dimensional code, for example, a QR (Quick Response) code.

Dedicated application is produced for the smart phone 30 to supervise the photovoltaic power generation facility 10, as shown in Figure 2, the administrator is connected to the management server 40 through the dedicated application to the solar light The power generation facility 10 can be supervised.

3 is a configuration diagram of the management server 40 shown in FIG.

The management server 40 shown in FIG. 3 is networked with a plurality of photovoltaic facilities 10, a database 42 for receiving and storing various state information from the plurality of photovoltaic facilities 10, and a plurality of An analysis unit 44 for diagnosing and analyzing the state of the photovoltaic facility 10, a communication unit 46 which transmits the accident information to an administrator when an accident occurs in the photovoltaic facility 10, and a management system ( According to the control of 50 may include a control unit 48 for controlling a plurality of photovoltaic facilities (10).

The management system 50 substantially controls the functions of the management server 40 and may be embedded in the management server 40.

Meanwhile, in the embodiment, the smartphone 30 is only one example of a terminal that provides computing and networking functions, and is not limited thereto, and a PDA, a laptop, and a camera capable of photographing the identification code 20 and a dedicated application may be installed. Etc. can be used.

As such, the embodiment of the present invention provides a dedicated application to the smart phone 30 to manage the photovoltaic facility 10. Smartphone 30 provided with a dedicated application can be connected to a plurality of photovoltaic facilities 10 and a networked management server 40, accordingly, the administrator is not limited to time and place, a plurality of solar cells anytime, anywhere It is possible to manage and supervise the power generation facility 10.

Hereinafter, a solar power plant management system and method according to an embodiment of the present invention will be described in more detail.

4 is an operational flowchart of the management system 50 shown in FIG. 5A to 5G are smartphone screens for explaining a method for managing a photovoltaic power generation facility according to an embodiment.

Referring to FIG. 4, as described above, the management system 50 includes a security function, a monitoring function, and a diagnosis function. Since these functions are functions associated with the smart phone 30, the smart phone 30 ) Function of the dedicated application.

Referring to FIG. 5A, when an administrator executes a dedicated application using the smartphone 30, the M2M server connection icon 100, the E-UMS device connection icon 101, and the QR code authentication icon 102 are displayed. do. When the M2M server connection icon 100 and the E-UMS device connection icon 101 are selected, an ID and password given to the administrator are requested, and after authentication, the server or the device can be accessed. When the QR code authentication icon 102 is selected, the identification code 20 attached to the photovoltaic facility 10 is photographed using a camera embedded in the smartphone 30 to connect to the server.

On the other hand, when the smart phone 30 is connected to the management server 40 through a dedicated application, since the power consumption, operation state, etc. of the plurality of photovoltaic facilities 10 can be grasped all, the security function needs to be strengthened. have. Therefore, the management system 50 has a security function for determining whether to permit the connection of the smart phone 30 to the management server 40.

First, the security function of the smart phone 30 allows to access the management server 40 only when photographing the identification code 20 using a dedicated application. To this end, the management system 50 grants access to the management server 40 only to the smartphone 30 photographing the identification code 20 photographed through the dedicated application.

Second of the security function, the management system 50 has a GPS position of the smart phone 30 requesting access to the management server 40 and a GPS position of the photovoltaic facility 10 in which the identification code 20 is photographed. Only when it matches, the smartphone 30 is allowed to connect. Accordingly, illegal access through copying of the identification code 20 can be prevented.

Third of the security function, the management system 50 grants access to the smart phone 30 only when the number of the smart phone 30 requesting access to the management server 40 is a pre-registered number.

Subsequently, the management system 50 has a monitoring function of providing various status information regarding the photovoltaic facility 10 to the smartphone 30 connected to the management server 40. That is, the dedicated application provided to the smartphone 30 has a function of monitoring the photovoltaic power generation facility 10.

First of all, the monitoring system 50 provides a list providing and retrieval function for the plurality of photovoltaic facilities 10, as shown in FIG. 5B. Accordingly, the manager can check or search the list of the plurality of photovoltaic facilities 10 through a dedicated application of the smartphone 30. In this case, the range of viewing the list of the photovoltaic power generation facility 10 may be designed to be differential according to the authority of the administrator.

Second of the monitoring functions, the management system 50 provides a measurement function that provides detailed measurement information for the photovoltaic installation 10 selected from the list. That is, the manager selects one of the list of photovoltaic facilities 10 displayed on the smart phone 30, as shown in Figure 5c, the location, specifications, manufacturing number, item where the photovoltaic facility 10 is installed Along with basic information such as code and shipping date, detailed items such as power generation efficiency, current power, current power amount, and current power amount of the photovoltaic power generation device 10 may be monitored.

Third of the monitoring functions, the management system 50 provides a report function that provides an itemized report according to past and present measurement results of the photovoltaic facility 10. Here, the report is provided to select one of the daily, weekly, monthly report, and the items reported may be power generation efficiency, production power, and the like.

Fourthly, the monitoring system 50 provides the augmented reality function of displaying the GPS location of the smartphone 30 and the photovoltaic power generation facilities located within a set radius using a camera built in the smartphone 30. do.

Specifically, the dedicated application displays the location of the photovoltaic power generation facility 10 using the GPS built into the smart phone 30, as shown in Figure 5d, the location and information of the administrator in the form of a map on the screen In addition, the map can be zoomed in and out to determine the location in more detail. And the dedicated application, as shown in Figure 5e, by using the camera and GPS embedded in the smart phone 30 provides an augmented reality function that displays the position and direction of the photovoltaic power generation facility 10 in the live-action image.

On the other hand, the management system 50 has a diagnostic function of diagnosing and analyzing the current state of the plurality of solar power generation facilities 10, and provides the relevant information to the smart phone 30 connected to the management server 40. That is, the dedicated application provided to the smart phone 30, as shown in FIG. 5F, provides information on comprehensive diagnosis, self-diagnosis, power generation efficiency diagnosis, and module diagnosis as well as the current state of the photovoltaic power generation facility 10. Has the function. Therefore, the manager can easily and stably manage and supervise the photovoltaic facility 10 using a dedicated application of the smartphone 30.

First of the diagnostic function, the management system 50 analyzes detailed measurement information of the photovoltaic facility 10 to determine whether there is an accident of the photovoltaic device 10, and determines the cause and response method of the smartphone. 30) to provide an incident coping function. That is, the manager can easily identify the photovoltaic power generation equipment 10 in which the accident occurred through the list of photovoltaic power generation equipment 10 displayed on the smart phone 30, as shown in FIG. You can easily check the countermeasures. Items for diagnosing the power generation efficiency of the photovoltaic facility 10 may be leakage current, pollution of the solar panel, weather, temperature, humidity, solar radiation, and the like.

Secondly, the management system 50 diagnoses the current state and operation characteristics of the photovoltaic power generation facility 10 and predicts and provides measured values for each item. For example, the management system 50 predicts the future value of each measurement item from the present time to the elapse of 24 hours and provides it to the smartphone 30. Here, the predicted items may be expected power generation capacity, estimated monthly savings amount, CO ₂ reduction amount, and the like.

Thirdly, the management system 50 of the diagnostic function analyzes the usage pattern of the photovoltaic facility 10 and the measured values for each item, and provides the smart phone 30 with information to manage the optimal power generation efficiency. .

In this way, the manager can check the status of the photovoltaic facility 10 in real time using the smart phone 30 can prevent cost waste or safety accidents in advance. And because the manager can manage and supervise a number of solar power plants 10 anytime, anywhere using the smart phone 30, convenience is increased, maintenance costs are reduced.

The present invention described above is not limited to the above-described embodiment and the accompanying drawings, and it is common in the art that various substitutions, modifications, and changes can be made without departing from the technical spirit of the present invention. It will be evident to those who have knowledge of.

10: PV system 20: Identification code
30: smartphone 40: management server
50: management system

Claims (12)

A plurality of solar power plants with a Quick Response (QR) code attached thereto;
A smartphone provided with a dedicated application photographing the QR code to request a connection to a management server and displaying information on the plurality of photovoltaic facilities provided from the management server; And
Security function for determining whether to allow the access to the smart phone requesting access to the management server, and providing information on the location, the overall status, and the alarm status of the plurality of photovoltaic power generation facilities to the connected smart phone A management system including a monitoring function and a diagnostic function for providing connected smartphones with information on comprehensive diagnosis, self-diagnosis, measurement diagnosis, power generation efficiency diagnosis, and module diagnosis of the plurality of solar power generation facilities; And
The security function has a function of granting access to the smartphone only when the GPS location of the smartphone requesting access to the management server and the GPS location of the photovoltaic power generation facility where the QR code is photographed match the management server, and the management server A function of granting a connection of the smart phone only when the number of the smart phone requesting access to the pre-registered number is on the management server, and only when the smart phone photographs the QR code using the dedicated application. A photovoltaic facility management system comprising a function of allowing a connection. delete delete delete The method of claim 1,
The monitoring function
A list providing and searching function for the plurality of photovoltaic power generation facilities;
A measurement function for providing detailed measurement information for the photovoltaic power generation facilities selected from the list;
A report function for providing an item-by-item report according to past and present measurement results of the selected photovoltaic facility,
Solar power equipment management system comprising augmented reality function to display the GPS position of the smart phone and the photovoltaic power generation equipment located within a set radius using a camera built in the smart phone. The method of claim 5, wherein
The diagnostic function
An accident coping function that analyzes the detailed measurement information to determine an accident and an abnormality of the selected photovoltaic power generation facility, and provides the smartphone with contents, causes, and ways of coping with the accident;
A future prediction function for diagnosing the current state and operating characteristics of the selected photovoltaic power generation facility and predicting and providing measured values for each item;
And a eco function for providing an energy saving method by analyzing usage patterns of the selected photovoltaic facility and predicted measured values. Taking a QR (Quick Response) code of a photovoltaic facility using a smartphone provided with a dedicated application to request a connection to a management server, and displaying information on the photovoltaic facility provided from the management server on the smartphone. step;
A security step of determining, by the management system, whether to allow access to the smartphone that has requested access to the management server;
A monitoring step of providing, by the management system, information on a location, a comprehensive status, and an alarm status of the photovoltaic facility to a smartphone to which the management system is connected; And
A diagnostic step of providing the smart phone to which the management system is connected with information on comprehensive diagnosis, self-diagnosis, measurement diagnosis, power generation efficiency diagnosis, and module diagnosis of the photovoltaic power generation facility; And
The security step of allowing the connection of the smart phone only when the GPS location of the smartphone requesting access to the management server and the GPS location of the photovoltaic power generation equipment photographed the QR code match, and the management server Granting access to the smartphone only when the number of the smartphone requesting access to the management server is a number registered in advance in the management server; and only when the smartphone photographs the QR code using the dedicated application. A method for managing a photovoltaic power generation system comprising the step of granting a connection. delete delete delete The method of claim 7, wherein
The monitoring step
Providing and searching a list of the plurality of photovoltaic power generation facilities;
Providing detailed measurement information for the photovoltaic facility selected from the list;
Providing an itemized report based on past and present measurement results of the selected photovoltaic power generation facility;
And an augmented reality step of displaying a photovoltaic power generation facility located within a set radius using a GPS location of the smart phone and a camera embedded in the smart phone. The method of claim 11,
The diagnostic step is
An accident coping step of analyzing the detailed measurement information to determine whether there is an accident of the selected photovoltaic power generation facility, and providing the contents, causes and coping methods of the accident to the smart phone;
A future prediction step of diagnosing the current state and operating characteristics of the selected photovoltaic facility and predicting and providing measured values for each item;
And an echo step of analyzing an usage pattern of the selected photovoltaic facility and predicted measured values for each item to provide an energy saving method.

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