KR102056290B1 - The system for maintenance of photovoltaic generating facilities - Google Patents

Abstract

The present invention maintains a photovoltaic facility that integrates and manages various information related to the amount of power generation and current power consumption of the photovoltaic facility and information related to the maintenance of the photovoltaic facility in real time and displays the corresponding information through a user terminal. It relates to a management system, and a public facility 210 for supplying electricity produced through a power plant; A photovoltaic facility (220) configured to supply electricity produced by condensing sunlight and comprising a solar cell array (221), a relay terminal box (223), and an inverter (225); It is connected to the public facilities 210 and the photovoltaic power generation unit 220, and collects and manages the information on the amount of power supplied from the public facilities 210 and the information about the amount of power supplied from the photovoltaic facility 220 And, the main server 230 for providing the maintenance service information about the photovoltaic facility 220 to the user terminal 240; Is connected to the main server 230, the information on the amount of power supplied from the public facilities 210, the information on the amount of power supplied from the photovoltaic facility 220 and the photovoltaic facility 220 The user terminal receives the maintenance service information from the main server 230, and transmits the information on the failure signal and the after-sales service request for the photovoltaic facility 220 to the main server 230. 240; And a maintenance company terminal 250 connected to the main server 230 and receiving information about the failure signal and the A / S service request regarding the photovoltaic facility 220 from the main server 230. Includes; The main server 230 receives the failure signal and the information on the after-sales service request for the photovoltaic facility 220 from the user terminal 240 and transmits it to the maintenance company terminal 250, Send reply information on the failure signal and A / S service request from the maintenance company terminal 250 to the user terminal 240; The main server 230 is a maintenance service information for the photovoltaic power generation facility 220, the measurement information for the grounding facility of the solar cell array 221 of the photovoltaic power generation facility 220, and the relay terminal box ( Information on the insulation resistance and the open voltage of the 223, and information on the insulation resistance and the input stop time timer operation test of the inverter 225 is transmitted to the user terminal 240.

Description

Solar Power Plant Maintenance System {THE SYSTEM FOR MAINTENANCE OF PHOTOVOLTAIC GENERATING FACILITIES}

The present invention relates to a photovoltaic facility maintenance system, and more specifically, to real-time integrated management of various information related to the amount of power generation and current power consumption of the photovoltaic facility and maintenance of the photovoltaic facility. The present invention relates to a photovoltaic facility maintenance system that allows information to be displayed through a user terminal.

Recently, interest in renewable energy is rapidly increasing due to depletion of fossil fuels and the regulation of carbon emissions, and efforts are being made to expand the supply of renewable energy in Korea, where energy resources are scarce.

In particular, considering the achievement of grid parity, photovoltaic power generation facilities have an excellent technology prospect, with a 39% year-on-year increase in market growth. .

The total photovoltaic facilities installed in Korea by 2016 is about 3.2GW, and the small home photovoltaic facilities installed in Korea by 2016 are about 300,000.

As a part of the basic energy plan, the Korean government is continuously increasing the distribution rate to 1 million units by 2020.

Referring to FIG. 1, a survey was conducted in four regions (202 households) in Chungcheongnam-do and North Korea to find out the maintenance status of small solar power generation facilities in Korea. The solar power plant is a facility that produces electricity, so if you do not clean the module frequently, it is a representative risk case that can cause the malfunction of the facility.

As shown in the right figure of FIG. 1, 78 households (39.2%) regularly check the power generation amount, and power generation information appearing in the inverter appears to be a term that is difficult for general users to understand.

On the other hand, medium and large-sized photovoltaic facilities have a business market due to their business feasibility, but small photovoltaic facilities have a low marketability due to the low level of business, and users are unfamiliar with photovoltaic facilities. It is a difficult situation.

In addition, there is a government-supported energy management corporation's maintenance system, but there is little use, and most of the users do not know it, and there is a mandatory after-sales service period for small PV companies. There is a situation.

In detail, after-sales management of local governments is required to support regular free inspections and after-sales service at least once a year in addition to the legal free after-sales service within the warranty period. Only consumers who wish to be able to pay a certain amount of money can enter into a contract with the support organization for three years. New supply facilities are required to conclude a contract once after the warranty period.

However, there is a problem that the maintenance system of the government and local governments has little use, and active maintenance of small-scale facilities such as residential use is not performed.

In this regard, the present applicant has created a new method for maintaining a photovoltaic power generation facility to support maintenance of small photovoltaic power generation facilities.

1. Korean Patent No. 10-1390405 "Monitoring and control system for management of photovoltaic power generation facilities" (2014.04.30. Notification) 2. Republic of Korea Patent No. 10-1762893 "Home PV system integrated information providing system and method" (2017.08.04. Notification)

The present invention has been made to solve the problems of the prior art as described above, the AC power produced from the solar panel is supplied to the house through the switchboard, a variety of information related to the amount of power generation and current power consumption of the solar power plant And it is to provide a photovoltaic facility maintenance system that integrates and manages information related to the maintenance of photovoltaic power generation facilities in real time and to display the corresponding information through the user terminal.

The information providing system for the maintenance of the small photovoltaic power generation equipment according to the present invention includes a public facility for supplying electricity produced through the power plant; A photovoltaic power generation system that supplies electricity produced by condensing sunlight, and includes a solar cell array, a relay terminal box, and an inverter; It is connected to the public facilities and photovoltaic facilities, collects and manages information on the amount of power supplied from the public facilities and information on the amount of power supplied from the photovoltaic facilities, and maintenance services for the photovoltaic facilities A main server providing information to the user terminal; The main server is connected to the main server and provides information on the amount of power supplied from the public facilities, information on the amount of power supplied from the photovoltaic facility, and maintenance service information on the photovoltaic facility from the main server. Receiving, the user terminal for transmitting information on the failure signal and the A / S service request for the photovoltaic power generation equipment to the main server; And a maintenance company terminal connected to the main server and receiving information on the failure signal and A / S service request related to the solar power generation facility from the main server. The main server receives the failure signal and the information on the after-sales service request for the photovoltaic power generation equipment from the user terminal and transmits it to the maintenance company terminal, the failure signal and the user terminal from the maintenance company terminal Send reply information on the A / S service request; The main server is a maintenance service information for the photovoltaic power generation equipment, measurement information for the grounding facility of the solar cell array of the photovoltaic power generation equipment, information on the insulation resistance and open voltage of the relay terminal box, and It is characterized by transmitting the information on the insulation resistance and the input stop time timer operation test to the user terminal.

In addition, the photovoltaic power generation facility maintenance system includes a photovoltaic power generation facility, a user terminal on which the maintenance application of the photovoltaic facility is installed, and a system update, information on power generation facility overview, information on power generation status, and maintenance service A photovoltaic facility maintenance system which is serviced to directly maintain a user of the photovoltaic facility through communication between main servers providing information, wherein the user-customized mobile application includes a user terminal connected to a main server. Registering a photovoltaic facility with the main server such that a serial number of the photovoltaic device is input by the user terminal so that the photovoltaic device and the main server interlock with each other; Transmitting a message indicating that the photovoltaic facility is registered in the main server to the user terminal from the main server; Transmitting information on a power generation facility overview, power generation status information, and maintenance service information from the main server to the user terminal; Confirming, by the main server, whether to execute the service according to the maintenance service information through the user terminal; If the execution according to the maintenance service information is not confirmed, the process returns to the previous step and checks again whether the execution according to the maintenance service information, and if the execution according to the maintenance service information is confirmed by the main server. Checking whether a failure signal and an after-sales service for the photovoltaic facility are requested to a user terminal; If the failure signal and A / S service are not requested, the mobile application is terminated, and if the failure signal and A / S service are requested, receiving the failure signal and A / S service request by the main server; Notifying, by the main server, that the failure signal and the A / S service request have been received to the maintenance company terminal; And transmitting information on the failure signal and the A / S service request from the maintenance terminal to the user terminal.

The photovoltaic facility maintenance system according to the present invention integrates and builds information on the status of photovoltaic power generation, information on the current power consumption status, and information for maintenance of the photovoltaic power generation system. In addition to the current state of power consumption, there is an advantage that the maintenance service information for daily inspection, regular inspection, cleaning and snow removal, etc. can be provided through a mobile application.

In addition, there is an advantage that can maximize the amount of power generation of the photovoltaic power generation facilities, the user can maintain the photovoltaic power generation facilities in real time through a user-customized mobile application.

1 is a reference diagram showing the results of a survey on the maintenance management of small solar power generation facilities in Korea,
Figure 2 is an overall configuration diagram schematically showing an information providing system for the maintenance of a small photovoltaic power plant according to the present invention.
Figure 3 is a flow chart of the execution method for executing the solar power plant maintenance system according to the present invention.
Figure 4 is a reference diagram for explaining the power generation facilities overview and development status using a user interface for the maintenance of a small photovoltaic power generation facilities according to the present invention.
5 is a reference diagram for explaining maintenance service and maintenance service information using a user interface for maintenance of a small photovoltaic power generation facility according to the present invention.

Hereinafter, a photovoltaic power generation facility management system according to the present invention will be described in more detail with reference to the accompanying drawings. In the following description of the present invention, if it is determined that the detailed description of the related well-known technology or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description will be omitted. In addition, terms to be described below are terms defined in consideration of functions in the present invention, which may vary according to a client's or operator's intention or custom. Therefore, the definition should be made based on the contents throughout the specification.

Like reference numerals refer to like elements throughout.

2 is an overall configuration diagram schematically showing an information providing system for the maintenance of a small photovoltaic power plant according to the present invention, Figure 3 is an implementation method for executing the solar power equipment maintenance system according to the present invention. 4 is a reference diagram for explaining the power generation facility overview and power generation state using the user interface for the maintenance of the small photovoltaic power generation facilities according to the present invention, Figure 5 is a small photovoltaic power generation according to the present invention Reference diagram for explaining maintenance service and maintenance service information using a user interface for maintenance of the facility.

Hereinafter, with reference to Figure 2, it will be described an information providing system for the maintenance of the small photovoltaic power generation equipment according to the present invention.

The information providing system for the maintenance of the small photovoltaic power generation facilities according to the present invention is a public facility 210 for supplying electricity produced through a power plant, and photovoltaic power generation facilities for supplying electricity produced by condensing sunlight ( 220, the main server 230 connected to the public facilities 210 and the photovoltaic facility 220, the user terminal 240 connected to the main server 230, and the main server 230. It includes a maintenance terminal 250 connected to.

Here, the photovoltaic power generation facility 220 includes a solar cell array 221, a relay terminal box 223, and an inverter 225.

In addition, the main server 230 collects and manages the information on the amount of power supplied from the public facilities 210 and the information on the amount of power supplied from the photovoltaic facility 220, the photovoltaic facility 220 Information about the maintenance service is provided to the user terminal 240.

In addition, the user terminal 240 is information about the amount of power supplied from the main server 230 from the public facilities 210, information about the amount of power supplied from the photovoltaic power generation facility 220, and the aspect Receives maintenance service information regarding the photovoltaic facility 220, and transmits the failure signal and the information on the after-sales service request for the photovoltaic facility 220 to the main server 230.

In addition, the maintenance company terminal 250 receives the information on the failure signal and the A / S service request for the photovoltaic facility 220 from the main server 230.

On the other hand, the utility facility 210 is a linked external power system, for example, a public power system managed at the national level.

In addition, the photovoltaic power generation facility 220 refers to a small photovoltaic power generation system that is installed by an individual or a group by itself to produce and consume power. More specifically, the photovoltaic power generation facility 220 includes a solar cell array 221 installed in accordance with the application by connecting the solar modules in series / parallel. For reference, a solar module is composed of solar cells, and a solar cell refers to a minimum unit device that generates electricity by converting solar energy into electrical energy. The solar module includes a plurality of such solar cells so as to generate active power. In addition, the solar module may be various types of solar cells such as semiconductor type (silicon and compound) solar cells, polymer solar cells, and nano thin film solar cells without limitation in materials and manufacturing methods.

In addition, the photovoltaic facility 220 includes a photovoltaic inverter 225 for converting the direct current output of the solar cell array 221 into an alternating current according to a commercial voltage and frequency, the solar cell array 221 Power conversion system (Power Conditioning System, PCS, not shown) that monitors and protects the amount of power to ensure maximum output from the system and ensure that the solar system is operating in an optimized state.

In addition, the photovoltaic facility 220 is a storage battery (storage bettery) for supplying the power charged by the solar cell array 221 to the load in a sun light environment such as after sunset or rainy weather at the time of sunshine Or the like).

In addition, the main server 230 calculates an average and a deviation of the power output from the photovoltaic facility 220, and if the calculated average and the deviation has a value below the average but the deviation is more than a threshold value, the user The maintenance service information regarding the photovoltaic facility 220 is provided to the terminal 240 so that the photovoltaic facility 220 is washed and snow-removed.

When this is expressed as an expression, the following equation is obtained.

Average: ∑S / T = M (S), Deviation: M (S) -S = △ S

if (△ S ≥ l, wash and snow)

if (△ S <l, operating standby)

Where S; Yield, T: hour, l: threshold

Now, with reference to Figure 3, we will look at the flow of the execution method for executing the solar power plant maintenance system according to the present invention.

First, after the user terminal 240 is connected to the main server 230, the serial number of the photovoltaic facility 220 is input by the user terminal 240, the photovoltaic facility 220 and the The photovoltaic facility 220 is registered in the main server 230 so that the main server 230 is interlocked (S310).

Thereafter, a message informing that the photovoltaic facility 220 is registered in the main server 230 is transmitted from the main server 230 to the user terminal 240 (S320).

Thereafter, information about the power generation facility overview, information on power generation status, maintenance service information, and maintenance guide information are transmitted from the main server 230 to the user terminal 240 (S330). Here, the main server 230 calculates an average and a deviation of the power output from the photovoltaic facility 220, and when the calculated average and the deviation has a value below the average but the deviation is more than a threshold, The maintenance service information regarding the photovoltaic facility 220 is provided to the user terminal 240 so that the photovoltaic facility 220 is washed and snow-removed.

Thereafter, the main server 230 determines whether the service is executed according to the maintenance service information through the user terminal 240 (S340).

Thereafter, in step S340, if execution is not confirmed according to the maintenance service information, the process returns to the previous step and checks again whether or not execution is performed according to the maintenance service information, and in step S340, the maintenance service information If it is confirmed whether the execution according to the main server 230, the user terminal 240 checks whether the failure signal and the after-sales service for the photovoltaic facility 220 is requested (S350).

Subsequently, in step S350, the mobile application is terminated if the failure signal and A / S service are not requested. In step S350, if the failure signal and A / S service is requested, the main server 230 sends the request. A failure signal and an A / S service request are received (S360).

Thereafter, the main server 230 notifies the maintenance company terminal 250 that the failure signal and the A / S service request have been received (S370).

Subsequently, the failure signal and reply information for the A / S service request are transmitted from the maintenance manager terminal 250 to the user terminal 240 (S380).

In the manner as described above, the solar power plant maintenance system according to the present invention is executed.

Hereinafter, referring to FIG. 4 and FIG. 5, the solar power plant maintenance system according to the present invention will be described in more detail.

In step S310 of registering the photovoltaic facility 220 to the main server 230, the information of the user terminal 240 and the information of the photovoltaic facility 220 should be registered in the main server 230.

In addition, in step S330 in which the information on the power plant overview is transmitted from the main server 230 to the user terminal 240, the information on the power plant overview is the solar tube array 221, the relay terminal box 223, Information on the capacity and specification of each inverter 225, information on the manufacturer and the time of manufacture, information on the warranty period, and the solar tube array 221, the terminal box 223 and the inverter 225 It includes information on installation time, installation company information, warranty period, and contact information.

In addition, in the step S330 in which information on the power generation status is transmitted from the main server 230 to the user terminal 240, the information on the power generation status information on the real-time power generation, information on the daily and monthly power generation, cumulative It includes information on the amount of power generated, information on the current power consumption, information on the electricity bill, and information on the power generation environment (air temperature, solar radiation, solar array temperature). Here, the information on the current power consumption is set by subtracting the amount of power supplied from the utility facility 210 from the amount of power generated by the photovoltaic facility 220.

In addition, in operation S330 in which maintenance service information is transmitted from the main server 230 to the user terminal 240, the maintenance service information includes information on daily check (daily check list, a method of detecting abnormalities), Includes information on periodic inspection (period of periodic inspection and number of years), information on cleaning and snow removal (information necessary for cleaning and snow removal), and information on after-sales service (free A / S period and A / S items) do.

In addition, in operation S330 in which the maintenance guide information is transmitted from the main server 230 to the user terminal 240, the maintenance guide information is a maintenance notification service, basic information necessary for maintenance, statutory data and guidelines, Includes contact information for relevant organizations.

In addition, in step S340, execution of the maintenance service information is executed based on the maintenance guide information. Here, an application and a UI for providing a maintenance manual are executed to check whether the maintenance service information is executed.

On the other hand, in the step S330, the main server 230 calculates the average (A (S)) and the deviation (ΔS) for the power output from the photovoltaic facility 220, the calculated average and When the deviation has a value below the average but the deviation is greater than or equal to the threshold value (l), the maintenance service information on the photovoltaic facility 220 is provided to the user terminal 240, so that the photovoltaic facility 220 Allow to be cleaned and snowed.

As described above, the photovoltaic power generation facility management system according to the present invention is constructed by integrating information on the current state of photovoltaic power generation, information on the current power consumption status, and information for photovoltaic power generation facility maintenance. In addition to the status of photovoltaic power generation and current power consumption, maintenance service information for daily inspection, regular inspection, cleaning and snow removal can be provided through a mobile application. In addition, it is possible to maximize the amount of power generation of the photovoltaic facility, and the user can maintain the photovoltaic facility in real time through a customized mobile application.

As described above, the present invention has been described based on the preferred embodiments, but these embodiments are intended to illustrate the present invention, not to limit the present invention, so that those skilled in the art to which the present invention pertains can perform the above without departing from the technical spirit of the present invention. Various changes, modifications or adjustments to the example will be possible. Therefore, the protection scope of the present invention should be construed as including all changes, modifications or adjustments belonging to the gist of the technical idea of the present invention.

210: public facilities 220: photovoltaic power generation facilities
221 solar cell array 223 relay terminal box
225: inverter 230: main server
240: user terminal 250: maintenance company terminal

Claims (3)

A public facility 210 for supplying electricity produced through a power plant;
A photovoltaic facility (220) configured to supply electricity produced by condensing sunlight and comprising a solar cell array (221), a relay terminal box (223), and an inverter (225);
It is connected to the public facilities 210 and the photovoltaic power generation unit 220, and collects and manages the information on the amount of power supplied from the public facilities 210 and the information about the amount of power supplied from the photovoltaic facility 220 And, the main server 230 for providing the maintenance service information on the photovoltaic facility 220 to the user terminal 240;
Is connected to the main server 230, the information on the amount of power supplied from the public facilities 210, the information on the amount of power supplied from the photovoltaic facility 220 and the photovoltaic facility 220 The user terminal receives the maintenance service information from the main server 230, and transmits the information on the failure signal and the after-sales service request for the photovoltaic facility 220 to the main server 230. 240; And
The maintenance server terminal 250 is connected to the main server 230 and receives information on the failure signal and A / S service request related to the photovoltaic power generation facility 220 from the main server 230. To;
The main server 230 receives the failure signal and the information on the after-sales service request for the photovoltaic facility 220 from the user terminal 240 and transmits it to the maintenance company terminal 250, Send reply information on the failure signal and A / S service request from the maintenance company terminal 250 to the user terminal 240;
The main server 230 is a maintenance service information for the photovoltaic power generation facility 220, the measurement information for the grounding facility of the solar cell array 221 of the photovoltaic power generation facility 220, and the relay terminal box ( Information about the insulation resistance and the open voltage of the power supply 223 and information about the insulation resistance and the input stop time timer operation test of the inverter 225 are transmitted to the user terminal 240;
The main server 230 calculates an average (A (S)) and a deviation (ΔS) for the power output from the photovoltaic facility 220 according to Equation 1 below, and calculates the average and When the deviation has a value below the average but the deviation is greater than or equal to the threshold value (l), the maintenance service information on the photovoltaic facility 220 is provided to the user terminal 240, so that the photovoltaic facility 220 Solar power plant maintenance system, characterized in that the cleaning and snow removal.

Equation 1
Average: ∑S / T = M (S), Deviation: M (S) -S = △ S
if (△ S ≥ l, wash and snow)
if (△ S <l, operating standby)
Where S; Yield, T: hour, l: threshold:
The method according to claim 1,
The main server 230 calculates the current power consumption in real time based on the information on the amount of power supplied from the utility facility 210 and the information on the amount of power supplied from the photovoltaic facility 220. Solar power plant maintenance system.
The method according to claim 1,
The photovoltaic facility 220 is a photovoltaic facility maintenance system, characterized in that it further comprises a power conversion device for operating in an optimized state by monitoring the amount of power generated from the solar cell array (221).

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