KR20230084864A - operation and maintenance system for microgrid using augmented reality - Google Patents

Abstract

A realistic microgrid operation and maintenance management system and method according to the present invention includes a database in which standard data for microgrid facility information is stored, a data collection unit that collects and classifies the microgrid facility operation state information, and the data The facility operation status information collected through the collection unit is compared with the standard data stored in the database, and if it is analyzed as an abnormal operation status, a decision-making unit that determines the maintenance direction, and the decision-making unit takes realistic maintenance inspection measures. When is determined, the facility site manager is guided to the facility inspection work based on augmented reality, the facility site manager collects the facility inspection work information, and the collected facility maintenance work information can be transmitted to the expert. It includes a site manager terminal in which a maintenance inspection program is built. If the present invention is used, there is an advantage in that the operating state of the microgrid facility can be systematically self-diagnosed, and the site manager can perform simple maintenance directly under the guidance of a realistic maintenance inspection program.

Description

Operation and maintenance system for microgrid using augmented reality}

The present invention relates to a realistic microgrid operation and maintenance system and method capable of remotely operating and maintaining a microgrid.

A microgrid is a smart grid system of small units that can be self-sufficient in electricity in a small area. In other words, it is a next-generation power system that combines renewable energy sources such as solar and wind power with energy storage systems (ESS) as a small-scale independent power grid.

For this reason, microgrid facilities are often installed and operated outside the urban area, such as in remote areas of mountains, remote islands, and the sea, and for this reason, it is difficult and inefficient to monitor microgrid facilities.

For example, when a microgrid facility does not operate normally, a worker must visit the site to identify the cause of the failure and repair it. there was no

In addition, it is an environment in which the cause of failure and all processes of repair work are completely dependent on field workers. Therefore, if a field worker is an unskilled person who cannot identify the cause of a failure or cannot repair it, a problem of not finding the failure part can be expected. And these problems also lead to the problem of revisiting failures or warning events without sufficiently resolving them. It is natural that such time and economic loss due to revisiting is undesirable in that it causes unexpected loss costs in the first place.

In addition, it is said that a field worker can call a remote manager or manufacturer's master worker to explain the problem and receive instructions accordingly to perform repairs, but this method alone cannot accurately deliver problem descriptions and instructions , the repair time will be significantly delayed.

Of course, Korean Registered Patent No. 10-1874098 (diagnosis management method for renewable energy facilities using a mobile terminal and its system) proposes a technology that secures a certain level of diagnosis regardless of the worker's skill level. However, since the operator inputs the diagnostic results for the equipment in the field of the prior patent, there is a problem in that an inexperienced person cannot perform the diagnosis itself and cannot accurately input the diagnostic results.

Korean Patent Registration No. 10-1874098

The present invention has been made to solve the above problems, and provides a realistic microgrid operation and maintenance management system and method for field managers to directly inspect facilities if the severity is not high when a failure or warning event occurs. there is

The realistic microgrid operation and maintenance system according to the present invention for realizing the above object includes a database in which standard data for microgrid facility information is stored, and a data collection unit that collects and classifies the microgrid facility operation status information. And, a decision-making unit that compares the facility operation state information collected through the data collection unit with standard data stored in the database, and determines a maintenance direction when analyzed as an abnormal operation state, and a realistic type by the decision-making unit When the maintenance inspection action is determined, the facility inspection work is guided to the facility site manager based on augmented reality, the facility site manager collects facility inspection work information, and the collected facility inspection work information can be transmitted to the expert. It includes a field manager terminal in which a realistic maintenance inspection program is built.

The database may extract the sample data by trial-running the microgrid facility for a certain period of time in various scenarios related to the facility operation state.

The decision-making unit may determine the maintenance direction as one of a warning state in which the realistic maintenance check is performed and a risk state in which an action to immediately call the expert is performed as the maintenance direction according to the severity of the emergency operation state.

The immersive maintenance inspection program includes a non-contact inspection program built to inspect facilities in a non-contact manner, photograph the corresponding image and transmit it to the expert, directly manipulate and inspect the facility, and film the corresponding operation as a video. It may consist of a contact method inspection program built to be transmitted to the expert.

The non-contact type inspection program targets facilities that can check the operation status by numerical value, level, on/off, and has a function that can determine whether the checked operation status is normal or abnormal. can include

In addition, the realistic microgrid operation and maintenance method according to the present invention for realizing the above object includes the steps of collecting and classifying microgrid facility operation status information, and standard data stored in the database for the collected facility operation status information. Analyzing whether it is a normal operation state or an abnormal operation state in comparison with, and determining a maintenance direction if the abnormal operation state is analyzed; It includes a step in which the facility site manager performs facility inspection work based on augmented reality by executing the built realistic maintenance inspection program.

The database extracts sample data by commissioning the microgrid facility in various scenarios related to the facility operation state for a certain period of time, and presets criteria for classifying the normal operation state and the abnormal operation state based on the standard data. can be built by

The maintenance direction is determined as one of a warning state and a dangerous state according to the severity of the abnormal operation state, and when the warning state is determined, the realistic maintenance inspection measure is executed, and when the dangerous state is determined, the expert An action that immediately invokes can be executed.

The immersive maintenance inspection step includes inspecting the facility in a non-contact manner, photographing a corresponding image and transmitting the image to the expert, directly manipulating and inspecting the facility, photographing the corresponding operation, and transmitting the image to the expert. can include

The present invention monitors microgrid facilities in real time, systematically self-diagnoses whether an abnormal operation state occurs when a failure or warning event occurs based on standard data in the database, and if the severity of the abnormal operation state is not high, the site manager realizes it. Guided by the Type Maintenance Inspection Program, you can inspect your facility yourself and fix the problem.

1 is a block diagram showing a realistic microgrid operation and maintenance management system according to the present invention.
2 to 5 are diagrams showing examples of realistic maintenance by the system shown in FIG. 1 .
6 is a schematic flowchart of a realistic microgrid operation and maintenance method according to the present invention.
7 is a detailed flowchart of a realistic microgrid operation and maintenance method according to the present invention.

Referring to the accompanying drawings, a preferred embodiment of the present invention will be described.

As shown below in FIG. 1, the realistic microgrid operation and maintenance system according to an embodiment of the present invention is built as a series of systems based on the microgrid facility 10 and the IoT (Internet of Things) communication environment. It may be, and includes a server 20 and a user terminal 30, the server 20 includes a database 22, a data collection unit 24, and a decision-making unit 26.

The database 22 is built based on standard data for information related to the operation and maintenance of the microgrid facility 10. That is, when the microgrid facility 10 is built, sample data can be extracted by trial running the microgrid facility 10 for a certain period of time according to a predetermined virtual scenario. Virtual scenarios can be planned to derive arbitrary operating conditions that may occur in the process of operating and maintaining the microgrid facility 10. For example, the hypothetical scenario may include a normal command for normal operation of the microgrid facility 10 and an abnormal command for deriving an abnormal operating state. In addition, a hypothetical scenario can be planned so that the microgrid facility 10 can be arbitrarily operated in an abnormal operating state to derive a result related thereto. Virtual scenarios can be made in various ways to prepare for various events.

Standard data may be classified and built in various ways, such as for each microgrid facility or for various series of processes related to operation and maintenance of the microgrid facility 10 .

When the standard data is extracted in this way, the database 22 calculates the data range for the normal operating state and the abnormal operating state based on the standard data, and sets the calculated data range, that is, the criterion in advance in the database 22. , the database 22 may have a data detection function.

The data collection unit 24 collects and classifies operational state information of the microgrid facility 10 in real time while actually operating the microgrid facility 10 . The data collection unit 24 may collect information from various sensors and instruments installed in the microgrid facility 10 and data.

The data collection unit 24 may classify the collected data by facility and/or by operation and maintenance process, etc., so that it is possible to quickly diagnose where the problem is in an abnormal operation state.

The decision-making unit 26 uses the data detection function of the database 22 to convert the facility operation state information collected through the data collection unit 24 to the standard of the database 22 based on the criterion set in advance in the database 22. Compare with the data and analyze whether the current facility operation status is a normal or abnormal operation status. That is, if the current facility operation state corresponds to the normal operation state data range of the standard data established in the database 22, it is in the normal operation state, and the current facility operation state corresponds to the abnormal operation state data range of the standard data established in the database 22. If so, it can be self-diagnosed as an abnormal driving condition.

As a result of comparative analysis, the decision making unit 26 determines a maintenance direction for normalizing the current facility operation state when the current facility operation state is analyzed as an abnormal operation state.

The maintenance direction is for rational and efficient maintenance by classifying the severity of abnormal operation conditions.

The maintenance direction can be classified into a dangerous state in which an expert is called immediately and a warning state in which a realistic maintenance check is performed.

That is, the dangerous state is a state in which it is impossible to solve the problem only with the skill or technology of the field manager 1, and the expert may be a manufacturer technician of the microgrid facility 10 or a technician in charge of the facility. Therefore, when the expert immediate call action is executed, the decision-making unit 26 transmits the problem item to the emergency contact network so that the expert is dispatched to the microgrid facility 10 to diagnose and solve the cause of the abnormal operation state. there is.

The warning state is a state in which the site manager 1 can directly inspect the facility by the realistic maintenance inspection program, and a realistic maintenance inspection action can be determined.

In the realistic maintenance inspection measure, when the facility site manager (1) executes a device such as a tablet or augmented reality (31) glass, that is, a realistic maintenance inspection program installed on the site manager terminal (30), first the facility site manager ( 1) is guided through facility inspection work based on augmented reality (31). That is, the immersive maintenance inspection program communicates in real time with each sensor and measuring instrument installed in the field facility to transmit and receive facility inspection work information, render it as an animation, and display it on the field manager terminal 30 . Then, the facility site manager 1 can directly inspect the site facility while looking at the display reproduced on the site manager terminal 30 .

The realistic maintenance inspection program can be executed in two directions, a non-contact type inspection program and a contact type inspection program, depending on the facility inspection method using the realistic maintenance inspection program.

The non-contact inspection program is aimed at facilities that can check the operation status of the facility simply by checking the number (32), level, ON/OFF, such as current, resistance, temperature, and remaining gas. That is, when the facility site manager 1 uses the site manager terminal 30 to approach a facility requiring inspection, the augmented reality of the facility to be inspected is displayed, and the value 32 or level of the facility to be inspected, whether or not it is turned on or off. Information about the etc. may be displayed together. In addition, the facility inspection work information performed by the facility site manager 1 in a non-contact manner is collected through the site manager terminal 30 through image taking, etc., and the facility inspection work information collected by the site manager terminal 30 is IoT communication protocol can be sent to the expert via

The contact-type inspection program targets facilities that can be solved by simply manipulating a lever, button, or switch directly by the facility site manager (1). That is, when the facility site manager 1 approaches a facility requiring inspection using the site manager terminal 30 in which the realistic maintenance inspection program is installed, the augmented reality of the facility to be inspected is displayed, and the facility site manager 1 has a lever. Guides for operations such as buttons, switches, etc. may be displayed together through comments or video images. Therefore, the facility site manager 1 can simply inspect the facility directly in the field according to the guide of the realistic maintenance inspection program. This facility inspection work information is collected through the site manager terminal 30 in the form of video images, and the facility inspection work information collected in the site manager terminal 30 may be transmitted to an expert through an IoT communication protocol.

Therefore, the expert diagnoses the cause of the abnormal operation by looking at the facility inspection work information, and feeds the facility site manager 1 a problem solution plan or instruction comment through the site manager terminal 30, or directly provides a microcomputer with a problem solution plan. A visit to the grid facility 10 can solve the problem quickly.

Meanwhile, expert feedback through the site manager terminal 30 is a function that requests an expert to determine whether or not the facility site inspection work collected by the site manager terminal 30 is normal, and can be built into a realistic maintenance inspection program. Therefore, the facility site manager 1 can be guided through the facility inspection work according to the expert feedback through the site manager terminal 30, and the facility inspection work information is collected in the site manager terminal 30 and transmitted to the expert. By repeating the process, it is possible to complete the on-site inspection work for the abnormal operation state, and if the re-check result determines that the operation state is normal, the microgrid facility 10 can be operated normally.

The operational effects of the realistic microgrid operation and maintenance method according to an embodiment of the present invention configured as described above are described in detail as follows.

The present invention can be largely composed of a database construction step (S10), a microgrid operation state determination step (S20), a maintenance action determining step (S30), and an inspection action execution step (S40).

The database construction step (S10) is an operation of extracting standard data as a preliminary work step.

Microgrid operation state determination step (S20) may be as follows.

First, the data collection unit 24 collects the operation status information of the microgrid facility 10 in real time through the IoT communication protocol through each sensor or instrument installed in the microgrid facility 10, and the data collection unit 24 The facility operation state information collected in may be classified according to a facility or the like according to a predetermined process (S22).

After data classification, the collected facility operating state information is compared with the standard data stored in the database 22, and based on the criteria set in advance in the database 22, whether it is a normal operating state (S25) or an abnormal operating state (S26) It is analyzed (S24).

The next maintenance action determining step (S30) may be as follows.

As a result of the analysis, if it is analyzed as an abnormal operating state, the maintenance direction can be determined according to the severity of the abnormal operating state (S32), a warning state (S34), or a dangerous state (S35).

The next inspection action execution step (S40) may be as follows.

When the maintenance direction is determined to be in a dangerous state, an expert immediate call action (S42) is executed.

When the maintenance direction is determined to be in a warning state, a realistic maintenance inspection measure (S44) is executed as follows.

The realistic maintenance inspection measure (S44) may proceed to a non-contact type inspection (S44a) and a contact type inspection (S44b).

Each realistic maintenance inspection action (S44) first executes a realistic maintenance inspection program in the site manager terminal 30 to guide the facility site manager 1 to the facility inspection work based on the augmented reality 31. (S45).

Next, facility inspection work information performed by the facility site manager 1 is collected in the realistic maintenance inspection program through the site manager terminal 30 (S46).

Next, the facility inspection work information collected in the realistic maintenance inspection program is transmitted to the expert through the IoT communication protocol (S47).

On the other hand, the expert may transmit feedback to the site manager terminal 30 through the IoT communication protocol (S48), and the site manager 1 repeatedly executes realistic maintenance check measures based on the feedback, thereby inspecting the site. process can be completed.

As described above, the technical ideas described in the embodiments of the present invention may be implemented independently, or may be implemented in combination with each other. In addition, the present invention has been described through the embodiments described in the drawings and detailed description of the invention, but these are only exemplary, and various modifications and other equivalent embodiments may be made by those skilled in the art in the art to which the present invention belongs. possible. Therefore, the technical protection scope of the present invention should be defined by the appended claims.

One; site manager 10; microgrid
20; server 22; database
24; data collection unit 26; decision-making department
30; Field manager terminal

Claims (9)

Database storing standard data on microgrid facility information;
a data collection unit that collects and classifies the microgrid facility operation state information;
a decision-making unit that compares the facility operation state information collected through the data collection unit with standard data stored in the database, and determines a maintenance direction when it is analyzed as an abnormal operation state;
When a realistic maintenance inspection measure is determined by the decision-making unit, the facility inspection work is guided to the facility site manager based on augmented reality, the facility site manager collects facility inspection work information, and the collected facility inspection is performed. Including a field manager terminal with a realistic maintenance inspection program capable of transmitting work information to experts,
Realistic microgrid facility operation and maintenance system. According to claim 1,
The database is a realistic microgrid operation and maintenance system in which the sample data is extracted by commissioning the microgrid facility in various scenarios related to the facility operation state for a certain period of time. According to claim 1,
The decision-making unit determines the maintenance direction according to the severity of the emergency operation state as one of the warning state in which the realistic maintenance inspection action is performed and the risk state in which the action of immediately calling the expert is performed, operating a realistic microgrid. and maintenance system. According to claim 1,
The immersive maintenance inspection program includes a non-contact inspection program built to inspect facilities in a non-contact manner, photograph the corresponding image and transmit it to the expert, directly manipulate and inspect the facility, and film the corresponding operation as a video. A realistic microgrid operation and maintenance system consisting of a contact method inspection program built to be transmitted to the expert. According to claim 4,
The non-contact type inspection program targets facilities that can check the operation status by numerical value, level, on/off, and has a function that can determine whether the checked operation status is normal or abnormal. Including, realistic microgrid operation and maintenance system. Collecting and classifying microgrid facility operation status information;
comparing the collected facility operating state information with standard data stored in a database to analyze whether it is a normal operating state or an abnormal operating state;
determining a maintenance direction when the abnormal operation state is analyzed; and
If the maintenance direction is a realistic maintenance inspection measure, executing a realistic maintenance inspection program built in the site manager terminal so that the facility site manager performs facility inspection work based on augmented reality. Grid operation and maintenance method. According to claim 6,
The database extracts sample data by commissioning the microgrid facility in various scenarios related to the facility operation state for a certain period of time, and presets criteria for classifying the normal operation state and the abnormal operation state based on the standard data. A realistic microgrid operation and maintenance method established by According to claim 6,
The maintenance direction is determined as one of a warning state and a dangerous state according to the severity of the abnormal operation state,
When the warning state is determined, the realistic maintenance check action is executed,
A realistic microgrid operation and maintenance method in which an action of immediately calling the expert is executed when the dangerous state is determined. According to claim 6,
The realistic maintenance check action step is
Inspecting the facility in a non-contact manner, taking a corresponding image and sending it to the expert;
A realistic microgrid operation and maintenance method comprising the step of directly manipulating and inspecting the facility, filming the work, and transmitting the video to the expert.

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