KR101157631B1 - System for managing electric power plant based on ubiquitous and method thereof - Google Patents

Abstract

The present invention relates to a system and method for managing a ubiquitous-based power generation facility to retrieve the facility history through communication with the ubiquitous sensor attached to the power generation facility and to automatically receive the measurement data and maintain and manage the power generation facility. A ubiquitous sensor mounted on a facility to measure data and having a facility identification tag; A facility inspection terminal that recognizes the ubiquitous sensor, receives facility history from a facility management server, receives measurement data from the ubiquitous sensor, and transmits the measured data to a facility management server; And a facility management server for providing facility history to the facility inspection terminal, receiving the measurement data from the facility inspection terminal, and storing and managing the facility data in the facility history.

Description

SYSTEM FOR MANAGING ELECTRIC POWER PLANT BASED ON UBIQUITOUS AND METHOD THEREOF

The present invention relates to a system and method for managing a ubiquitous-based power generation plant, and more particularly, to maintain a power generation facility by searching facility history and automatically receiving measurement data through communication with a ubiquitous sensor attached to the power generation facility. And a management system and method for ubiquitous-based power generation facilities to be managed.

In general, power generation facilities are installed in a wide range of areas, which require a lot of manpower and cost for their maintenance and management.

Currently, the generation and recording of a series of facility histories related to facility maintenance inspection, troubleshooting, and maintenance of power generation facilities are made by individual managers.

This method of manually preparing and collecting the plant history requires considerable time and due time to recognize the site situation of the power plant, making it impossible to check and manage in real time.

Therefore, it is required to improve the overall operation and maintenance of the power generation facilities by IT management of the power generation facilities.

The above technical configuration is a background art for helping understanding of the present invention, and does not mean a conventional technology well known in the art.

The present invention provides a system and method for managing a ubiquitous-based power generation facility to retrieve the facility history through communication with a ubiquitous sensor attached to the power generation facility and automatically receive measurement data to maintain and manage the power generation facility. Its purpose is to.

A ubiquitous based power generation management system according to the present invention includes a ubiquitous sensor mounted on a facility to measure data and include a facility identification tag; A facility inspection terminal that recognizes the ubiquitous sensor, receives facility history from a facility management server, receives measurement data from the ubiquitous sensor, and transmits the measured data to the facility management server; And a facility management server for providing facility history to the facility inspection terminal, receiving the measurement data from the facility inspection terminal, and storing and managing the facility data in facility history, wherein the facility inspection terminal transmits and receives data to and from the ubiquitous sensor. USN communication module for; And a GPS module for checking the location of the facility and its location, wherein the facility management server includes the facility history corresponding to the tag, facility inspection method, facility failure management method and facility location and facility inspection priority. Facility history storage unit for storing the guide information; A facility status diagnosis unit for diagnosing a facility status by comparing a facility check result input from the facility check terminal with a reference value; And receiving the tag from the facility inspection terminal, and providing the facility history corresponding to the tag and a method of proceeding facility inspection. It provides a method for troubleshooting, characterized in that it comprises a facility inspection guide for displaying and guide the facility inspection priority on the facility map according to the location of the facility inspection terminal and the facility.

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In addition, the method for managing a ubiquitous-based power generation equipment according to the present invention, the facility inspection terminal recognizes the ubiquitous sensor attached to the facility and transmits its location information to the facility management server; The facility management server searches the facility history and the facility inspection progress method corresponding to the facility identification tag included in the ubiquitous sensor, and searches the facility inspection priority according to the location of the facility inspection terminal and the location of the facility and provides them to the facility inspection terminal. step; Transmitting, by the facility inspection terminal, measurement data received from the ubiquitous sensor and facility inspection results of the facility to the facility management server; Storing and managing the facility inspection result added to the facility history by the facility management server; Diagnosing a facility state by comparing the facility check result with a reference value; And providing a facility failure management method to the facility inspection terminal by the facility management server when the result of comparing the facility inspection result with the reference value is out of an error range.

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As described above, the present invention retrieves the facility history through communication with the ubiquitous sensor attached to the power generation facility and automatically receives the measurement data to manage the facility history of the power generation facility to manage the power generation facilities installed in a wide area in real time. Can be managed and maintained.

1 is a block diagram illustrating a configuration of a management system of a ubiquitous based power generation facility according to an embodiment of the present invention.
2 is a flowchart illustrating a method of managing a ubiquitous based power generation facility according to an embodiment of the present invention.

Hereinafter, the present invention will be described in more detail with reference to Examples. These embodiments are only for illustrating the present invention, and the scope of rights of the present invention is not limited by these embodiments.

In this process, the thickness of the lines or the size of the components shown in the drawings may be exaggerated for clarity and convenience of description. In addition, the terms described below are defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator. Therefore, definitions of these terms should be made based on the contents throughout the specification.

1 is a block diagram illustrating a configuration of a management system of a ubiquitous based power generation facility according to an embodiment of the present invention.

Management system of the power generation equipment according to an embodiment of the present invention includes a ubiquitous sensor 11, the facility inspection terminal 2 and the facility management server (3).

The ubiquitous sensor 11 is connected to the facility inspection terminal 2 and the USN network 5 to provide measurement data of the facility to the facility inspection terminal 2 through the USN network 5. The ubiquitous sensor 11 has tag information for identifying a facility, and is attached to each facility 1.

The facility inspection terminal 2 recognizes the ubiquitous sensor 11 attached to the power generation facility 1 and transmits a tag for facility identification to the facility management server 3, and the facility for the tag from the facility management server 3. Get a history.

In addition, the facility inspection terminal 2 transmits its location information to the facility management server 3, and displays the location of the facility 1 and its location on the facility map from the facility management server 3 for inspection. Receive priorities for facility inspections.

In addition, the facility inspection terminal 2 transmits the facility inspection result of the facility 1 and the measurement data received from the ubiquitous sensor 11 to the facility management server 3.

The facility inspection terminal 2 includes a ubiquitous sensor 11 and a USN communication module 21 for transmitting and receiving data, a GPS module 22 for confirming the location of the facility 1 and its location, and WIFI / HSDPA. It includes a communication module for transmitting and receiving data with the facility management server (3) through the communication network (4).

In addition, the facility inspection terminal 2 includes a display unit for displaying the facility history and a touch screen interface for inputting the facility inspection result.

When the facility management server 3 receives the tag from the facility inspection terminal 2, the facility management server 3 provides a facility history corresponding to the tag.

In addition, the facility management server 3 is configured to provide not only the facility history but also the facility inspection progress method of the facility corresponding to the corresponding tag.

In addition, the facility management server 3 receives location information from the facility inspection terminal 2 and displays the facility inspection priority on the facility map.

In addition, the facility management server 3 receives the facility inspection result from the facility inspection terminal 2 to store and manage the facility history.

The facility management server 3 includes a facility inspection guide unit 31, a facility history storage unit 32, and a facility state diagnosis unit 33.

When the facility inspection guide unit 31 receives the tag from the facility inspection terminal 2, the facility inspection terminal 2 provides the facility inspection terminal 2 with a facility history for the corresponding tag stored in the facility history storage 32.

The facility history storage unit 32 stores the facility history, facility inspection method, and facility failure action method by tag as a database. In addition, the facility history storage unit 32 stores facility location and facility inspection priority guide information.

The facility status diagnosis unit 33 compares the facility inspection result input from the facility inspection terminal 2 with a reference value to diagnose the facility status.

The facility condition diagnosis unit 33 diagnoses a facility failure when the value of comparing the facility check result and the reference value is outside the error range. That is, the data of past facility history is compared with the current data input as a result, and if the comparison value is out of the error range, it is diagnosed as a facility failure.

The facility inspection guide unit 31 notifies the facility inspection terminal 2 of the facility failure when the facility status diagnosis unit 33 diagnoses the facility failure, and provides a facility failure management method corresponding to the tag stored in the facility history storage unit 32. Search and provide.

When the facility inspection guide unit 31 is described again, the facility inspection terminal 2 receives the tag and provides the facility history corresponding to the tag and the method of proceeding the facility inspection to the facility inspection terminal 2, and the facility state diagnosis unit. If (33) diagnoses the equipment failure, it notifies the equipment inspection terminal (2) of the equipment failure and provides a method for handling the equipment failure, and displays the equipment inspection priority on the equipment map according to the current position of the equipment inspection terminal (2). To guide.

2 is a flowchart illustrating a method of managing a ubiquitous based power generation facility according to an embodiment of the present invention.

Referring to FIG. 2, in the method for managing a power plant according to an embodiment of the present invention, the facility inspection terminal 2 first recognizes a ubiquitous sensor 11 attached to the power plant 1 (S1). (2).

The facility management server 3 provides the facility inspection terminal 2 with facility information corresponding to the tag when the location information of the facility inspection terminal 2 and the tag are transmitted (S3).

At this time, not only the facility history but also a facility inspection progress method are provided. That is, when a tag capable of identifying the facility 1 is transmitted, the facility history and facility inspection progress method for the corresponding tag are automatically provided.

In addition, according to the location information of the facility inspection terminal 2, the facility inspection priority is displayed and provided on the facility map.

Subsequently, the facility inspection terminal 2 displays the facility history received from the facility management server 3, the facility inspection progress method, and the facility inspection priority.

Subsequently, when the manager checks the facility 1 and inputs a facility inspection result to the facility inspection terminal 2 or receives measurement data from the ubiquitous sensor 11 (S4), the facility inspection terminal 2 is connected to the facility inspection result. The measurement data is transmitted to the facility management server 3 (S5).

Then, the facility management server 3 adds the facility inspection result and the measurement data transmitted from the facility inspection terminal 2 to the facility history, and stores it as a database (S6).

Subsequently, when the facility inspection result is input from the facility inspection terminal 2, the facility management server 3 compares the facility inspection result transmitted from the facility inspection terminal 2 with the stored reference value and the comparison value is out of the error range. Check the installation status to diagnose the equipment status (S7).

Here, if the equipment status is diagnosed as equipment failure, the equipment failure management method is provided to the equipment inspection terminal (S8).

Then, the manager performs the maintenance in accordance with the facility failure action method transmitted to the facility inspection terminal (2).

In this way, the present invention is installed in a wide range of areas by retrieving the equipment history through communication with the ubiquitous sensor attached to the power generation facility and automatically receiving the measurement data and managing the facility history of the power generation facility, thus managing and maintaining the power generation facilities in real time. It can be repaired.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It is understandable. Therefore, the true technical protection scope of the present invention will be defined by the claims below.

1 facility 2 facility inspection terminal
3: facility management server 4: communication network
11: tag 21: tag recognition unit
31: facility inspection guide 32: facility history storage
33: facility status diagnosis unit 34: facility failure response unit

Claims (7)

A ubiquitous sensor mounted on a facility to measure data and include a facility identification tag;
A facility inspection terminal that recognizes the ubiquitous sensor, receives facility history from a facility management server, receives measurement data from the ubiquitous sensor, and transmits the measured data to the facility management server; And
Providing a facility history to the facility inspection terminal, and receiving the measurement data from the facility inspection terminal includes a facility management server for storing and managing in the facility history,
The facility inspection terminal,
A USN communication module for transmitting and receiving data with the ubiquitous sensor; And
It includes a GPS module for checking the location of the facility and its location,
The facility management server,
A facility history storage unit for storing the facility history, facility inspection method, facility failure action method and facility location and facility inspection priority guide information corresponding to the tag;
A facility status diagnosis unit for diagnosing a facility status by comparing a facility check result input from the facility check terminal with a reference value; And
Receiving the tag received from the facility inspection terminal provides a facility history and equipment inspection progress method corresponding to the tag, and if the facility status diagnosis unit diagnoses the equipment failure, the equipment inspection terminal notifies the equipment failure and the equipment failure And a facility inspection guide for displaying and guiding the facility inspection priority on the facility map according to the facility inspection terminal and the location of the facility.
delete delete A facility inspection terminal recognizing a ubiquitous sensor attached to the facility and transmitting its location information to the facility management server;
The facility management server searches the facility history and the facility inspection progress method corresponding to the facility identification tag included in the ubiquitous sensor, and searches the facility inspection priority according to the location of the facility inspection terminal and the location of the facility and provides them to the facility inspection terminal. step;
Transmitting, by the facility inspection terminal, measurement data received from the ubiquitous sensor and facility inspection results of the facility to the facility management server;
Storing and managing the facility inspection result added to the facility history by the facility management server;
Diagnosing a facility state by comparing the facility check result with a reference value; And
If the result of comparing the facility check result and the reference value is out of the error range, the facility management server includes the step of providing a facility failure management method to the facility inspection terminal management of ubiquitous based power generation equipment Way.
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