KR101727530B1 - Maintenance System for electric installation based on mobile app - Google Patents

Abstract

The present invention relates to a maintenance system for a mobile app-based electric facility capable of performing a maintenance request for a target electric facility in which an abnormality is indicated as well as an abnormality of an electric facility through a mobile app environment, Sensor means connected to at least one electric facility for collecting measurement data for diagnosing an abnormality of the electric facility and transmitting the collected measurement data; An operation server receiving and storing measurement data of the electric facility from the sensor means, analyzing the measurement data to diagnose the abnormality of the electric facility, and generating and outputting diagnostic data and an event status related thereto; And a user terminal connected to the operation server and receiving diagnosis data and an event status of the electric facility analyzed by the operation server.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a maintenance system for a mobile application-

The present invention relates to a maintenance system for a mobile app-based electric facility capable of performing a maintenance request for a target electric facility in which an abnormality is indicated as well as an abnormality of an electric facility through a mobile app environment.

Generally, as the society develops, the importance and utilization rate of electric, electronic, and communication facilities increase, and the human and material damage that is caused when an electric accident occurs is rapidly increased, so that stable electric power supply is indispensably required.

Therefore, there is a need to develop a system in which the electricity manager can monitor the state of the electric facility in real time regardless of time and place, in order to prevent electric accidents, including electric power plants used in apartment buildings, factories or buildings It came to exist.

The control system of such an electric facility mainly includes a monitoring part for monitoring the status of the electric facility, a diagnosis part for predicting the status of the electric facility through data analysis, a diagnostic part for diagnosing an abnormality, And a security section for performing security.

In addition, when an electric accident occurs in an electric facility, the electric power supply to the consumer is not only stopped but also has an enormous economical effect. Therefore, it is possible to provide an integrated electric safety management for preventing electric accidents It is urgently required to develop a rapid maintenance system.

Conventional conventional remote monitoring systems mainly use a display of a local unit installed on the site, or monitoring through an Internet network and a PC.

Such a remote monitoring system is disadvantageous in that it is difficult to recognize immediately when an accident occurs, because it is possible to monitor the electric facility only when a PC is used at a site visit or in an office or a monitoring room.

As a result, it is necessary to develop a system that can handle the safety management of electric facilities and disaster prevention management, as well as the rapid response to facilities with abnormal symptoms in an online or mobile environment. Development is necessary.

Korean Patent No. 10-1300523 (2013.09.02.)

Accordingly, it is an object of the present invention to provide a mobile application-based electric facility which can confirm whether or not an electric facility is abnormal through a mobile app environment, perform a maintenance request for a target electric facility where an abnormality occurs, System.

In order to achieve the above object, a mobile app-based electric facility maintenance system of the present invention comprises sensor means connected to at least one electric facility for collecting measurement data for diagnosing an abnormality of an electric facility and transmitting the measurement data; An operation server receiving and storing measurement data of the electric facility from the sensor means, analyzing the measurement data to diagnose the abnormality of the electric facility, and generating and outputting diagnostic data and an event status related thereto; And a user terminal connected to the operation server and receiving diagnosis data and an event status of the electric facility analyzed by the operation server.

As one example, the sensor means may include a deterioration sensor for measuring deterioration of the electric facility; An arc detection sensor for detecting an arc of the electric facility; A leakage detection sensor for detecting an electric leakage of the electric facility; A smoke detection sensor for detecting the smoke of the electric facility; And a power meter for measuring power consumption of the electric facility.

As an example, the user terminal may include: a connection request unit for requesting a connection with the operation server; An information receiving unit for receiving diagnostic data and an event status of an electric facility output from the operation server; A repair request transmitter for transmitting a repair request signal to the electric facility; And a display unit for displaying diagnostic data and an event status of the electric facility received through the information receiving unit.

As an example, the present invention may further include at least one business entity terminal connected to the operation server, wherein the user terminal transmits a repair request signal and area information to the electric facility determined as an abnormal symptom through the repair request transmission section, The operation server receives the area information and the repair request signal from the user terminal, selects an adjacent service provider terminal based on the area information, and transmits the diagnostic data and the repair request signal of the electric facility.

As an example, the operation server may include a sensing interval setting unit for setting a sensing interval of the sensor unit; A threshold value setting unit for setting a threshold value of the sensor unit; An abnormality determination unit for determining an abnormality of a sensing value measured through the sensor unit based on a threshold value set by the threshold value setting unit; A measurement interval changing unit for changing a measurement interval of the sensing interval setting unit if an abnormality of the sensing value measured by the abnormality determination unit is determined; And an event signal generator for generating an event signal by determining that an abnormality is detected if the sensing value deviates from a threshold value even if the measurement interval is changed by the measurement interval changing unit.

As an example, the operating server may include a management information database storing sensing information, threshold information, and event status information for the sensor means; And a user information database storing user information including a unique ID of the user terminal.

As described above, the maintenance system of the mobile app-based electric facility according to the present invention can not only check whether there is an abnormality in the electric facility through the mobile app environment, Can be requested.

Accordingly, the operator who performs the maintenance of the electric facility can predict the abnormality of the electric facility in advance and prepare for the appropriate maintenance, so that it is possible to promptly cope with the abnormal situation of the electric facility. So that it is possible to carry out confirmation of presence / absence of abnormality of the electric facility and maintenance request together, thereby providing the user convenience.

1 is a schematic diagram of a maintenance system for a mobile app based electrical facility of the present invention.
2 is a block diagram showing a configuration of sensor means according to an embodiment of the present invention;
3 is a block diagram illustrating a configuration of a user terminal according to an embodiment of the present invention;
4 is a schematic diagram illustrating a vendor terminal according to an embodiment of the present invention;
5 is a block diagram illustrating a configuration of an operation server according to an embodiment of the present invention;

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a mobile app-based electric facility maintenance system according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic diagram of a maintenance system for a mobile app based electrical system of the present invention. As shown in FIG. 1, a maintenance system for a mobile app-based electric facility according to the present invention includes a sensor unit 200 for sensing an electric facility 100, An operation server 300 for diagnosing abnormality of the facility 100 and a user terminal 400 connected to the operation server 300 and receiving diagnosis data for the electric facility 100 .

The sensor unit 200 may be connected to at least one electric facility 100 to collect various measurement data for diagnosing an abnormality of the electric facility 100 and transmit the collected measurement data.

The electric device 100 may include a switchboard, a distribution panel, a motor control panel, a solar power control panel, and the like used in a residence, a factory, a building, etc. In the case of the user terminal 400, It may be a smartphone or tablet PC of a facility manager for management.

The operation server 300 receives the measurement data of the electric facility 100 from the sensor means 200 and stores the measurement data, analyzes the measurement data to diagnose the abnormality of the electric facility 100, And event status can be generated and output.

The user terminal 400 can access the operation server 300 through a wireless communication network and can receive diagnosis data and an event status of the electric facility analyzed by the operation server 300.

The user terminal 400 is connected to the operation server 300 and downloads a mobile application provided by the operation server 300 and executes the downloaded application. The user terminal 400 includes a graphical user interface (GUI) ) Environment, it is possible to output information provided or input a request command or the like.

2 is a block diagram showing a configuration of sensor means according to an embodiment of the present invention.

As described above, the sensor unit 200 measures and collects various data so as to determine whether there is an abnormality in the electric facility 100. The sensor unit 200 is connected to the operation server 300, To the server (300).

2, the sensor unit 200 includes a deterioration sensor 210 for measuring deterioration of the electric facility 100, an arc detection unit 210 for detecting an arc generated in the electric facility 100, A sensor 220 for detecting an electric leakage of the electric facility 100, an electric leakage sensor 230 for detecting an electric leakage of the electric facility 100, a smoke sensor 240 for detecting smoke of the electric facility 100, A power meter 250 for measuring power consumption, and the like.

Sensing information of these sensors may be used as basic data for judging the danger level of the electric facility 100 including a short circuit or fire due to the deterioration factor of the electric facility 100 or determining the normal power consumption of the electric facility 100 Can be utilized.

Here, each of the sensors constituting the sensor means 200 may be configured in various ways through known technologies, and it is preferable to configure the sensors to enable Zigbee communication based on USN communication.

3 is a block diagram illustrating a configuration of a user terminal according to an embodiment of the present invention.

The user terminal 400 includes a connection request unit 410 for requesting connection with the operation server 300 and an information receiving unit 420 for receiving diagnosis data and event status of the electric facility 100 output from the operation server 300. [ A repair request transmitter 430 for transmitting a repair request signal to the electric facility 100 and a diagnosis status and an event status of the electric facility 100 received through the information receiver 420. [ And a display unit 440 for displaying an image.

Each of the configurations of the user terminal 400 can be constructed by executing the mobile application described above, and can exchange data with the operation server 300 through a graphical user interface (GUI) environment as described above.

Herein, the user terminal 400 may be connected to the operation server 300 through a predetermined authentication procedure in requesting a connection with the operation server 300, and various information displayed through the user terminal 400 It is preferably displayed in the form of an icon so that the user can enjoy the convenience.

FIG. 4 is a schematic diagram illustrating a vendor terminal according to an embodiment of the present invention.

Meanwhile, the maintenance system of the mobile app-based electric facility according to an embodiment of the present invention may further include one or more business terminal 500 connected to the operation server 300.

The service provider terminal 500 may be a smartphone or a tablet PC of a service provider operating a maintenance business for the electric facility 100 and concluded a contract in advance so that the service of the operation server 300 can be provided And may be an authenticated terminal.

Meanwhile, the user terminal 400 may request the electric facility 100, which is determined to have an abnormal symptom through the repair request transmitter 430, to perform maintenance.

To this end, the user terminal 400 may transmit a repair request signal to the operation server 300 using the repair request transmitter 430.

At this time, the user terminal 400 transmits the maintenance request signal together with the repair request signal to the operation server 300 or the service provider terminal 500 by transmitting together the area information on which the repair target electric appliance 100 is located, So that it can grasp the exact location of the electric facility 100 to be repaired.

In another example, the operation server 300 identifies the user terminal 400 that has transmitted the repair request signal and identifies the user terminal 400 to which the user terminal 400 is to be repaired based on the user information including the address information input by the user terminal 400 Location can be grasped.

At this time, the user terminal 400 can be connected to the operation server 300 through a unique identification code, for example, a unique ID. The operation server 300 can access the user terminal 400 through the fraud identification code, . ≪ / RTI >

Meanwhile, the operation server 300 receives the repair request signal from the user terminal 400 and can grasp the local information of the corresponding user terminal 400, And can transmit the diagnostic data and the repair request signal of the electric facility 100.

The business entity 500 may also be provided with address information during the authentication process with the operation server 300 for the first time.

One operator terminal 500 selected by the operation server 300 receives the repair request signal of the user terminal 400 transmitted from the operation server 300 and transmits the local information and diagnostic data transmitted together therewith The problems of the electric facility 100 can be predicted easily in advance, so that a quick and accurate repair work can be performed.

5 is a block diagram illustrating a configuration of an operation server according to an embodiment of the present invention.

The operation server 300 according to an exemplary embodiment of the present invention can be configured to determine an accurate abnormality with respect to the management subject electric appliance 100 through the measurement data collected from the sensor means 200. [

5, the operation server 300 includes a sensing interval setting unit 310 for setting a sensing interval of the sensor unit 200, a sensing interval setting unit 310 for setting a threshold value of the sensor unit 200, A threshold value setting unit 320 and an abnormality determination unit 330 for determining whether the sensing value measured through the sensor unit 200 is abnormal based on the threshold value set by the threshold value setting unit 320 .

The sensing interval setting unit 310 is for setting a sensing interval of the sensor unit 300 and sets the sensing interval of the sensors according to the situation of the electric equipment 100 to be managed. For example, if the sensing interval of the specific sensor is set to 10 seconds by the sensing interval setting unit 310, the sensor collects sensing values every 10 seconds.

The threshold value setting unit 320 is used to set a threshold value of the sensor unit 200 and can be used as reference data for determining whether each sensing value of the measurement data reaches a corresponding threshold value.

The abnormality determination unit 330 primarily determines abnormality of each sensing value measured and collected through the sensor unit 200 by referring to the threshold value set by the threshold value setting unit 320. [

The diagnosis result of the electric facility 100 that is primarily discriminated can be reconfirmed by changing the sensing interval of the sensor to determine whether there is a more accurate abnormality.

The operation server 300 may include a measurement interval changing unit 340 for changing the measurement interval of the sensing interval setting unit 310 if an abnormality of the sensing value measured by the abnormality determination unit 330 is determined And an event signal generator 350 for determining that the sensed value is out of the threshold value even if the measurement interval is changed by the measurement interval changing unit 340 and eventually generating an event signal And the like.

In other words, if there is a sensing value exceeding the threshold value, an abnormality is firstly determined. In response to this, in the measurement interval changing unit 340, an abnormal symptom of the sensing value measured by the abnormality determining unit 330 If it is determined, the measurement interval is changed.

For example, if the threshold value is set to 50 and a sensing value of 55 is detected, the abnormality symptom determination unit 330 determines the abnormality as an abnormality, and the measurement interval changing unit 340 changes the measurement interval However, the measurement interval is changed to a shorter interval such as the interval of 5 seconds or the interval of 1 second, so that the detection is finely performed.

If the sensing values of the threshold value range are continuously detected during the measurement, the measurement interval changing unit 340 returns to the initial measurement interval.

On the other hand, if the measurement interval is changed by the measurement interval changing unit 340, the event signal generator 350 determines that the event signal is abnormal and generates an event signal if the threshold value is continuously deviated from the threshold value.

In the case of the present invention, in the case of fixing only one threshold value, there is a possibility of reaching the threshold value in a situation where an abnormal symptom does not occur. Therefore, a false sense may occur. To solve this problem, So that it can be performed in detail.

Finally, the operation server 300 recognizes a specific sensing value of the electric facility determined by the event signal generator 350 and a sensor measuring the sensed value, and predicts an abnormal state of the electric facility, And to output the diagnostic data together with the event signal.

Also, the operation server 300 may analyze the diagnostic data to determine the level of risk for each step in the electric facility 100, if not, (400).

Meanwhile, the operation server 300 of the present invention may further include a management information database and a user information database as shown in FIG.

The management information database 360 stores real-time processing data to be processed from the respective configurations of the operation server 300 described above, and also includes sensing information, setting or changed threshold information, and event status information for the sensor means 200 Lt; / RTI >

Herein, the event status information refers to corresponding sensing information exceeding the threshold value before the occurrence of an alarm. The event status information refers to information about the status of the event through the user terminal 400 at a remote place, Or to familiarize the administrator.

The user information database 370 stores user information including the unique ID of the user terminal 400. The user information is stored in the location and area of the electric facility 100 managed by the user, Information.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. Therefore, the technical scope of the present invention should not be limited to the contents described in the detailed description of the specification, but should be defined by the claims.

100: electric facility 200: sensor means
300: Operation server 400: User terminal
500: Business terminal

Claims (6)

A sensor means connected to at least one electric facility to collect measurement data for detecting an arc and an electric leakage of the electric facility to diagnose the abnormality of the electric facility and transmit the measurement data;
An operation server receiving and storing measurement data of the electric facility from the sensor means, analyzing the measurement data to diagnose the abnormality of the electric facility, and generating and outputting diagnostic data and an event status related thereto;
And a repair request transmitter for receiving a diagnosis request and an event status of an electric facility connected to the operation server and analyzed by the operation server and transmitting a repair request signal to the electric facility, A user terminal for transmitting a repair request signal and local information; And
And one or more vendor terminals connected to the operation server and to which address information is input in advance,
The operation server receives the area information and the repair request signal from the user terminal, grasps the area information of the user terminal, selects the adjacent service provider terminal based on the area information, And to predict a problem of the electric facility through the selected business entity terminal.
The method according to claim 1,
Wherein the sensor means comprises:
A deterioration detection sensor for measuring deterioration of the electric facility;
An arc detection sensor for detecting an arc of the electric facility;
A leakage detection sensor for detecting an electric leakage of the electric facility;
A smoke detection sensor for detecting the smoke of the electric facility; And
And a power meter for measuring a power consumption of the electric facility.
The method according to claim 1,
The user terminal comprises:
A connection request unit for requesting connection with the operation server;
An information receiving unit for receiving diagnostic data and an event status of an electric facility output from the operation server; And
And a display unit for displaying diagnostic data and an event status of the electric facility received through the information receiving unit.
delete The method according to claim 1,
The operating server,
A sensing interval setting unit for setting a sensing interval of the sensor unit;
A threshold value setting unit for setting a threshold value of the sensor unit;
An abnormality determination unit for determining an abnormality of a sensing value measured through the sensor unit based on a threshold value set by the threshold value setting unit;
A measurement interval changing unit for changing a measurement interval of the sensing interval setting unit if an abnormality of the sensing value measured by the abnormality determination unit is determined; And
And an event signal generator for generating an event signal by determining an abnormal symptom when the sensing value deviates from a threshold value even if the measurement interval is changed by the measurement interval changing unit. Repair system.
6. The method of claim 5,
The operating server,
A management information database storing sensing information, threshold information, and event status information for the sensor means; And
And a user information database in which user information including a unique ID of the user terminal is stored.

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