KR101507223B1 - Inspection system for field equipment using smart device and inspection method for field equipment therefor - Google Patents

Abstract

Objective data obtained in the process of inspecting the on-site facilities is transmitted to the central control center in real time, and the manager or management department of each on-site facility receives and receives objective inspection data of the relevant on-site facilities in real time through such a central control center The present invention relates to a system for inspecting an on-site facility using a smart device. The system includes a thermal image module for acquiring thermal image data of a site facility according to a control signal received from the outside, A smart device mounted with an application for controlling the operation of the thermal image module and outputting a control signal to the thermal image module and transmitting thermal image data of a field facility transmitted from the thermal image module to an external server through a communication network; From smart device to communication network Receiving an infrared data-site facility that is transmitted is configured to include the site facility management server for storing and managing.

Description

TECHNICAL FIELD [0001] The present invention relates to a system and a method for inspecting a field facility using a smart device,

The objective of the present invention is to provide a system and a method for inspecting an on-site facility using a smart device, wherein objective data obtained in the course of inspection of the on-site facility is transmitted to the central control center in real time, The present invention relates to a system for inspecting an on-site facility using a smart device, which enables a department to receive and confirm objective inspection data of a relevant facility in real time.

Generally, a method of inspecting and managing the on-site facilities of a boiler, a transformer, an air conditioner, etc., is performed by a manager of the facility by going directly to the site and returning the result of the inspection to the central control center. Sensors and other equipment may also be used during the inspection of such on-site facilities.

However, since the inspection method for such a site facility is highly dependent on the intuition of the manager, it is difficult for the manager to recognize the minute abnormality that is difficult for the manager to recognize at an early stage, It is often the case that the facility is raised for reasons such as failure to do so.

For example, over-heating of plant equipment should be checked frequently in the summer or winter when power consumption is high. At this time, all administrators who check the various on- It is difficult to grasp. For this reason, most managers perform a basic check of the field facilities and check whether the facilities are overheated through cognitive ability according to the five senses in the process, and the accuracy thereof is not objective. Accordingly, Overheating and other abnormalities in the accuracy of the inspection is lowered, and it is not possible to raise an abnormality or prevent an accident.

Korean Registered Patent No. 1149141 (2012.05.25. Announcement), " Augmented Reality-based Distribution Facility Management System and Operation Method of Distribution Facility Management System " Korean Patent Publication No. 2011-0090688 (Published on Aug. 10, 2011), "Facility management system and control method thereof"

Disclosure of Invention Technical Problem [8] The present invention has been proposed in order to solve the above-mentioned problems, and it is an object of the present invention to provide a method and system for monitoring It is an object of the present invention to provide an on-site facility inspection system using a smart device that enables systematic integrated management of on-site facilities distributed in various places.

In addition, the present invention is based on the fact that objective data acquired in the course of inspection of the field facility is transmitted to the central control center in real time, and at the same time, the manager or the management department of each field facility receives objective inspection data of the relevant field facility in real- The present invention relates to a system for inspecting an on-site facility using a smart device.

According to another aspect of the present invention, there is provided a system for inspecting a site using a smart device, comprising: a thermal image module for obtaining thermal image data of a site facility according to a control signal received from the outside; A smart device which is mounted with an application for outputting a control signal to the thermal imaging module and transmits the thermal image data of the field facility transmitted from the thermal imaging module to an external server through a communication network, And an on-site facility management server for receiving, storing, and managing thermal image data of the on-site facility.

The infrared imaging module includes a receiving unit for receiving a control signal of the smart device, an infrared detecting device for absorbing radiated infrared energy of the field device as photons according to a control signal of the smart device received at the receiving unit, A detector for detecting a change in electrical resistance proportional to the number of photons and generating a current by exciting electrons according to a photon transmitted from the detecting element and storing the detected electrical resistance as a digital level value; A thermal image generation unit that generates a thermal image corresponding to the brightness value after the conversion into the temperature and converts the converted temperature into a thermal image; and a transmission unit that transmits the thermal image data generated through the thermal image generation unit to the smart device do.

The thermal imaging module may include a connector including the receiving unit and the transmitting unit, and is electrically connected to the circuit of the smart device through the connector.

The connector is protruded from the thermoelectric module and directly coupled to the smart device for mutual support between the thermoelectric module and the smart device.

Further, the thermal imaging module is installed in the vicinity of a site facility and receives the control signal of the smart device through a communication network to obtain thermal image data of the site facility, and then transmits the acquired thermal image data to the smart device through a communication network .

The thermal imaging module is installed in the vicinity of a site facility and receives control signals and thermal image data through short-range wireless communication with the smart device.

The field facility management server includes a communication unit for transmitting and receiving data and various signals through a communication network with the smart device, a control unit for analyzing the thermal image data received through the communication unit, A display unit for receiving and displaying status information of the field facility output from the control unit, and a controller for storing either or both of the thermal image data received through the communication unit and the status information of the field facility generated by the controller And an input unit for inputting a signal for detecting thermal image data from the database server and various other signals to the control unit.

The on-site facility management server may further include an image combining unit for receiving the thermal image data received through the communication unit and the status information of the on-site facility generated by the control unit, and combining the combined image data into one image data, And receives the image data from the combining unit and displays the thermal image data of the field facility and the status information of the field facility based on the thermal image data on one screen.

The control unit may determine whether the thermal image data received through the communication unit is abnormal based on the determination criteria of the abnormality of the thermal image data of the field facility, And an alarm generating unit operating according to a control signal of the control unit to inform the outside of the abnormality of the field facility to the outside.

In addition, the smart device transmits identification information of the on-site facility to the thermal image data of the on-site facility, and the control unit detects identification information of the on-site facility from the thermal image data received through the communication unit, And the state information of the on-site facility is matched with the information and stored in the database server.

In the database server, the identification information of the on-site facilities and the information of the manager or the manager in charge of management are stored and matched with each other. The smart device includes identification information of the on-site facility to the thermal image data of the on- The control unit detects the identification information of the relevant on-site facility from the thermal image data received through the communication unit, and detects the information of the manager or the management unit of the corresponding on-site facility matching with the detected identification information from the database server And provides status information of the on-site facility to the management person in charge or the management department in real time.

The smart card may include a communication unit for transmitting and receiving data and various signals through a communication network with the smart device, a display unit for displaying thermal image data received through the communication unit, A control unit for storing data in a database server and detecting thermal image data stored in the database server and outputting the detected thermal image data to the display unit; an input unit for inputting signals and other signals for detecting thermal image data to the control unit; And a database server for storing and detecting the thermal image data according to the control signal of the control unit.

In addition, the smart device transmits identification information of the on-site facility to the thermal image data of the on-site facility, and the control unit detects the identification information of the on-site facility from the thermal image data received through the communication unit, The thermal image data of the site facility is matched with the information, and the thermal image data is stored in the database server.

In the database server, the identification information of the on-site facilities and the information of the manager or the manager in charge of management are stored and matched with each other. The smart device includes identification information of the on-site facility to the thermal image data of the on- The control unit detects the identification information of the relevant on-site facility from the thermal image data received through the communication unit, and detects the information of the manager or the management unit of the corresponding on-site facility matching with the detected identification information from the database server And the thermal image data of the site facility is provided to the management person in charge or the management department in real time.

Further comprising a smart device on which an application for measurement of either or both of vibration and noise of a field facility through which thermal image data is obtained through the thermographic module and in which a vibration sensor is installed, And transmits either one or both of vibration data and noise data of the relevant field facility measured through the smart device when thermal image data of the field facility is transmitted to the field facility management server.

The smart device may further include an application for receiving thermal image data of the field facility from the smart device and measuring a temperature value of the field facility.

Meanwhile, the on-site facility inspection system using the smart device according to the present invention includes a thermal image module for acquiring thermal image data of a field facility according to a control signal received from the outside, an operation control of the thermal image module, A smart device for outputting a control signal to the thermal imaging module, analyzing thermal image data of a field facility transmitted from the thermal imaging module, and transmitting analysis result data to an external server through a communication network; And an on-site facility management server that receives, stores, and manages thermal image analysis result data of a site facility transmitted from a smart device through a communication network.

A method for inspecting an on-site facility using a smart device according to the present invention includes the steps of: transmitting a control signal according to application execution of a smart device to a thermo-graphic module; And transmitting the thermal image data of the field facility transmitted from the thermal imaging module to the field facility management server through a communication network; And the management server transmitting the thermal image data of the field facility transmitted from the smart device to the manager of the field facility or the terminal of the management unit.

According to another aspect of the present invention, there is provided a method for inspecting an on-site facility using a smart device, the method comprising the steps of: storing, by the on-site facility management server, thermal image data of a site facility transmitted from the smart device,

In addition, the step of storing the thermal image data of the field facility transmitted from the smart facility by the field facility management server in the connected database server may include storing the thermal image data transmitted from the smart facility, And storing the thermal image data of the plurality of field equipments in a table form by matching the thermal image data of the on-site equipments to the identification information detected after detecting the identification information of the field equipments.

The step of transmitting the thermal image data of the field facility transmitted from the smart facility by the site facility management server to the administrator of the site facility or the terminal of the management site may include the steps of: Detecting the identification information of the relevant on-site facility included in the data and detecting the information of the manager or the management department matching with the identification information detected from the connected database server and transmitting the thermal image data of the site facility to the terminal of the detected manager or management department And transmitting the data.

The step of transmitting the thermal image data of the field facility transmitted from the smart facility by the field facility management server to the terminal of the administrator of the field facility or the terminal of the management department may include the steps of: Analyzing the thermal image data to generate status information of the corresponding on-site facility; synthesizing the status information of the on-site facility generated by the on-site facility management server into thermal image data of the on-site facility; And transmitting the synthesized thermal image data to a terminal of an administrator or a management unit of the corresponding site facility.

The step of transmitting the synthesized thermal image data to the administrator of the site facility or the terminal of the management site may include receiving the site information included in the thermal image data transmitted from the smart device, And a step of detecting the information of the manager or the management department matching with the identification information detected after detecting the identification information of the facility from the connected database server and transmitting the synthesized thermal image data to the terminal of the detected manager or management unit .

In addition, the step of operating the thermographic module according to a control signal of the smart device to acquire thermal image data of the field facility and then transmitting the thermal image data to the smart device may include the steps of: Wherein either one or both of vibration and noise are measured by a smart device equipped with the measurement application and the vibration sensor and the vibration and noise data of the field facility measured by the smart device Transmitting the thermal image data of the field facility acquired through the thermal imaging module to the on-site facility management server through a communication network, Noise data is transmitted together with either or both of the noise data The.

In addition, the step of storing the thermal image data of the field facility transmitted from the smart facility by the field facility management server in the connected database server may include storing the thermal image data transmitted from the smart facility, The data for management of the multiple on-site facilities is stored in the form of a table in such a manner that one or both of the thermal image data of the relevant site facility and the vibration and noise data are matched together with the identification information detected after the identification information of the site facility The method comprising the steps of:

According to the present invention, the inspection of the on-site facilities is performed in such a manner as to obtain objective data, and the data thus obtained is transmitted and stored in real time to the central control center through the smart device, Management can be done.

In addition, objective data acquired during the inspection of the field facility is transferred to the central control center in real time, and at the same time, the manager or management department of each field facility can receive and check objective inspection data of the relevant field facility in real time through such central control center .

FIG. 1 is a block diagram showing a system for inspecting an on-site facility using a smart device according to an embodiment of the present invention.
2 and 3 are diagrams showing an example of data storage of a database server in a field facility inspection system using a smart device according to an embodiment of the present invention
FIG. 4 is a block diagram for an additional explanation of the field facility inspection system using the smart device according to FIG.
5 is a block diagram showing another example of the field facility management server in the field facility inspection system using the smart device according to the embodiment of the present invention
6 is a block diagram of an on-site facility inspection system using a smart device according to another embodiment of the present invention
7 to 9 are flow charts of a method of checking a site facility using a smart device according to an embodiment of the present invention

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a system and method for checking a site facility using a smart device according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a block diagram showing a system for inspecting a site facility using a smart device according to an embodiment of the present invention. Referring to FIG.

As shown in FIG. 1, the system for inspecting a facility using a smart device according to an exemplary embodiment of the present invention includes a thermal imaging module 110, a smart device 120, and a site facility check server 130. In addition, the on-site facility check system using the smart device according to an embodiment of the present invention may further include a management unit terminal 140, an administrator terminal 150, and a smart device 160.

The thermal imaging module 110 acquires thermal image data of the field facility in accordance with a control signal received from the smart device 120.

The thermal imaging module 110 may include a receiving unit 111, an infrared detecting device 112, a detector 113, a thermal image generating unit 114, and a transmitting unit 115.

The receiving unit 111 receives the control signal of the smart device 120 and the infrared detecting device 112 receives the control signal of the smart device 120 according to the control signal of the smart device 120 received by the receiving unit 111, Absorbing infrared energy as a photon. In addition, the detector 113 generates an electric current by exciting the electrons according to the photons transmitted from the infrared detecting element 112, detects a change in electrical resistance proportional to the number of photons and stores the detected change as a digital level value, The controller 114 converts the digital level value of the detector 113 to a temperature through a temperature correction function, and generates a converted temperature image as a thermal image corresponding to the brightness value. The transmission unit 115 transmits the thermal image data generated through the thermal image generation unit 114 to the smart device 120.

The smart device 120 is loaded with an application 121 for controlling the operation of the thermo image module 110 and outputs a control signal to the thermo image module 110 through execution of the application 121. [ The smart device 120 transmits the thermal image data of the field facility 200 transmitted from the thermal imaging module 110 to the field facility management server 130 through a communication network.

The site facility management server 130 receives, stores, and manages thermal image data of the site facility 200 transmitted from the smart device 120 through a communication network.

The site facility management server 130 may include a communication unit 131, a control unit 132, a display unit 133, a database server 134, and an input unit 135.

The communication unit 131 transmits and receives data and various signals through a communication network with the smart device 120. The control unit 132 analyzes the thermal image data received through the communication unit, And outputting the result. The display unit 133 receives and displays the status information of the field facility output from the control unit 132. The database server 134 receives the thermal image data received through the communication unit and the site information And a function of storing either or both of the status information of the facility. The input unit 135 inputs a signal for detecting thermal image data and other various signals from the database server 134 to the control unit 132.

The on-site facility management server 130 may further include an image synthesis unit 136 and an alarm generation unit 137.

The image synthesis unit 136 receives the thermal image data received through the communication unit 131 and the state information of the field facility 200 generated by the control unit 132 and combines them into one image data. Accordingly, the display unit 133 receives the image data from the image combining unit 136, and displays the thermal image data of the field facility 200 and the state information of the field facility 200 based on the thermal image data on one screen.

The alarm generating unit 137 operates in accordance with the control signal of the control unit 132 to operate the on-site facility (not shown) 200) to the outside. For this, the control unit 132 preliminarily determines a criterion for determining whether or not the thermal image data of the field facility 200 is abnormal, and determines whether the thermal image data received through the communication unit 131 is abnormal And outputs the control signal to the alarm generating unit 137 when it is determined that there is an abnormality.

The site facility management server 130 detects the identification information of the relevant site facility 200 from the thermal image data received through the communication unit 131 by the control unit 132, And stores the matching information in the database server 134. [ To this end, the smart device 120 transmits identification information of the corresponding on-site facility 200 to the thermal image data of the on-site facility 200.

Referring to FIG. 2, FIG. 2 is a diagram illustrating an example in which state information of the field facility 200 is stored in the database server 134. As shown in the figure, the state information of the corresponding field facility 200 is matched and stored in the form of a table based on the identification information of the field facilities 200. Accordingly, the administrator can relatively easily find and confirm the on-site facilities 200 and the status information to be searched from among a large number of the on-site facilities 200 and the status information thereof. This is an operation for managing the status information of the on- This provides an advantage that can be relatively easily achieved.

1, the site facility management server 130 detects the identification information of the relevant site facility 200 from the thermal image data received through the communication unit 131, 200 from the database server 134 to provide information on the status of the on-site facility 200 in real time to a management representative or management department that is detected and detected. To this end, in the database server 134, the identification information of the on-site facility 200 and the information of the person in charge of management or the department in charge of management are stored and matched with each other, and the smart device 120 corresponds to the thermal image data of the site facility 200 The identification information of the field facility 200 is included and transmitted.

Referring to FIG. 3, FIG. 3 shows an example in which the database server 134 stores the field facility 200 and its identification code, and the person in charge or the department in charge, in a table format.

1, the smart device 160 includes applications 161 and 162 for measurement of either or both of vibration and noise of the field facility 200 where thermal image data is acquired via the thermal imaging module 110, The vibration sensor 163 is mounted. The smart device 160 may also be connected to the on-site facility 200, which may be measured through the execution of the vibration measurement application 161 and the vibration data of the field facility 200, measured through the vibration sensor 163, To the smart device (120).

The smart device 120 transmits vibration data and noise data of the corresponding on-site facility 200 measured through the smart device 160 during the transmission of the thermal image data of the site facility 200 to the site facility management server 130 Send either or both together.

The smart device 160 may further include an application for receiving the thermal image data of the site facility 200 from the smart device 120 and measuring the temperature value of the site facility 200.

1 shows only one of the field facility 200, the thermal imaging module 110, the smart device 120, the management terminal 140 and the administrator terminal 150, And it is a matter of course that a plurality of the on-site facilities 200, the thermal imaging module 110, the smart device 120, the management department terminal 140, and the administrator terminal 150 are used as shown in FIG.

1, the thermoelectric module 110 includes a connector 116 including a receiving unit 111 and a transmitting unit 115 so as to be electrically connected to the circuit of the smart device 120 through the connector 116 . The connector 116 may be configured to protrude from the thermo image module 110 and directly couple to the smart device 120 for mutual support between the thermal imaging module 110 and the smart device 120. [ The connector 116 may be modified in various ways, and detailed description thereof will be omitted in the present embodiment.

The thermal imaging module 110 is installed in the vicinity of the field facility 200 and receives the control signal of the smart device 120 through the communication network so that the thermal imaging module 110, And to transmit the thermal image data acquired after obtaining the thermal image data of the field facility 200 to the smart device 120 through the communication network. Alternatively, the thermal imaging module 110 may be installed around the field facility 200 to receive control signals and transmit thermal image data via short-range wireless communication with the smart device 120.

Next, another example of the field facility management server in the field facility inspection system using the smart device according to the embodiment of the present invention will be described with reference to FIG.

5 is a block diagram illustrating another example of the field facility management server in the field facility inspection system using the smart device according to the embodiment of the present invention.

The site facility management server 230 includes a communication unit 231, a display unit 233, a control unit 232, an input unit 235, and a database server 234.

The communication unit 231 transmits and receives data and various signals through a communication network with the smart device 120. The display unit 233 displays thermal image data received through the communication unit 231. [ The control unit 232 also stores thermal image data received through the communication unit 231 in the database server 234 and detects thermal image data stored in the database server 234 and outputs the detected thermal image data to the display unit 233 The input unit 235 inputs a signal for detecting thermal image data and various other signals to the control unit 232. Finally, the database server 234 functions to store and detect the thermal image data according to the control signal of the controller 232.

That is, the developing facility management server 230 may compare the thermal image data of the field facility 200 received through the communication unit 231 with the display unit 233 And thus the site facility management server 230 does not include the image composition unit 136 of the site facility management server 130 according to the embodiment of FIG.

The site facility management server 230 detects the identification information of the relevant site facility 200 from the thermal image data received by the control unit 232 through the communication unit 231, 200, and stores the matched image data in the database server 234. To this end, the smart device 120 transmits identification information of the corresponding on-site facility 200 to the thermal image data of the on-site facility 200.

Also, after detecting the identification information of the relevant on-site facility 200 from the thermal image data received through the communication unit 231, the information of the manager or the management unit of the corresponding on-site facility 200, which is matched with the detected identification information, And provide thermal image data of the site facility 200 to the management personnel or the management department detected and detected by the site manager 234 in real time. To this end, in the database server 234, the identification information of the field facility 200 and the information of the manager or the department in charge of management thereof are matched and stored, and the smart device 120 corresponds to the thermal image data of the field facility 200 And may include identification information of the field facility 200 and transmit the same.

Next, a system for inspecting a site facility using a smart device according to another embodiment of the present invention will be described with reference to FIG.

FIG. 6 is a block diagram of a field facility inspection system using a smart device according to another embodiment of the present invention.

As shown in the figure, a system for inspecting a site facility using a smart device according to the present embodiment includes a thermal imaging module 310, a smart device 320, and a site facility management server 330.

The thermal imaging module 310 acquires thermal image data of the field facility 200 in accordance with a control signal received from the smart device 320.

The smart device 320 includes an application 321 for controlling the operation of the thermal imaging module 310 and analyzing the thermal image data to output a control signal to the thermal imaging module 310, Analyzes the thermal image data of the field facility 200 to be transmitted, and transmits the analysis result data to the field facility management server 330 through the communication network. In addition, the smart device 320 may transmit the thermal image data of the site facility 200 to the site facility management server 330 when the thermal image data of the site facility 200 is analyzed.

The site facility management server 330 receives, stores, and manages thermal image analysis result data of the site facility 200 transmitted from the smart device 320 through a communication network.

That is, the smart device 320 has a function of analyzing the thermal image data obtained from the thermal imaging module 310, and the smart device 320 has a function And an application 321 for analyzing image data is provided.

The smart device 320 transmits identification information of the corresponding on-site facility 200 to the thermal image data of the on-site facility 200. The on-site facility management server 330 receives the thermal image data from the thermal image data received through the communication network The identification information of the field facility 200 may be detected and the thermal image data of the site facility 200 may be matched with the identification information to be stored and managed.

The smart device 320 transmits identification information of the corresponding on-site facility 200 to the thermal image data of the on-site facility 200. The on-site facility management server 330 transmits the identification information of the on- The information on the management personnel or the management responsible department is stored in a matching manner to detect the identification information of the relevant on-site facility 200 from the thermal image data received through the communication network, The management personnel or the management department of the on-site facility may be detected and the thermal image data of the on-site facility may be provided in real time to the management person or the management department to be detected.

Next, a method of checking a site facility using a smart device according to an embodiment of the present invention will be described with reference to FIGS.

Prior to description, in the present embodiment, the field facility inspection system using a smart device is a structure of a field facility inspection system using the smart device according to FIGS. 1 to 5, and therefore, in the following description, The same reference numerals as those of the field facility inspection system using the smart device are used.

7, a control signal according to the execution of the application 121 of the smart device 120 is transmitted to the thermo-graphic module 110 in step S110, as shown in the figure.

The thermal imaging module 110 operates in accordance with the control signal of the smart device 120 to acquire thermal image data of the field facility 200 in step S120.

In step S130, the thermal imaging module 110 transmits the thermal image data of the acquired field facility 200 to the smart device 120. [

Referring to FIG. 8, step S130 may include steps from step S131 to step S133.

Either or both of the vibration and the noise of the field facility 200 in which the thermal image data is obtained through the thermal imaging module 110 in step S131 may cause the measurement applications 161 and 162 and the vibration sensor 163 to be mounted Is measured by one smart device 160.

And sends either or both of the vibration and noise data of the field facility measured by the smart device 160 to the smart device 120 in step S132.

In step S133, when the smart device 120 transmits the thermal image data of the field facility 200 obtained through the thermal image module 110 to the field facility management server 130 via the communication network, And transmits either or both of vibration and noise data of the corresponding field facility 200 to be transmitted together.

7, the smart device 120 transmits the thermal image data of the field facility 200 transmitted from the thermal imaging module 110 to the field facility management server 130 via the communication network in step S140.

The local facility management server 130 transmits the thermal image data of the field facility 200 transmitted from the smart device 120 to the administrator terminal 150 or the management unit terminal 140 of the corresponding site facility 200 in step S150, Lt; / RTI >

The field facility management server 130 may further include storing the thermal image data of the field facility 200 transmitted from the smart device 120 in the connected database server 134 in step S150. Here, the on-site facility management server 130 detects the identification information of the relevant on-site facility 200 included in the thermal image data transmitted from the smart device 120, and matches the thermal image data of the on-site facility with the identification information detected And storing the thermal image data of the multiple on-site facilities 200 in the form of a table in the form of a table.

In step S150, the on-site facility management server 130 detects the identification information of the relevant on-site facility 200 included in the thermal image data transmitted from the smart device 120, And transmitting the thermal image data of the field facility 200 to the detected manager terminal 150 or the management terminal 140 by detecting the information of the department from the connected database server 134.

Referring to FIG. 9, step S150 may be a step from step S151 to step S154.

The field facility management server 130 analyzes the thermal image data of the field facility 200 received via the communication network in step S151.

In step S152, the site facility management server 130 generates the state information of the corresponding site facility 200 according to the analysis result of step S151.

The field facility management server 130 synthesizes the state information of the field facility 200 generated in step S152 with the thermal image data of the corresponding field facility 200 in step S153.

The field facility management server 130 transmits the synthesized thermal image data to the administrator terminal 150 or the management unit terminal 140 of the corresponding site facility 200 in step S154. Here, the step S154 may be performed by a manager or an administrator matching the identification information detected after detecting the identification information of the relevant on-site facility 200 included in the thermal image data transmitted from the smart device 120 And detecting the information of the management unit from the connected database server 134 and transmitting the synthesized thermal image data to the detected manager terminal 150 or the management terminal 140.

As can be seen from the embodiments of FIGS. 1 to 9, the system for inspecting the on-site facility using the smart device and the method thereof according to the present invention are configured such that the inspection of the on- As the acquired data is transmitted and stored in real time to the central control center through the smart device, it can be systematically integrated management of the on-site facilities distributed in various places.

In addition, the objective data acquired during the inspection of the field facilities is transmitted to the central control center in real time. At the same time, the administrator or the management department of each site facility can receive and check the objective inspection data of the relevant site facility in real time do.

The present invention is not limited to the above-described embodiment, and various modifications and changes may be made without departing from the scope of the present invention. It will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims.

110: thermal imaging module 111:
112: Infrared detection element 113: Detector
114: thermal image generating unit 115:
116: connector 120: smart device
121: Application 130,230: Field facility management server
131,231 communication unit 132,232:
133, 233: Display unit 134, 234: Database server
135,235 Input unit 136:
137: alarm generating unit 140: management unit terminal
150: administrator terminal 160: smart device
161: Vibration measurement application 162: Noise measurement application
163: Vibration sensor 200: Field facility

Claims (27)

A thermal image module installed in the vicinity of a site facility and acquiring thermal image data of the site facility according to a control signal received from the outside through a communication network;
A smart device in which an application for measurement of either or both of vibration and noise of a field facility through which infrared image data is obtained through the thermal imaging module is mounted and a vibration sensor is installed;
An application for controlling the operation of the thermo-image module is mounted to output a control signal to the thermo-image module, and thermal image data of a field facility transmitted from the thermo-image module through a communication network is transmitted to an external server through a communication network, A smart device that transmits either or both of vibration data and noise data of the relevant field facility measured through the smart device together with identification information of the field facility to the thermal image data of the field facility;
A communication unit for transmitting and receiving data and various signals through a communication network with the smart device, a controller for analyzing the thermal image data received through the communication unit and generating and outputting status information of the corresponding field facility, A database server for storing either or both of the thermal image data received through the communication unit and the status information of the field facility generated by the controller, An input unit for inputting a signal for detecting thermal image data and other various signals, an image synthesis unit for receiving the thermal image data received through the communication unit and the status information of the field facility generated by the control unit, On-site facilities including parts Server,
Wherein the database server stores identification information of the on-site facility and information of the manager in charge or the manager in charge of management,
The control unit detects from the database server the information of the management personnel or the management department of the relevant site facility that matches the identification information detected after detecting the identification information of the relevant on-site facility from the thermal image data received through the communication unit, Provides real-time status information of the on-site facilities to the person in charge or the management department,
Wherein the display unit receives the image data from the image synthesizing unit and displays the thermal image data of the field facility and the state information of the field facility based on the thermal image data on the one screen. 2. The thermal imaging module of claim 1,
A receiving unit for receiving a control signal of the smart device;
An infrared ray detecting element for absorbing radiated infrared energy of a field facility as a photon in response to a control signal of the smart device received at the receiving unit;
A detector for detecting a change in electrical resistance proportional to the number of photons while storing electrons as a digital level value, the electron being excited according to the photons transmitted from the infrared detecting element to generate a current;
A thermal image generation unit for converting a digital level value of the detector into a temperature through a temperature correction function and generating a converted temperature value as a thermal image corresponding to a brightness value;
And a transmitter for transmitting the thermal image data generated through the thermal image generator to the smart device. 3. The method of claim 2,
Wherein the thermal imaging module includes a connector including the receiving unit and the transmitting unit and is electrically connected to the circuit of the smart device through the connector. The method of claim 3,
Wherein the connector is protruded from the thermal imaging module and directly coupled to the smart device for mutual support between the thermal imaging module and the smart device. delete The method according to claim 1,
Wherein the thermal imaging module is installed in the vicinity of a site facility and receives control signals and infrared image data through short distance wireless communication with the smart device. delete delete The method according to claim 1,
Wherein the control unit determines whether an abnormality in the thermal image data received through the communication unit is predetermined based on a determination criterion of abnormality with respect to the thermal image data of the field facility, And outputs,
Further comprising an alarm generator operable in accordance with a control signal of the controller to inform the outside of the abnormality of the field facility to the outside. The method according to claim 1,
Wherein the control unit detects the identification information of the on-site facility from the thermal image data received through the communication unit, and then stores the identification information, which is detected, in the database server by matching the status information of the on-site facility. On - site facility inspection system. delete delete delete delete delete The method according to claim 1,
Wherein the smart device further comprises an application for receiving thermal image data of a site facility from the smart device and measuring a temperature value of the site facility. delete delete delete delete Transmitting a control signal according to application execution of the smart device to the thermo-graphic module;
Receiving the thermal image data of the field facility and transmitting the thermal image data to the smart device in response to a control signal of the smart device;
Wherein either or both of vibration and noise of the field facility through which the thermal image data is obtained through the thermal imaging module is measured by the smart device with the measurement application and the vibration sensor;
Transmitting one or both of vibration and noise data of the field facility measured by the smart device to the smart device;
When the smart device transmits the thermal image data of the field facility acquired through the thermo image module to the field facility management server through the communication network, either one or both of the vibration and noise data of the relevant field facility transmitted from the smart device Transmitting together;
Analyzing thermal image data of a field facility received by the field facility management server through a communication network and generating state information of the field facility;
Synthesizing the state information of the on-site facility generated by the on-site facility management server with the thermal image data of the on-site facility;
And transmitting the synthesized thermal image data to the administrator of the site facility or the terminal of the management site by the site facility management server,
Wherein the step of transmitting the synthesized thermal image data to the manager of the on-site facility or the terminal of the management unit of the on-
Wherein the on-site facility management server detects the identification information of the relevant on-site facility included in the thermal image data transmitted from the smart device, and detects information of an administrator or a management department matching with the identification information detected from the connected database server, And transmitting the synthesized thermal image data to the terminal of the manager or the management department. 22. The method of claim 21,
And storing the thermal image data of the field facility transmitted from the smart device in the connected database server by the field facility management server. 23. The method of claim 22,
Wherein the step of storing the thermal image data of the field facility transmitted from the smart facility by the field facility management server in the connected database server
Wherein the smart device is a smart device, and the smart device is a smart device, and the smart device is a smart device, And storing the data in the form of a table. delete delete delete delete

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