KR102432818B1 - Surveillance equipment condition confirming apparatus and method - Google Patents

Abstract

The present invention relates to a status confirmation apparatus for confirming a status of monitoring equipment, comprising: an identification unit for identifying status information data generated from mounted devices pre-mounted on the monitoring equipment; a classification unit for classifying the status information data identified from the identification unit according to a degree of relationship with a status abnormality of each part constituting the monitoring equipment; and an inspection unit for analyzing the status information data classified from the classification unit to confirm the status of the monitoring equipment by parts. The status confirmation apparatus easily confirms the status of the monitoring equipment by using the mounted devices that are pre-mounted on the monitoring equipment.

Description

Monitoring equipment status check device and status check method {SURVEILLANCE EQUIPMENT CONDITION CONFIRMING APPARATUS AND METHOD}

The present invention relates to an apparatus for checking the status of monitoring equipment and a method for checking the status, and to an apparatus and method for checking the status of monitoring equipment, which can easily check the status of monitoring equipment using status information data generated by the monitoring equipment.

In general, monitoring equipment is used to monitor a specific space. Surveillance equipment may be divided into surveillance equipment using a CCD (Chang Coupled Device) camera and surveillance equipment using a thermal camera.

CCD cameras can only monitor where there is light, so they are not suitable for use in places where there is no light or at night. Thermal cameras can be used for night surveillance by detecting heat emitted from objects. Therefore, the military uses a lot of surveillance equipment using a thermal camera because it is necessary to monitor the enemy's approach to the front, the coast, the river, etc. not only during the daytime but also at night.

At this time, since the monitoring equipment must be operated all the time, if a failure occurs while performing a mission, there is a void in the power. Therefore, it is necessary to check the status of the monitoring equipment and to repair the monitoring equipment before it actually malfunctions. Accordingly, various sensors may be additionally mounted on the monitoring equipment in order to check the status of the monitoring equipment. However, if a sensor cannot be additionally mounted on the monitoring equipment due to weight restrictions, etc., there is a problem in that the status of the monitoring equipment cannot be checked.

US 10-0919834 B

The present invention provides an apparatus for checking the status of monitoring equipment and a method for checking the status of monitoring equipment, which can easily check the status of monitoring equipment using status information data generated by the monitoring equipment.

The present invention provides a monitoring equipment status checking device and a status checking method capable of stably operating the monitoring device.

The present invention provides a status checking device for checking the status of monitoring equipment, comprising: an identification unit for identifying status information data generated by on-board devices already mounted on the monitoring device; a classification unit for classifying the state information data identified by the identification unit according to the degree of relevance to the state abnormality of each of the components constituting the monitoring equipment; and an inspection unit for analyzing the state information data classified by the classification unit and confirming the state of the monitoring equipment for each part.

The monitoring equipment is equipped with an operator for collecting state information values included in the state information data generated by each of the on-board equipment, and the classification unit is configured to collect state information data generated when a state abnormality occurs for each part of other monitoring equipment. an information storage for storing change amount information about the change amount; and an information analyzer for selecting state information data having a degree of relevance to an abnormal state for each part according to the change amount information.

The classification unit may include: a file generator for generating the state information data selected by the information analyzer as a file and storing it in the operator; and a file organizer for organizing unnecessary files among the files generated by the file generator.

The classification unit further includes a software modifier for modifying the software of the operator so that the file generator stores files in the operator and the file organizer cleans unnecessary files.

The file generator sequentially generates files for each time period, and the file organizer deletes files generated during a time when the monitoring equipment is not operated among the files stored in the operator.

The check unit, the receiver for receiving the file stored in the operator; a comparator for comparing the status information value of the status information data included in the received file with a preset setting value; and a determiner for determining whether maintenance is required for each part of the monitoring equipment according to the comparison result of the comparator.

The receiver is connected to the operator by wire or wirelessly.

The monitoring equipment includes a thermal imaging monitoring device, and the status information data includes at least one status information data of temperature, current, voltage, vibration, pressure, and flow rate.

The comparator provides a set value for each type of state information data.

The present invention provides a status checking method for checking the status of monitoring equipment, comprising: identifying status information data generated by on-board devices already mounted on the monitoring device; Classifying the identified status information data according to the degree of relevance to the status abnormality of each of the components constituting the monitoring equipment; and analyzing the classified status information data to check the status of the monitoring equipment for each part.

An operator for collecting the state information values included in the state information data is mounted on the monitoring equipment, and the process of identifying the state information data includes the process of confirming the types of the state information data collected by the operator do.

The process of classifying the state information data generated by each of the on-board devices includes: obtaining change amount information on the change amount of the state information data generated when a state abnormality occurs for each part of the other monitoring equipment; and selecting state information data having a degree of relevance to a state abnormality for each part according to the change amount information.

The process of selecting the state information data having a degree of relevance to the state abnormality for each part according to the change amount information includes: comparing the change amount of the state information data generated when the state abnormality for each part of other monitoring equipment occurs with a preset reference value; and a process of determining that status information data equal to or greater than the reference value among the status information data generated when a condition abnormality occurs for each component of other monitoring equipment is related to the condition abnormality of the corresponding component and selecting the selected component.

The process of selecting the state information data having a degree of relevance to the state abnormality for each part according to the change amount information may include: generating the selected state information data as a file and storing the selected state information data in the operator; and a process of arranging unnecessary files among the files stored in the operator.

The process of generating the selected state information data into a file includes the process of including a date and time zone of the state information data creation in a file name, and the process of organizing the unnecessary files includes the file name of the file and the monitoring The process of comparing non-operational times when equipment is not in operation; and deleting a file whose time zone of the file name overlaps the non-operation time zone among the files.

The step of checking the status of the monitoring equipment for each part may include: comparing the status information value of the status information data of the file stored in the operator with a preset setting value; and a process of determining that maintenance of a part having a degree of relevance to the corresponding state information data is necessary if the state information value is equal to or greater than the set value.

The process of comparing the state information value of the state information data of the file stored in the operator with the set value may include: preparing a set value for each type of state information data; and a process of comparing with a set value according to the type of state information data.

The status information data includes at least one status information data of temperature, current, voltage, vibration, pressure, and flow rate, and the abnormal status of electronic components among components of the monitoring equipment is any one of temperature, current, and voltage. There is a degree of correlation with, and the condition of the mechanical parts is related to any one of vibration, pressure, and flow rate.

According to embodiments of the present invention, it is possible to easily check the status of the monitoring equipment by using the on-board devices already mounted on the monitoring equipment. Accordingly, a separate sensor may not be attached to the monitoring equipment in order to check the status of the monitoring equipment. Therefore, even if there is a restriction in not being able to attach a sensor, it is possible to stably operate the monitoring equipment.

1 is a view showing an apparatus for checking the status of monitoring equipment according to an embodiment of the present invention.
2 is a flowchart illustrating a method for checking the status of monitoring equipment according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in more detail with reference to the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but will be implemented in various different forms, and only these embodiments allow the disclosure of the present invention to be complete, and the scope of the invention to those of ordinary skill in the art will be completely It is provided to inform you. In order to explain the invention in detail, the drawings may be exaggerated, and like numerals refer to like elements in the drawings.

1 is a view showing an apparatus for checking the status of monitoring equipment according to an embodiment of the present invention. Hereinafter, an apparatus for checking the status of monitoring equipment according to an embodiment of the present invention will be described.

The monitoring device status checking device according to an embodiment of the present invention is a status checking device for checking the status of the monitoring device. Referring to FIG. 1 , the monitoring equipment state checking device 100 includes an identification unit 110 , a classification unit 120 , and an inspection unit 130 .

At this time, in order to understand the present invention, the monitoring equipment 50 will be described first. Monitoring equipment is installed to monitor a specific space. The monitoring device 50 includes a plurality of on-board devices 51 for acquiring different status information data, and an operator 52 for collecting status information values included in the status information data generated by each of the on-board devices 51 . may be installed. For example, the monitoring device may be a thermal imaging device, and the mounted device 51 may include a thermal imaging device for detecting heat emitted from an object. The thermal observer can detect the temperature as a state information value. However, the structure of the monitoring equipment 50 and the type of mounted equipment provided are not limited thereto, and may vary.

The identification unit 110 may be connected to send and receive signals with the operator 52 of the monitoring equipment 50 . Accordingly, the identification unit 110 may check the types of state information data collected in the operator 52 . For example, if the temperature-related status information value is collected in the monitoring device 50, an on-board device that measures or detects the temperature is mounted on the monitoring device 50 to identify that there is temperature status information data, and the current-related status If the information value is collected, the on-board device that measures or detects the current is mounted on the monitoring device 50 to identify that there is current state information data, and if the voltage-related state information value is collected, the on-board device that measures or detects the voltage is mounted on the monitoring device 50 to identify that there is voltage state information data, and if the vibration-related state information value is collected, an on-board device that measures or detects vibration is mounted on the monitoring equipment 50 and the vibration state information data is If it is identified that there is a state information value related to pressure is collected, an on-board device that measures or detects pressure is mounted on the monitoring device 50 to identify that there is pressure state information data, and if state information values related to flow are collected An on-board device for measuring or detecting the flow rate is mounted on the monitoring device 50 so that it can be identified that there is flow state information data. Accordingly, the identification unit 110 may identify the types of status information data generated by the monitoring device 50 by analyzing the status information values.

The classification unit 120 may be connected to the identification unit 110 to send and receive a signal. Accordingly, the classification unit 120 classifies the state information data generated by each of the on-board devices identified by the identification unit 110 according to the degree of relevance to the state abnormality of each of the components constituting the monitoring equipment 50 . can The classification unit 120 includes an information storage 121 and an information analyzer 122 .

The information storage 121 may store change amount information on the change amount of the state information data generated when a state abnormality occurs for each part of other monitoring equipment. That is, the change amount information obtained while operating other monitoring equipment may be input to the information storage 121 and stored.

The information analyzer 122 may be connected to send and receive signals to and from the information storage 121 . Accordingly, the information analyzer 122 may select the state information data having a degree of relevance to the state abnormality for each part according to the change amount information. For example, the state information data may include state information data of at least one of temperature, current, voltage, vibration, pressure, and flow rate. Therefore, the amount of change of the state information data generated when a condition abnormality occurs for each part of other monitoring equipment is compared with a preset reference value, and among the state information data generated when an abnormal condition for each component of other monitoring equipment occurs, the state information data equal to or greater than the reference value is It can be selected by judging that it is related to the abnormal condition of the part.

Meanwhile, as shown in FIG. 1 , the classification unit 120 may further include a file generator 123 . The file generator 123 may be connected to send and receive a signal to and from the information analyzer 122 . Accordingly, the file generator 123 may generate the state information data selected by the information analyzer 122 as a file and store it in the operator 52 . In addition, the file generator 123 may sequentially generate files for each time zone, include the date and time zone in which the status information data is generated, in the file name, and set the location to store the file in the operator 52, and the format of the file. have. For example, the file generator 123 may create a data file in the form of a text file (.txt) and store the file in a storage location (eg D;/Date folder) set in the operator 52 . However, the file name of the file generated by the data writer 131, the format of the generated file, and the location where the file is stored are not limited thereto and may vary.

In this case, the file generator 123 may set a period for generating a file. For example, the file generator 123 is set to create a file every 6 hours, 0:00-06:00, 06:00-12:00, 12:00-18:00, 18:00-24 One file can be created every :00 hour. The file name includes the date and time when the status information data was created, and the generated data is sorted according to the set period in the order of creation time, so the user can easily see the file name and see which time zone the file contains status information data. can be checked However, the period set by the file generator 123 is not limited thereto and may vary.

Also, as shown in FIG. 1 , the classification unit 120 may further include a file organizer 124 . Unnecessary files among the files generated by the file generator 123 may be cleaned up. For example, if information on a time zone not operated by the operator 52 is not separately input to the file generator 123 , the file generator 123 may generate a file even in a time zone not operated by the operator 52 . . Accordingly, by using the file organizer 124 capable of detecting a time period in which the operator 52 is not in operation, it is possible to delete a file generated during a time when the monitoring equipment is not in operation among the files stored in the operator 52 . Accordingly, since unnecessary files are not stored in the manager 52 and are deleted, the user may not check unnecessary data, and the capacity of the space in which the files are stored in the manager 52 may be efficiently managed.

Meanwhile, as shown in FIG. 1 , the classification unit 120 may further include a software modifier 125 . The software modifier 125 may be connected to send and receive signals to and from the operator 52 . Accordingly, the software modifier 125 may modify the software of the manager 52 so that the file generator 123 stores the files in the operator and the file organizer cleans unnecessary files. In addition, in order to transmit the file including the state information data selected by the information analyzer 122 to the inspection unit 130 , the operator 52 to allow the file stored in the operator 52 to be transmitted to the inspection unit 130 . ) software can be modified.

The inspection unit 130 may analyze the state information data classified by the classification unit 120 to check the state of the monitoring equipment)_ by parts. The inspection unit 130 includes a receiver 131 , a comparator 132 , and a determiner 133 .

The receiver 131 may be connected to the operator 52 by wire or wirelessly. For example, the receiver 131 and the operator 52 may communicate in a wireless LAN (LAN) method. Accordingly, the receiver 131 may receive the file stored in the operator 52 .

The comparator 132 may be connected to transmit and receive a signal to and from the receiver 131 . Accordingly, the comparator 132 may receive the file received by the receiver 131 . The comparator 132 may compare the state information value of the state information data included in the received file with a preset setting value. In this case, the comparator 132 may provide a set value for each type of state information data. Accordingly, a set value can be selected and compared according to the type of status information data included in the received file. For example, when the type of the state information data is the state information data of the temperature, the comparator 132 may compare the set temperature with the state information data.

The determiner 133 may be connected to transmit and receive a signal to and from the comparator 132 . Accordingly, the determiner 133 may determine whether maintenance is required for each part of the monitoring equipment 50 according to the comparison result of the comparator 132 . For example, if the state information value of the state information data is greater than or equal to the set value, it can be determined that the parts of the monitoring equipment 50 that are related to the state information data need maintenance, and the state information value of the state information data is If it is less than the set value, it may be determined that the parts of the monitoring equipment 50 that are related to the corresponding state information data do not need maintenance. Therefore, by monitoring the state of the monitoring equipment 50, it is possible to perform preventive maintenance work before each component of the monitoring equipment 50 actually fails.

For example, among the components of monitoring equipment, an abnormal condition of an electronic component is related to any one of temperature, current, and voltage, and an abnormal condition of a mechanical component is related to any one of vibration, pressure, and flow rate. . Accordingly, when the state information data of at least one of the temperature, current, and voltage is greater than or equal to the set value, it may be determined that the electronic component of the monitoring equipment needs repair. If the state information data of at least any one of vibration, pressure, and flow rate is greater than or equal to a set value, it may be determined that a mechanical part of the monitoring equipment needs repair. Accordingly, it is possible to easily check which part of the monitoring equipment 50 has a state abnormality.

As such, it is possible to easily check the status of the monitoring device 50 by using the mounted devices 51 mounted on the monitoring device 50 . Therefore, a separate sensor may not be attached to the monitoring device 50 in order to check the status of the monitoring device 50 . Accordingly, even if there is a restriction that the sensor cannot be attached, the monitoring equipment 50 can be stably operated.

2 is a flowchart illustrating a method for checking the status of monitoring equipment according to an embodiment of the present invention. Hereinafter, a method for checking the status of monitoring equipment according to an embodiment of the present invention will be described.

The method for checking the status of monitoring equipment according to an embodiment of the present invention is a method for checking the status of monitoring equipment. Referring to FIG. 2 , the method for checking the status of monitoring equipment includes a process of identifying status information data generated from on-board devices already mounted on the monitoring device (S110), state information data generated by each of the identified on-board devices, It includes a process of classifying the parts constituting the monitoring equipment according to the degree of relevance to the abnormal state (S120), and a process of analyzing the classified state information data and confirming the state of the monitoring equipment for each part (S130). .

At this time, the monitoring equipment status checking method may be performed by the monitoring device status checking device according to an embodiment of the present invention as shown in FIG. 1 . However, the present invention is not limited thereto, and the monitoring equipment status checking method may be performed using various devices.

First, the devices already mounted on the monitoring equipment are identified (S110). That is, it is possible to determine the types of the mounted devices 51 mounted on the monitoring device 50 by checking the types of the state information data collected in the operator 52 of the monitoring device 50 . For example, if the monitoring device 50 collects temperature-related state information values, it is identified that there is temperature state information data, and if current-related state information data is collected, it is identified that there is current state information data, and voltage and If the relevant state information data is collected, it is identified that there is voltage state information data; if the vibration-related state information data is collected, it is identified that there is vibration state information data; It can be identified that there is a flow rate state information data if the flow rate-related state information data is collected.

Then, the identified state information data is classified according to the degree of relevance to the abnormal state of each of the components constituting the monitoring equipment (S120). To this end, it is possible to obtain change amount information about the change amount of the state information data generated when a state abnormality occurs for each part of the other monitoring equipment. Accordingly, it is possible to select state information data having a degree of relevance to an abnormal state for each part according to the change amount information. In this case, the amount of change of the state information data may be expressed as a percentage. However, the method of indicating the amount of change of the state information data is not limited thereto and may vary.

In detail, it is possible to compare the amount of change in the state information data generated when a state abnormality occurs for each part of other monitoring equipment with a preset reference value. Accordingly, it is possible to select, by determining that the state information data equal to or greater than the reference value among the state information data generated when a state abnormality occurs for each part of other monitoring equipment is related to the state abnormality of the corresponding part. Among the status information data generated when a condition abnormality for each part of other monitoring equipment occurs, it may be determined that the status information data that is less than the reference value has no relation to the condition abnormality of the corresponding part.

When the state information data having a degree of relevance to the state abnormality of the part is selected, the selected state information data may be generated as a file and stored in the operator 52 . In this case, files may be sequentially generated for each time period for each set time period, and the date and time zone when the status information data is generated may be included in the file name. Accordingly, the user can easily check which time zone the file contains status information data by looking at the file name.

In addition, after storing the files in the operator 52 , unnecessary files among the files stored in the operator 52 may be cleaned up. That is, it is possible to compare the file name of the file and the non-operational time period in which the monitoring equipment is not operated. Among the files, files whose time zone of the file name overlaps with the non-operating time zone may be deleted, and files that do not overlap may not be deleted. Accordingly, since unnecessary files are not stored in the manager 52 and are deleted, the user may not check unnecessary data, and the capacity of the space in which the files are stored in the manager 52 may be efficiently managed.

Then, by analyzing the classified state information data, the state of the monitoring equipment is checked for each part (S130). That is, the file including the classified state information data may be received from the operator 52 and analyzed. In detail, the state information value of the state information data of the file stored in the operator 52 may be compared with a preset setting value. In this case, a set value may be provided for each type of state information data, and a set value may be selected and compared according to the type of state information data. For example, when the type of the state information data is the state information data of temperature, the comparator 132 may compare the set temperature with the state information data.

As a result of the comparison, if the state information value of the state information data is less than the set value, it may be determined that the parts of the monitoring equipment 50 that are related to the corresponding state information data do not need maintenance. As a result of the comparison, if the value of the state information is equal to or greater than the set value, it may be determined that maintenance of a part having a degree of relevance to the corresponding state information data is necessary. The determination result may be visually or aurally notified to the user through a display or a speaker. Therefore, it is possible to monitor the state of the monitoring equipment 50, and the user can perform preventive maintenance work before each component of the monitoring equipment 50 actually fails.

For example, the state information data may include state information data of at least one of temperature, current, voltage, vibration, pressure, and flow rate. Among the components of the monitoring equipment, an abnormal state of an electronic component is related to any one of temperature, current, and voltage, and an abnormal state of a mechanical component is related to any one of vibration, pressure, and flow rate. Accordingly, when the state information data of at least one of the temperature, current, and voltage is greater than or equal to the set value, it may be determined that the electronic component of the monitoring equipment needs repair. If the state information data of at least any one of vibration, pressure, and flow rate is greater than or equal to a set value, it may be determined that a mechanical part of the monitoring equipment needs repair. Accordingly, it is possible to easily check which part of the monitoring equipment 50 has a state abnormality.

As such, it is possible to easily check the status of the monitoring device 50 by using the mounted devices 51 mounted on the monitoring device 50 . Therefore, a separate sensor may not be attached to the monitoring device 50 in order to check the status of the monitoring device 50 . Accordingly, even if there is a restriction that the sensor cannot be attached, the monitoring equipment 50 can be stably operated.

As such, although specific embodiments have been described in the detailed description of the present invention, various modifications are possible without departing from the scope of the present invention, and various combinations between the embodiments are possible. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined by the claims to be described below as well as the claims and equivalents.

50: monitoring equipment 51: mounted device
52: operator 100: monitoring equipment status check device
110: identification unit 120: classification unit
130: inspection unit

Claims (18)

As a status checking device for checking the status of monitoring equipment,
an identification unit for identifying status information data generated by on-board devices already mounted on the monitoring device;
a classification unit for classifying the state information data identified by the identification unit according to the degree of relevance to the state abnormality of each of the components constituting the monitoring equipment; and
and an inspection unit for analyzing the state information data classified by the classification unit and confirming the state of the monitoring equipment for each part;
The monitoring device is equipped with an operator for collecting the status information value included in the status information data generated by each of the mounted devices,
The classification unit,
An information storage in which change amount information about the change amount of the state information data generated when a state abnormality occurs for each part of other monitoring equipment is stored;
an information analyzer for selecting state information data having a degree of relevance to a state abnormality for each part according to the change amount information;
A file generator for generating the status information data selected by the information analyzer as sequential files for each time period and storing it in the operator; and
Detects a non-operating time period in which the operator is not operated, and compares the time when the file generator creates a file with the non-operation time period, and deletes a file generated at a time when the monitoring equipment is not operated among the files stored in the operator. Monitoring equipment status check device including a file organizer for delete delete The method according to claim 1,
The classification unit,
Monitoring equipment status checking device further comprising a software modifier for modifying the software of the operator so that the file generator stores the file in the operator, and the file organizer cleans up unnecessary files. delete The method according to claim 1,
The inspection unit,
a receiver for receiving the file stored in the operator;
a comparator for comparing the status information value of the status information data included in the received file with a preset setting value; and
and a determination unit for determining whether maintenance is required for each part of the monitoring equipment according to the comparison result of the comparator. 7. The method of claim 6,
The receiver is a monitoring equipment status check device connected to the operator by wire or wirelessly. 7. The method of claim 6,
The monitoring equipment includes a thermal imaging device,
The status information data is a monitoring equipment status checking device including at least one status information data of temperature, current, voltage, vibration, pressure, and flow rate. 9. The method of claim 8,
The comparator is a monitoring equipment status checking device that provides a set value for each type of status information data. As a status checking method for checking the status of monitoring equipment,
identifying status information data generated by on-board devices already mounted on the monitoring device;
Classifying the identified status information data according to the degree of relevance to the status abnormality of each of the components constituting the monitoring equipment; and
The process of analyzing the classified state information data and confirming the state of the monitoring equipment for each part;
The monitoring equipment is equipped with an operator for collecting the state information value included in the state information data,
The process of classifying the state information data generated by each of the on-board devices is,
The process of acquiring change amount information about the change amount of the state information data generated when a state abnormality occurs for each part of other monitoring equipment;
A process of selecting state information data having a degree of relevance to a state abnormality for each part according to the change amount information;
The process of generating the selected state information data as a file and storing it in the operator, and
Including the process of arranging unnecessary files among the files stored in the operator,
The process of cleaning up the unnecessary files,
The process of confirming the non-operation time period in which the operator is not operated,
Comparing the time the file was created with the non-operation time zone, and
and deleting a file in which the generated time of the files overlaps the non-operational time zone. 11. The method of claim 10,
The process of identifying the state information data is,
A monitoring equipment status checking method comprising the step of checking the types of status information data collected by the operator. delete 12. The method of claim 11,
The process of selecting state information data having a degree of relevance to a state abnormality for each part according to the change amount information,
a process of comparing the amount of change of the generated state information data with a preset reference value when a state abnormality occurs for each part of other monitoring equipment; and
A method for checking the status of monitoring equipment, comprising: determining that status information data equal to or greater than the reference value from among the status information data generated when a condition abnormality occurs for each component of other monitoring equipment is related to the condition abnormality of the corresponding component; and selecting the status information data. delete 14. The method of claim 13,
The process of generating the selected state information data into a file is,
Including the date and time zone when the status information data was created in a file name,
The process of comparing the file creation time with the non-operation time zone,
and comparing the file name of the file with a non-operating time period in which the monitoring equipment is not operated. 14. The method of claim 13,
The process of checking the status of the monitoring equipment for each part is,
comparing the state information value of the state information data of the file stored in the operator with a preset setting value; and
If the value of the status information is equal to or greater than the set value, determining that maintenance of a part having a degree of relevance to the corresponding status information data is necessary; 17. The method of claim 16,
The process of comparing the state information value of the state information data of the file stored in the operator with the set value,
preparing a set value for each type of state information data; and
A method of checking the status of monitoring equipment, including a process of comparing it with a set value according to the type of status information data. 18. The method of claim 17,
The state information data includes at least one state information data of temperature, current, voltage, vibration, pressure, and flow rate,
Among the components of the monitoring equipment, the abnormal state of the electronic part is related to any one of temperature, current, and voltage, and the abnormal state of the mechanical part is related to any one of vibration, pressure, and flow rate. checking way.

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